Reverse Engineering Archives - GoMeasure3D https://gomeasure3d.com/category/reverse-engineering/ GoMeasure3D Tue, 09 Jan 2024 23:09:27 +0000 en-US hourly 1 https://wordpress.org/?v=6.4.3 Get 30% Off Geomagic Design X Essentials For A Limited Time https://gomeasure3d.com/blog/promotion-get-30-off-geomagic-design-x-essentials-scan-to-cad-software-until-may-31-2023/ Mon, 01 May 2023 05:31:13 +0000 https://gomeasure3d.com/?p=24858 Extended! From now until June 30, 2023, enjoy 30% off the regular price of Geomagic Design X Essentials software. This promotion makes Geomagic’s Scan to CAD software more accessible than ever before.

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Geomagic Design X Essentials promotion

✨DEAL EXTENDED! From now until June 30, 2023, enjoy 30% off the regular price of Geomagic Design X Essentials software. This promotion makes Geomagic’s 3D reverse engineering software more accessible than ever before.


Geomagic Design X Essentials software box

Over the past decade, 3D scanners (even professional ones) have been coming down in price. It’s a natural progression to see that complementary software is following a similar trend. In 2022, Oqton released Geomagic Design X Essentials (Dxe), an entry-level version of its flagship 3D reverse engineering software, Geomagic Design X. As its name suggests, the new version distills the key toolsets of its iconic Geomagic Design X Scan to CAD solution—but at a fraction of the price of its full-fledged version of the software.


What Can Geomagic Design Essentials Do?

Geomagic Design X Essentials makes it easy and more affordable to reverse engineer existing products and use them as a starting point for the new design. You can acquire the 3D surface measurements of an object with a 3D scanner, and then take full advantage of Geomagic Design X Essentials standalone software to build out editable, feature-based CAD models faster and more accurately than you would designing them from a blank canvas.

With Geomagic Design X Essentials, you can

  • Save Time and Money: Scan prototypes, existing parts, tooling, or related objects, and create designs in a fraction of the time it would take to manually measure and create CAD models from scratch. Shave days or weeks from product idea to finished design to get them faster to market.
  • Design Better Products: Many designs are inspired by one another. Learn from it. Reuse it. Improve on it. Easily rebuild your existing parts into current CAD data, and create drawings and production designs.
  • Build Custom Products: Create products that cannot be designed without reverse engineering, or customized parts that require a perfect fit with the human body. Create components that integrate perfectly with existing products. Recreate complex geometry that cannot be measured any other way.
Design X Essentials Workflow
Geomagic Design X Essentials workflow
Here is a short video demonstration of Geomagic Design X Essentials:
Product information on Geomagic Design X Essentials is available here:
Geomagic Design X Essentials software box

Who Should Use Geomagic Design X?

Design X Essentials is ideal for users:

  • who have reverse engineering needs that may not currently require the entire set provided by Geomagic Design X.
  • with components of low to intermediate complexity.
  • who may only work on reverse engineering projects on an ad-hoc basis.
  • has an affordable 3D scanner and want to use it for doing Scan to CAD applications.
  • wants the reputable Geomagic brand of Scan to CAD software without paying for the full version price.
Building parametric CAD model using Geomagic Design X Essentials

Comparing Geomagic Design X Essentials Versus Geomagic Design X

Not everyone needs the full version of Geomagic Design X. Geomagic Design X Essentials comes with fewer features and at a lower price than the full version. As your business grows or applications change, you may require the ultimate reverse engineering toolkit. It’s easy and straightforward to upgrade your Design X Essentials license for a Design X license. All you need is to pay the difference by applying the price of the Design X Essentials license to the Design X license and first-year maintenance.

Geomagic Design X Essentials vs. Geomagic Design X

This diagram compares the differences between the two software tiers.

Geomagic Design X Essentials vs. Geomagic Design X comparison chart

Get 30% Off Geomagic Design X Essentials Until June 30, 2023

Geomagic software doesn’t usually get special pricing like this so take advantage of this deal before it’s gone!

If you have any questions about Geomagic Design X Essentials before purchasing, please feel free to reach out to us at (434) 946-9125 or email us at sales@gomeasure3d.com. You can also instantly book a Geomagic Design X Essentials online demo with us using our calendar.

Get 30% off Design X Essentials

* GoMeasure3D is an authorized reseller of Oqton in the USA 🇺🇸. We can only sell Geomagic software in this geographical region.

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Which Scan to CAD Tool is Better: SOLIDWORKS Surface from Mesh or Mesh2Surface for SOLIDWORKS? https://gomeasure3d.com/blog/solidworks-surface-from-mesh-vs-mesh2surface-for-solidworks/ Fri, 14 Apr 2023 05:00:30 +0000 https://gomeasure3d.com/?p=24473 Is Surface from Mesh sufficient for handling Scan to CAD projects? How do the features compare to a dedicated Scan to CAD plugin for SOLIDWORKS that’s built specifically for reverse engineering a physical product using 3D scanner data? Let's find out.

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Mesh2Surface vs SOLIDWORKS Surface from Mesh

With more than 6 million designers, engineers, students, entrepreneurs, and makers using SOLIDWORKS around the world, it’s no wonder this 3D modeling software is so popular for product design and development.

There are various tools accessible inside SOLIDWORKS that can help reverse engineer a part from Scan to CAD.

What is Scan to CAD?

3d scan and cad model

The process involves using a 3D model (captured by a 3D scanner) as a guide to constructing a CAD model. Using 3D scanner data as intel is a smarter, faster, and more accurate method of building a CAD model than doing it from a blank slate.

Using the right tool for the job can make all the difference. You can work a lot faster by using the right tool, or get frustrated by using the wrong tool because it hinders you from accomplishing your goal.

SOLIDWORKS has its own mesh modeling toolset called Surface from Mesh. The tools allow you to manipulate a mesh object that you import from an *.stl, *.obj, *.off, *.ply, *.ply2 , or *.3MF file into surfaces and solids. Typically you would export the 3D scanner data as an .stl file and import it into SOLIDWORKS to start the Scan to CAD process.

You might be wondering:

Is Surface from Mesh sufficient to do Scan to CAD projects? How do the features compare to a dedicated Scan to CAD plugin for SOLIDWORKS that’s built specifically for reverse engineering a physical product using 3D scanner data?

Let’s compare them.

Scan to CAD Projects

  • Solidworks Surface from Mesh
    SOLIDWORKS Surface from Mesh

    Toolset available in SOLIDWORKS for mesh modeling

  • Mesh2Surface Plugin Solidworks
    Mesh2Surface plugin for SOLIDWORKS

    Specialized Scan to CAD modeling toolset that works natively inside SOLIDWORKS


Watch Video

Prefer To Watch a Video Instead?

Check out the video version of this article you can watch here.


Quicksurface

The Scan Part of the Scan to CAD Process

Our test involves capturing a 3D model of a real-world object using a 3D scanner and then importing the STL mesh inside SOLIDWORKS.

The goal: transform the 3D scan data into a parametric CAD model.

Scanning with Space Spider
The first part of the Scan to CAD process involves scanning this machined part using an Artec Space Spider handheld 3D scanner into a digital 3D model.
The 3D model of the machined part.
STL mesh
The 3D model is exported as an STL mesh in Artec Studio 3D scanning software. It is then imported into SOLIDWORKS 3D modeling software as a starting point for sketching the CAD model.

Quicksurface

SOLIDWORKS Surface From Mesh

Here we’ll explore various aspects of the Surface from Mesh features to see how good it is at handling 3D scanner data from a professional 3D scanner.

  1. Decimating 3D Scanner Data

    Decimation is a common practice when working on Scan to CAD projects. It means reducing the number of polygons in your 3D mesh to make the file size smaller and more manageable. Using a smaller file size can speed up the Scan to CAD process as it prevents the computer from lagging if the file size is too large for your machine to handle. If done properly, you can maintain relatively good accuracy and resolution compared to the original file, without compromising on quality.

    From our findings, decimating an imported 3D mesh that is 10,000 to 500,000 polygonal faces using Surface from Mesh takes approximately 20 seconds to a few minutes.

    Screenshot Surface from Mesh decimating
    Using this 3D model as a test, it took 24 seconds to decimate the 3D model using Surface from Mesh.
    Mesh2Surface for Solidworks

    Mesh2Surface for SOLIDWORKS can decimate 3D scanner data almost instantaneously.

  2. Creating Surfaces From 3D Scanner Data

    Surface from Mesh is capable of quickly creating planes and solids (such as cylinders) from a mesh body. It works particularly well for 3D printing applications when you have to convert a mesh that was created from a pre-existing CAD file. However, the toolset has difficulties when it comes to working with 3D scanner meshes, particularly a freeform object that is not prismatic.

    Irregular meshes
    In our example, our machined part is prismatic but contains highly irregular meshes, which are common in 3D scanner data.
    Irregular meshes
    Consequently, it’s difficult for Surface from Mesh to create good solids. Here, we tried to create a plane and a cylinder.
    • incomplete cylinder
      An incomplete cylinder was created based on the 3D scanner data.
    • jagged edges
      The created plane has jagged edges all along the sides.

    In line with our findings, SOLIDWORKS agrees with our results.

    SOLIDWORKS help webpage

    SOLIDWORKS Online Help states, “The tool works best on mesh files with regular prismatic geometry such as planes, cylinders, cones, and spheres. It may not be appropriate for highly irregular meshes such as those created from a 3D scan of an organic shape. Because the feature only creates surfaces, the recommended workflow is to trim the surfaces to form a solid.”

    Mesh2Surface for Solidworks

    There are alternative tools such as Mesh2Surface for SOLIDWORKS that are better suited for creating solids from 3D scanner STL meshes because it’s built specifically for that purpose.

  3. Comparing the Deviation of the Sketch to the Scan Data

    The Body Compare feature allows you to see how close or how far the created surface bodies are deviating from the 3D scanner data. This is a powerful tool as it ensures the CAD model is accurate to the referenced real-world part. The visual color map makes it easy to see which areas are in and out of tolerance. You can specify the tolerance you can accept. Green means that the sketch is close to the scanned data. (It’s within the tolerance.)

    Surface from mesh deviation
    Mesh2Surface for Solidworks

    Mesh2Surface for SOLIDWORKS has a powerful deviation analyzer feature as well.

    Now that we looked at the Surface from Mesh toolset, let’s see how they compare with Mesh2Surface for SOLIDWORKS.


Mesh2Surface for SOLIDWORKS

Mesh2Surface for SOLIDWORKS plugin

Once you install the Mesh2Surface plugin inside SOLIDWORKS, the Scan to CAD toolset performs as they always belong inside the 3D modeling software.

  1. Decimating 3D Scanner Data

    Using Mesh2Surface for SOLIDWORKS to decimate 3D scan data is fast and simple. If you recall, it took 24 seconds for Surface from Mesh to decimate the 3D scan data. Using the same 3D model of the scanned part, decimation took 1 second when using Mesh2Surface for SOLIDWORKS.

    Mesh2Surface decimating
    All you have to do is specify the decimation parameters, hit the checkmark, and the scan data is decimated in the blink of an eye. Mesh2Surface is great at handling large scan data sets.
    Mesh2Surface for SOLIDWORKS Decimation Test By The Numbers
    Number of polygon triangles (before decimation) 1,302,610
    Percentage reduction of all triangles 50%
    Number of triangles (after decimation) 651,305
    Time to decimate 1 second
  2. Creating Surfaces From 3D Scanner Data

    Mesh2Surface was developed for Scan to CAD projects. It is equipped with intuitive tools to easily extract features from your 3D scan data or quickly reconstruct planes, cylinders, cones, and spheres. See for yourself how this process works using the SOLIDWORKS plugin.

    Watch the complete walkthrough of the sketching process
    Basic Workflow
    1. Take a 2D cross-section of the largest section.

      Mesh2Surface automatically calculates the best 2D cross-section for sketching the CAD model.

      Mesh2Surface cross-section
    2. Sketch the 2D profile

      Fit Sketch Entities tools make it quick and intuitive to create lines and geometries to sketch the outline without you redrawing it manually. It does most of the work for you.

      Mesh2Surface cross-section
    3. Extrude or revolve the sketch into a solid body.
      Mesh2Surface extrude and revolve
    4. You can also do extruded cuts to subtract from solids.
      Mesh2Surface extruded cuts
    5. Continue this process until you have a completed sketch of the 3D model.
      Mesh2Surface parametric model
    Mesh2Surface Plugin Solidworks

    Interested in exploring Mesh2Surface for SOLIDWORKS yourself?

  3. Comparing the Deviation of the Sketch to the Scan Data

    Similar to SOLIDWORKS Surface from Mesh, Mesh2Surface also has a Compare feature but with more advanced features to give you more intel to build better CAD models.

    This powerful tool helps you control the accuracy and the quality of your reconstruction at a glance at any time with its color map. Set your acceptable tolerance. The deviation analyzer works with any SOLIDWORKS body (surface or solid) and compares the reference scan data with almost instant speed. Mesh2Surface for SOLIDWORKS also provides you with the percentage of points that are within the tolerance number you set. In our example below, you can see that 85.96% are within tolerance.

    Mesh2Surface deviation
    In this example, we set our tolerance to 0.00590551” or 0.15mm. As you can see from the color map, the sketch is mostly green which means it’s within the acceptable tolerance that we set. Our sketch is modeled closely to the 3D scan data.

Conclusion: Which Scan to CAD Tool Should I Choose?

Based on our findings, you can see that Mesh2Surface provides quicker results with better outcomes compared to Surface from Mesh. This is not surprising, as Mesh2Surface is a plugin developed for Scan to CAD projects that involve using of 3D mesh from any 3D scanner imported into SOLIDWORKS to rebuild a CAD model.

Surface to Mesh is best for 3D printing applications, or for Scan to CAD projects where the 3D mesh:

  • doesn’t have irregularities, or
  • is a basic prismatic part that doesn’t have organic shapes.

Mesh2Surface for SOLIDWORKS can handle more complex Scan to CAD projects. This SOLIDWORKS plugin is an affordable Scan to CAD solution compared to other solutions in the market. You can learn more about the plugin on our website. Mesh2Surface is also available for Rhino. If you are looking for a standalone Scan to CAD software, be sure to check out QuickSurface which has similar toolsets created by the same developer.


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Ultimate Resource Roundup: Everything You Need To Know About Scan to CAD https://gomeasure3d.com/blog/ultimate-resource-roundup-everything-you-need-to-know-about-scan-to-cad/ Mon, 13 Jun 2022 22:48:09 +0000 https://gomeasure3d.com/?p=22203 Recently, we created new resources on the topic of reverse engineering. We thought now would be a good time to do a quick roundup of the most recent and most popular Scan to CAD resources available for anyone who is interested in this topic.

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Scan to CAD

Recently, we created new resources on the topic of reverse engineering. We thought now would be a good time to do a quick roundup of the most recent and most popular Scan to CAD resources available for anyone who is interested in this topic.

Here’s a list of our latest and most popular Scan to CAD resources:

What is Scan to CAD?

Scan to CAD is the process of reverse engineering a physical part into a CAD model using 3D scanner data as reference for design.

The digital 3D model captured from a 3D scanner has all the 3D surface measurements you need to recreate the part into CAD. With this intel at your disposal, there’s no guesswork in the process because all the information is already there.

Using the Scan to CAD method of reverse engineering:

  • Reduces product development costs
  • Gets you more accurate CAD models
  • Speeds up your design time frame

If you don’t have the original CAD drawings for a part or want to design based on a physical object (this also applies to complementary products like a phone case), Scan to CAD is the quickest way to create CAD—especially for a complicated part.

Scan to CAD infographic
Steps to reverse engineering from Scan to CAD.

My thought process
Article

Can a 3D scanner output into a CAD file?

graphic scan data to cad model
This is the one of the frequently asked questions we get regarding Scan to CAD applications.

We often get a variation of this question but basically the answer is no. In this article, we’ll give you a detailed explanation why this is the case, as well as how you go about accomplishing this goal of converting scan data to CAD.

Video and Article
Video Series + Article

A Detailed Guide to Reverse Engineering from Scan to CAD in SOLIDWORKS [With Videos]

Paul wants to prevent you from the pitfalls he encountered through his experience of reverse engineering from Scan to CAD. Read his article to learn the best way to approach any Scan to CAD projects.

Our COO, Paul Motley, did an extensive YouTube video series and a detailed guide to reverse engineering 3D scanner data into parametric CAD inside SOLIDWORKS.

In this 5 part video series, Paul shows you his thought process behind reverse engineering a mechanical part assembly (an oil pump) with multiple components. He explains the step-by-step process of using a 3D scanner, exporting the scanned data of each component into STL file format, and importing it into SOLIDWORKS as a visual reference for design. Paul also shows how to put the CAD components back into an assembly.

Here’s a preview of the video series.

He also wrote an accompanying article further explaining his thought processes and takeaways:

My thought process
Article

3 Affordable Scan to CAD Tools Not Just For CAD Specialists

Reddit discussion screenshot

This article was inspired by a Reddit question in finding alternatives to using Geomagic software if you simply don’t have the budget. This is an extensive article that provides affordable alternatives with video demonstrations. We originally wrote it back in 2019 but we recently updated the article.

video
Video

Reverse Engineering A Scanned Part in Autodesk Fusion 360 (STL to CAD)

Can you do Scan to CAD inside Fusion 360?

The answer is yes! There’s a lot of interest in Fusion 360 because it’s a low-cost CAD modeling software. As a bonus, you can do reverse engineering inside Fusion 360.

In this video, we’ll show you how to do that using a STL mesh of a mechanical part to guide our new design inside Fusion 360.
Youtube question
We got this question from our YouTube video on whether there is a direct path from object to CAD.

Fusion360 has automated features to convert mesh to CAD. You can see it from these videos:

This workflow works particularly well if you have an STL file downloaded from websites like Thingverse and you want to make your own modifications to the design and then 3D print the model.

This article provides a pretty good explanation here:
All3DP
Photo source: Lucas Carolo via All3DP

However, if you are converting stl from a 3D scanner to CAD in Fusion360, the best way to do it is to sketch the part using scan data as a reference as we demonstrated in our video.

Video and Article
Webinar + Article

Virtual Happy Hour Workshop: Reverse Engineering from Scan to CAD

3D Scanning
This was a virtual interactive Scan to CAD workshop. You can watch the recorded session.

In our Happy Hour Workshop, Paul demonstrates how he repaired an engine mount on a boat generator using Scan to CAD to reverse engineer the damaged part.

A preview of what he would cover in the session.

In this workshop, attendees also had the chance to ask any questions they had about Scan to CAD.

Questions covered in this workshop:

  • How can I make the process of reverse engineering from Scan to CAD faster and simpler?
  • Do I need dedicated 3D reverse engineering software?
  • How does reverse engineering using Artec Studio 3D scanning software compare to using dedicated Scan to CAD software?
  • How do you do reverse engineering with Fusion 360?
  • What are the major differences between SOLIDWORKS and Rhino?
  • Which 3D scanner is the best for starting out reverse engineering from Scan to CAD?

If you don’t have the time to watch the Happy Hour Workshop in its entirety, we wrote an article on the takeaways from that session.


Contact us

Got Questions About Scan to CAD?

We hope these resources will be helpful to you as you start your own Scan to CAD projects or learn about the best practices. If you have any questions, please feel free to reach out to us. We’re always here to help!

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In The Lab: Testing How Well the Artec Cloud Works with Mobile Devices https://gomeasure3d.com/blog/in-the-lab-testing-how-well-the-artec-cloud-works-with-mobile-devices/ Thu, 02 Jun 2022 19:07:33 +0000 https://gomeasure3d.com/?p=22066 How far can we take the scan data we acquired from the Artec Leo handheld 3D scanner without ever touching a laptop or a desktop computer? Can the Artec Leo paired with the Artec Cloud provide a truly mobile 3D scanning experience? We’ve conducted two tests to figure this out.

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Artec cloud on iPad

We love using the Artec Leo handheld 3D scanner together with the Artec Cloud online collaboration platform. The main reason is that once all the scans are captured with the Leo, you can directly upload the data wirelessly to the Artec Cloud for scan data processing. There are no wires to mess with!

Artec Leo upload direct to Cloud

Since Artec Cloud is a platform that can be used on any popular Internet browser, that got us wondering:

Artec Leo paired with iPad

How Well Does the Artec Cloud Work with Mobile Devices?

While on Artec’s website (under the FAQ section) it says Artec Cloud is currently designed for desktop use, our team is always in the spirit of experimenting and discovering new things. We put this question to the test to see what we find out.

We wanted to see how far we can take the scan data we acquired from the Artec Leo without ever touching a laptop or a desktop computer. Can the Artec Leo paired with the Artec Cloud provide a truly mobile 3D scanning experience?

We’ve conducted two tests to try and figure this out. For our tests, we used the Artec Cloud on an iPad as the tablet, and Chrome as the browser.


Test #1

Uploading Scan Data to Artec Cloud and Doing Scan Processing There

You can watch our video findings here:

We used the Artec Leo to scan a small section of the railroad and then uploaded the scan data wirelessly.

Upload
Upload Time
  • ~ 20 minutes
  • Using 4G Network
  • Uploaded 2.5 GB of Data
Screenshot of railroad

We also took reference photos of the railroad using our iPad and attached them to our project on Artec Cloud.

One of the great things about Artec Cloud is that it’s a collaboration platform so the more information you put into it, the more information you will share with your team to provide more context on the project.

Manual or autopilot mode

In Artec Cloud, you can process scan data using the Manual Mode or the Autopilot Mode. To make it simple, we used the Autopilot Mode to process the scan data inside Artec Cloud. The process involved specifying the parameters of the part as you can see in the photo. Once completed, processing took about an hour.

With our initial testing, we were able to use the Artec Leo in conjunction with Artec Cloud on an iPad for processing without touching a laptop or desktop computer. This is very different from the conventional workflow we are used to and it’s all thanks to the Artec Cloud!

Final 3D mesh with color texture map

Once we completed the scan processing you can see the final 3D mesh with a color texture map.


Test #2

Using the Scan Data As A Reference For Design

In our second test, we wanted to see how far we can take the STL mesh we downloaded from the Artec Cloud and use it for a reverse engineering application (Scan to CAD). Keeping true to our test, we sketched the CAD model all on the iPad.

You can watch our video findings here:

Once we exported the data, we used an app called Shapr3D, a mobile and intuitive CAD app. We imported the STL scan data into the app and used it as a reference for designing a CAD model.

Reverse engineering a scan to CAD model
Shapr3D is used for CAD design on a tablet. Please note that we used Shapr3D independently and were not compensated in any way.

Shapr3D is foremost a CAD modelling app, not a dedicated reverse engineering platform, so we wanted to push the limits to see its capabilities of reverse engineering this railroad. If you need a highly accurate CAD model (in comparison to the scan data), we would still recommend doing it in Geomagic Design X or SOLIDWORKS.

In keeping with the test of seeing how far we can take our scan data using an iPad, we used an Apple Pencil to sketch the section of the railroad. Shapr3D allowed us to import the STL file, align the 3D mesh to a world coordinate system, and sketch out a CAD model of the section of the railroad we’ve scanned with the Artec Leo.

Apple logo

Interesting to note that our conventional workflow typically involves using a Windows-based machine. In our test, we only used the Mac operating system operating system (specifically the iPadOS) in both our tests.

Shapr using arc/lines
To keep it simple, we first roughed out the shape of the railroad using arcs and lines to establish some basic geometry (similar to how we would do it in SOLIDWORKS) and then trimmed them together as needed.
Sketching

Sketching in progress.

Completed CAD model

Completed CAD model.


What Happens If We Did It The Convention Way?

We decided to go back and doing it the convention way on a desktop computer. First, we built out a section of the railroad using SOLIDWORKS by importing the STL data from the Artec Cloud.

CAD model imported into Geomagic Control X
This is the CAD model built in SOLIDWORKS and imported into Geomagic Control X for quality inspection.
Distortions on rail
From the scan data, we could see there are distortions on the rail. This can be due from wear over time.
Deviation
When we compared the scan data of the real-world railroad to the perfect CAD model, we could see where the deviations and distortions are coming from.

Conclusion

In our first tests, our upload speed was approximately 20 minutes on a 4G Network for 20.5 GB of data. Using a 5G network would theoretically make the workflow go even faster, and cutting down upload time substantially. In the future, faster data transfer speeds will help in facilitating the adoption of these types of mobile applications more quickly.

From our tests with using the Artec Leo and Artec Cloud, we also find there is a lot of promise in 3D scanning, scan data processing, as well as the application side of things where the entire workflow can be completely mobile.

Completely Mobile and Wireless Workflow
Upload scan data wirelessly Using an iPad
Artec Leo
3D scanning with the Artec Leo
Artec Cloud logo
Viewing and processing the scan data in Artec Cloud.
Shapr3D logo
Download the STL mesh from Artec Studio and reverse engineer the rail using Shapr3D.

Artec Cloud allows us to view and process scan data without going the conventional route of using a laptop or computer with a Windows-based operating system. We did this entirely using Apple products. Shapr3D’s ability to very quickly and easily reverse engineer from scan data without sitting in front of a desktop computer is impressive even though it’s not a reverse engineering app. We look forward to further technology developments for the Artec Cloud and apps like Shapr3D!

Learn More About Artec Cloud →

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A Detailed Guide to Reverse Engineering from Scan to CAD In SOLIDWORKS [With Videos] https://gomeasure3d.com/article/detailed-guide-to-reverse-engineering-scan-to-cad-in-solidworks/ Wed, 25 May 2022 00:26:50 +0000 https://gomeasure3d.com/?page_id=21811 With more than 15+ years in the 3D scanning industry, Paul wants to show you the best practices of reverse engineering a physical part into parametric CAD.

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A Detailed Guide to Reverse Engineering from Scan to CAD In SOLIDWORKS [With Videos]

Solidworks screenshot

In my 15+ years of working in the 3D scanning industry, I had completed many reverse engineering projects (for work and for personal projects as I love rebuilding cars). To be completely honest, I have spent plenty of time doing it the wrong way. I had to redo parts and wasted countless days and sleepless nights trying to figure out what is the most effective way of reverse engineering an existing part into parametric CAD.

I created this detailed guide because I want to show you all you need to know about the Scan to CAD process. Hopefully, this will help you avoid the mistakes I’ve made. It was trial and error that ultimately led me to come up with the best practices of reverse engineering.


My thought process

Inside My Thought Process

I want to give you insights into the best ways of reverse engineering a part using an oil pump as an example. It’s a great demo part as it has multiple components with complicated features as well as simple parts. It’s a mechanical assembly that has a lot of commonality to the parts I normally need to reverse engineer.

The process is also known as Scan to CAD, in which:

  • you use a 3D scanner to capture the physical object into a digital 3D model
  • export the scan data into an STL file
  • import the 3D mesh back into SOLIDWORKS as a guide for design
Common questions you might be asking yourself along the way:
  • What does this Scan to CAD process look like?
  • What decisions do we need to make?
    • Has the part previously been designed in CAD?
      • If so, what was the original design intent or process?
      • If not, what changes can we make to make the part better?
  • How does it work if I have a part with multiple components?
    • What are the critical components of the part?
  • What is the most efficient way to recreate the part while maintaining accuracy?

I’ll be answering all these questions here.


Previewing

Preview of What I’ll Be Covering

I’ve created a video series you can follow along. It’s essentially a step-by-step guide to the entire Scan to CAD process. Along with these videos, I will highlight the takeaways from each step.

These are the basic steps of Scan to CAD:

Here is a preview of the video series so you can get a better sense of what I’ll be covering:


SOLIDWORKS logo

Why I Use SOLIDWORKS

I want to use SOLIDWORKS as the CAD software to illustrate the SCAN to CAD process. The reason is that it’s one of the more popular CAD programs out there. It’s quite amazing to know that there are more than 6 million people using SOLIDWORKS.

Mesh2Surface with SOLIDWORKS

To provide us with more tools to reverse engineer this part, I use a plugin that works natively inside SOLIDWORKS called Mesh2Surface. It has a lot of great Scan to CAD tools that work in synergy with the ones already available inside SOLIDWORKS.


Design intent

A Quick Word About Design Intent

Even before opening up SOLIDWORKS, it is crucial to understand Design Intent.

Design Intent is understanding the purpose of this part in terms of its function and how it relates to the other components of an assembly in order to build the part correctly.

Questions that help you figure out Design Intent of a part:

  • What is the part being used for?
  • What are the important aspects of the part?
  • Does the part need to fit into or work with something else?

Whether the part we are reverse engineering is as complex as a jet engine or as simple as a pencil, we will first need to answer these questions in order to help guide decision-making throughout this entire process. This will help us decide on things like what we use for alignment, what features we want to reference, and how we can accomplish the goal of recreating the part to our intended goal.

Handheld scanner
Step 1

Getting the Reference Data By 3D Scanning A Part (Getting STL)

Video 1: 3D Scanning a Physical Part
I used the Artec Space Spider to acquire the scan data. This handheld 3D scanner is metrology-grade to give me the accuracy that I need for this Scan to CAD process.

Key Takeaways for Step 1:

Reverse engineering a complex part like an oil pump is much easier when you are using scan data to guide you on the design.

There’s often a common misconception that a 3D scanner can output a CAD model which is not true. You might look at this at first and think it’s complicated to use scan data as a starting point for the design. But it’s actually not.

The key is to break down this Scan to CAD process into smaller more manageable components and build out the design. The benefits far outweigh the work than if you have to design something like an oil pump completely from scratch. Designing this way is especially useful when there are multiple components of an assembly or if you have an organic freeform object.

The Scan to CAD approach to design almost feels like tracing a drawing. You are essentially using the scan data as a visual reference for design.


Get the most accurate scans you possibly can.

You need accurate 3D scans in order to reverse engineer parts to the highest accuracy of the physical part. This all depends on the accuracy your 3D scanner is capable of achieving (ie. consumer vs. professional systems). Your output is only as good as your input. Even if you have a professional high accuracy 3D scanner, ensure it is operating at optimal conditions (ie. temperature) to capture the best scan results.


You don’t need to scan all the details of the part for reverse engineering.

There’s no need to capture every single nook and crevice of the part. Capture the pertinent information you need to reverse engineer the part to save you valuable time.


Use 3D scanning accessories to make your 3D scanning process much easier.

There are tips and tricks to make your 3D scanning process much smoother. For example, using a rotary table makes it much easier on yourself as you don’t have to walk around the object to scan. Instead, you spin the object and hold the 3D scanner in place.

We put together A Guide to the Best 3D Scanning Accessories. It includes tips on things you can use around your office for object fixturing and 3D scanner alignment to get the best quality scans.

3D digitizing model
Step 2

Creating CAD Models For Individual Components

Video 2: Reverse Engineering The Oil Pump Cover
Starting the process of reverse engineering the individual components of an assembly.
Video 3: Reverse Engineering the Oil Pump Housing
Continuing the process of using 3D mesh (STL) as a basis for design.
Video 4: Reverse Engineering the Gear Shaft With Incomplete Scan Data
Reverse engineering a part with partial scan data.

Key Takeaways for Step 2:

Setting yourself up for success.

How you set the part up at the very beginning is important because you will build it around the central feature or function.

For instance, one of the most critical aspects of reverse engineering comes in the initial alignment phase where we take a part and align it to the world coordinate system. The initial features or Datum that are used should be the primary focal point of the part. This is because this feature will be what the recast of the part’s measurements and features are based around. The initial alignment of a part to a world coordinate can give you speed advantages to the entire process or cause a massive slow down depending upon if the correct features are used or not.


You need to understand the function of the part.

I can’t emphasize this enough. To really understand the order of operations of the entire reverse engineering process, you need to know how the part functions at the beginning of the process. This goes back to what we’ve talked about regarding Design Intent and how it guides you through the entire Scan to CAD process. If you don’t do this correctly, you will spend a lot of time redrawing the part as I have done many times in the past.


Using 3D scan data is a great visualization tool for figuring out where critical dimensions should be.

Most of the time, these are the steps that are usually involved in building out the basic reference geometry:

  1. Create a cross-section of the scanned part

    Cross section
  2. Sketch the 2D profile

    Sketch 3D profile
  3. Revolve, extrude, merge, and/or trim the geometries together until you get a nice clean CAD.

    Revolve and extrude

Once you’ve done it a few times and get a hang of it, it gets easier and easier.


Get all the geometry in place and figure out the final details later.

When you first look at reverse engineering a complicated part like an oil pump, it can be overwhelming at first. However, if you first focus on breaking down into shapes (spheres, circles, cylinders, arcs, etc.) and build out the basic structure of the part, you can then later go in and fine-tune the exact measurements when you are finalizing the part.

Depending upon the part that needs to be made, whether it was originally made in CAD or if you are drawing this part up in CAD for the first time, it is important to get the most critical aspects of the part out of the way first. There are core details that will be important and other features that are not as important. Having an idea of what these things are will greatly help in setting up an order of operations to create a model that is accurate without wasting time going back and redoing steps over and over again.


Reverse engineering from Scan to CAD doesn’t mean you have to follow exactly how it is. Typically, you only get the information of the scanned data you need. You don’t reverse engineer the part exactly as-is and here’s why.

A manufactured part can never be as perfect as a CAD model (reality vs. concept). Oftentimes, the scanned data you are getting is from a part that is worn over time so it’s not in the pristine condition it once was right out of manufacturing. Even if it’s right out of production, manufacturing can never create anything that is as perfect as a CAD model.

In the Scan to CAD process, you need to decide on what you want to keep and what needs to be adjusted for your application (Design Intent). What parts of the object or assembly are the most critical?

Do you want to:

  • Reverse a part exactly the way it is provided by scanned data?
  • Modify the part according to your own needs?

More frequently than not, you should choose the second option as you are redesigning the part for current use.


With a color deviation map, it makes it simple to compare the 3D scan data from the physical part to the CAD model to see how accurate I am sketching the part.
Deviation map

Because we’re using Mesh2Surface for SOLIDWORKS, it has a color deviation map where I could easily see how accurate I was building out the model as compared to the scan data.


You can reverse engineer a part with partial scan data of a part.
Partial scan data

There are times when you have no control over the quality of the scan data because you didn’t scan it yourself and/or that is the only source data you have to work with. You can still use it to build out a CAD model as we demonstrated in video 4 if you have the scan data for the core features. It usually works well when you have a part that has symmetrical or repeating surfaces where you can infer how the missing scan portion should be.


Using a SOLIDWORKS plugin like Mesh2Surface makes Scan to CAD much easier and speeds up the process.

SOLIDWORKS is foremost a CAD software, not a reverse engineering software, so it is beneficial to use a Scan to CAD plugin like Mesh2Surface. The plugin provides additional features and tools you can use directly inside SOLIDWORKS to do Scan to CAD functions that you normally can’t do with SOLIDWORKS by itself. Mesh2Surface helps you do reverse engineering in the most efficient way while making sure you get accurate results with the 3D comparison feature (mesh vs. CAD). It takes the guesswork out of reverse engineering and it’s a more robust method to make sure you get the results you need.

CAD component assembly and refinement
Step 3

Component Assembly and Refinement

Video 5: Component Assembly and Refinement
Making sure all components are fitted properly to each other and make final adjustments.

Key Takeaways for Step 3:

In order for the components to fit nicely, measurements such as hole locations need to be identical and matching.
Component assembly

This is the stage where we make sure all the measurements are consistent so that individual components mate properly and holes are concentric to one another. For example, if the shaft is 0.5” in diameter, we need to make sure the hole that the shaft goes into will fit nicely with a 0.5” hole diameter as well (not 0.48” as I initially had it at).


Make sure your measurements are properly rounded.

When you are following scan data, you might get a hole measurement that is 5.984”. You just need to double-check all your measurements to make sure they are a nice number for manufacturing. In this example, we would make the hole diameter 6” instead of 5.984”.

However, if there should be clearance between two components this also needs to be considered. For instance, a shaft fitting in a hole may need a few thousandths of an inch of clearance to operate correctly and this all needs to be considered as well.


How you build your CAD will depend on how you plan to use it.

I built this assembly as a parametric CAD model using SOLIDWORKS so adjustments can be made pretty easily. If you are trying to replace an existing oil pump and you are doing this Scan to CAD process because you don’t have the original CAD or it never existed, then you would try to reverse engineer the part as close to the scan data as possible. If it’s for a new application, then you don’t have to follow to the tee to the scan data. As we’ve emphasized throughout this guide, the way you design it will be dictated by your application.

In Conclusion

Even if we have a part that, on the surface, looks complicated because it has multiple components that make up the assembly, it’s pretty basic to reverse engineer it once we break down the process.

  • Build the essential components first. Deconstruct them into basic shapes to make the process less complicated.
  • Once you have all the components, you can refine the measurements and work on how they relate to each other in an assembly.

I hope you find this guide useful. If you have any questions about this process, feel free to contact me and I’ll be sure to answer them.

Cheers,

Signature Paul Motley COO, GoMeasure3D

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3 Affordable Scan to CAD Tools Not Just For CAD Specialist [With Video Demos] https://gomeasure3d.com/blog/3-affordable-scan-to-cad-tools-not-just-for-cad-specialist/ https://gomeasure3d.com/blog/3-affordable-scan-to-cad-tools-not-just-for-cad-specialist/#comments Mon, 09 May 2022 08:25:02 +0000 https://gomeasure3d.com/?p=11489 Are there any Scan to CAD Software that doesn't break the bank? We'll show you three Scan to CAD tools that are not only affordable but also easy to use.

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Originally published on: March 29, 2019.

Reverse engineering a scan to CAD model

Our team found an interesting Reddit post related to reverse engineering from 3D scanner data to CAD:

Reddit discussion screenshot
Affordable Scan to CAD Software (Geomagic Alternative)

Are there any other options for turning scans to usable 3D files? I have a Geomagic trial right now and it works great but it’s about $8k to purchase. I’m hoping there is a more affordable option. Thanks!

Geomagic is known as the gold standard for converting scan data from professional 3D scanners to CAD models. We have customers who love Geomagic for SOLIDWORKS (plugin for SOLIDWORKS) and Geomagic Design X (standalone scan to CAD software) because they have extensive features for reverse engineering. They also have automated features like the Autosurfacing tool that makes it much easier to reverse engineer complicated and even organic designs.

However, if you need to do reverse engineering based off of 3D scan data and you just don’t have the budget to purchase a professional high-end package, are there any affordable alternatives to Geomagic out there?

Yes! There are more affordable options out there. Here, we’ll present you with three alternative Scan to CAD solutions that are accessible in terms of:
  • Affordability

    We know that ‘affordable’ is a subjective term but we’ll offer a range of solutions from $500 to just under $5,000 USD.

  • Ease of Use

    Scan to CAD is viewed as a complicated skill that requires hours of specialized training. With these solutions, you can learn as you go.

  • Work With Scan Data

    These options have the ability to transform 3D scan meshes (like STL or OBJ) from any 3D scanner into usable CAD.


Mesh2Surface

Reverse Engineering Plugin for SOLIDWORKS or Rhino 3D

Plugin options that work natively inside your CAD software tend to be less expensive compared to standalone Scan to CAD software. If you are already a SOLIDWORKS or a Rhino user, Mesh2Surface is made for you. As a bonus, it empowers you to work in a CAD environment you are already familiar with, so it’s easy to pick up and learn as you go. It’s essentially an extension of the CAD software you are already using with dedicated reverse engineering toolsets.

Mesh2Surface For Rhino Mesh2Surface For SOLIDWORKS
Software Type Plugin
(Rhino 3D sold separately)
Plugin
(SOLIDWORKS sold separately)
Software Compatibility Rhino 5, 6, or 7 SOLIDWORKS version 2017 or higher
Price for Single Commercial License of Plugin (in USD)

Mechanical version: $940.50
Premium version: $1,400

What is the difference between Mechanical and Premium version?

Rhino + Mesh2Surface bundle starts at just under $1,800: Learn More

Price: $3,000

Learn More Learn More

Mesh2Surface’s Approach to Reverse Engineering

Mesh2Surface is created for anyone who wants the accessibility of using 3D scanner data for CAD modeling but doesn’t have the time to learn traditional CAD systems that are often complex and challenging to use. It even excels at reverse engineering freeform and complicated surfaces.

3d scanning motorcyle frame

From 3D Scanning To CAD: The workflow from capturing 3D scans using the Artec Space Spider (Top photo). The scanned data was imported into SOLIDWORKS. Then, we used Mesh2Surface for SOLIDWORKS to access the comprehensive scan to CAD toolsets inside SOLIDWORKS to design this bike frame. (Please see the photos below comparing the original scan data to the created CAD model.) Using scan data as a guide for design is much easier and faster than designing from a blank slate.

3D Scan Data CAD Model

Every reverse engineering project is unique and the process can be time-consuming in order to achieve the right and accurate results. This inspired Mesh2Surface developers to create a universal tool that can be applied to different reverse engineering challenges while simplifying the process.

Mesh2Surface focuses on finding the fastest, most accurate, and easiest way to convert 3D scan meshes into professional CAD models. It is straightforward to use and delivers similar performance to high-end reverse engineering software.

What we love graphic

What We Love About Mesh2Surface

  • Works seamlessly with SOLIDWORKS or Rhino
  • Affordable Scan to CAD plugin option
  • Speed up the time for manufacturing
  • Reduce costs for design
  • Edit and repair CAD data for broken tools and molds
  • Use existing assets to reverse engineer new parts
  • Design custom products
  • Export remodeled data for 3D printing
  • Create complementary products or new parts to fit with existing parts

How It Works

3D Scan Data CAD Model

Mesh2Surface is an affordable yet sophisticated Scan to CAD tool that extends beyond basic arcs and curves. You can take works STL, OBJ, or PLY mesh as well as PTX point cloud to create professional CAD/CAM models.

What’s special about Mesh2Surface:

  • You can use simple and powerful tools to create 2D sketches, extruded 3D sketches, and revolved surfaces.
  • Tolerance surfacing shows instant color map deviation from scan data and gives you full control to fix it to get the best accuracy out of your CAD model.
  • It can create complex hybrid 3D models (prismatic and organic).
  • Redesign your object with the best accuracy and design intent.
  • Extract shapes by selecting what type of features need to be fit.

Since each CAD software works differently, here are some of the main features for Mesh2Surface for Rhino and SOLIDWORKS with video demonstrations:

  Mesh2Surface for Rhino Mesh2Surface for SOLIDWORKS
Create 2D line sketches that can revolve or extrude surfaces
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3D sketching on scan data
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Freeform reverse engineering
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Automatic surfacing for converting freeform organic shapes just with a click of a button.
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Deviation Analysis (comparing scan data to CAD)
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Video Demonstrations

Our team created videos to show what Mesh2Surface can do.

Mesh2Surface For Rhino: Reverse Engineering Basics
Mesh2Surface For Rhino: Reverse Engineer Complex Organic Surfaces
Mesh2Surface For SOLIDWORKS: Reverse Engineering An Oil Pump Series

Mesh2Surface Review

Trustpilot logo
Rating

Mesh2Surface has been reviewed by its users on Trustpilot. You can read all the reviews here.

Buy Now

Quicksurface

QUICKSURFACE

Standalone Scan to CAD Software

QUICKSURFACE guides you through every step of the way to help you make the best decisions in creating accurate CAD models—with user control accuracy you can trust. Intuitive to use, QUICKSURFACE helps you create designs faster and more effectively in an often labor-intensive process.

QUICKSURFACE Overview
Type Standalone software
Price for Single Commerical License (in USD)

Freeform: $2,195
Full: $4,395

What is the difference between QuickSurface Freeform versus Full version?

Learn More

QUICKSURFACE’S Approach To Reverse Engineering

QuickSurface screenshot of turbine

The STL scan data of this mechanical part (left) was imported into QUICKSURFACE and then reconstructed into a fully parametric CAD model (right). View the 20 minute video tutorial.

While 3D scanners are coming down in price making the technology more accessible than ever before, 3D reverse engineering software can be expensive relative to its hardware counterpart—until now.

With plenty of scan to CAD tools at your disposal, QUICKSURFACE helps spread the use of the technology at a more affordable price point so more people can benefit from using scan data from a 3D scanner as a basis for design. QUICKSURFACE simplifies the path of converting 3D scans into usable CAD while giving users access to powerful tools.

It’s great for anyone looking for an affordable and well-rounded scan to CAD software. QUICKSURFACE has the power to work with prismatic or freeform shapes (and even hybrid), making it a very versatile reverse engineering software.

What we love graphic

What We Love About QUICKSURFACE

  • QUICKSURFACE is an affordable Scan to CAD plugin option.
  • It works similar to other CAD software so the learning curve is not steep.
  • You don’t have to be a CAD specialist to use it.
  • It’s simple yet powerful.
  • Even if you haven’t used QUICKSURFACE in a while, you just pick up where you left off.
  • It offers standard CAD operations like trim, revolve, booleans, loft, sweep, extend, mirrors and patterns. Finish your work by adding fillets and chamfers.

How QUICKSURFACE Works

QUICKSURFACE helps you make the best decision in creating accurate CAD models using its proprietary best-fit algorithms. It gets the accuracy and design intent you need when building CAD models.

QuickSurface software interactive deviation control

Similar to Mesh2Surface, QUICKSURFACE provides interactive real-time deviation maps. As you build your CAD model, you can see exactly how close or how far you are deviating from the scan data. This empowers you to correct problems immediately instead of leaving them at the end of the reverse engineering process.

This Scan to CAD software has various tool kits to take on a wide range of reverse engineering projects to perform the job. You can create parametric models, hybrid parametric modeling for both organic and prismatic shapes. Export as industry-standard STEP or IGES file format to other CAD/ CAM packages or use your results for manufacturing (3D printing, CNC machining, etc.). QUICKSURFACE offers a full parametric tree into SOLIDWORKS.

Workflow at a Glance

  • Import 3D Scan Files
    Import 3D Scan Files

    Compatible with any 3D scanners that export to STL, OBJ, or PTX file formats.

  • QuickSurface
    Scan to CAD

    Use 3D scan data as a guide to create parametric, surface, or hybrid 3D models.

  • CAD models
    Useable CAD Model

    Parametric model with history tree or export as IGES or STEP file into your CAD program.

Here are some of the main features of QUICKSURFACE with video demonstrations:
  • play icon Parametric Modeling
    Parametric Modeling

    It’s a key feature of QUICKSURFACE. Parametric modeling makes it easy to modify and make changes to the parameters from solid bodies even at a later date.

  • play icon Freeform Modeling
    Freeform Modeling

    With Quad Surface tool, reconstruct freeform surfaces for organic 3D mesh data not normally possible with the standard surfacing methods. Snap-to-mesh technology and real-time deviation analyzer empower you to create shapes accurately representing the scan data in no time.

  • play icon Automatic Surfacing
    Automatic Surfacing

    Load the mesh, press a button, and get desired results. Independent of the size and complexity of the object, the surface follows the natural shape of the object. You still have the ability to modify the automatic surface, if the design intent requires it.

  • play icon Hybrid Modeling
    Hybrid Modeling

    Reconstruct parts with both organic and prismatic shapes. Starting with freeform and basic primitives, you can build a complex CAD model by trimming them and can later change the surfaces based on the design intent.

Video Demonstration

QUICKSURFACE: How To Reverse Engineer Less Than Desirable Scan Data
Reverse Engineering from Scan Data to CAD with Artec Space Spider

QUICKSURFACE Review

Develop3D Review

“…QUICKSURFACE is about taking your mesh-based data out of your scanning process and achieving the geometry you want. Whether that’s a complete part, skinned and surfaced up, or a select set of reference surfaces from which you will begin to design another part, QUICKSURFACE handles these tasks in a very efficient, clearly defined and well-executed manner.”

Al Dean Co-founder, Develop3D

QUICKSURFACE landed on Develop3D Top 30 New Technologies that give product development work a major boost. There is also an extensive QUICKSURFACE review from Al Dean, Co-founder of Develop3D you can read it here: Read the full review.

Buy Now

Autodesk Fusion 360

Autodesk Fusion 360

Cloud-based 3D modeling with scan to CAD capabilities

Fusion 360 is not just a CAD/CAM software. You can also use 3D scanner data as a visual reference for sketching CAD models at an unbelievably low price.

Autodesk Fusion 360 Overview
Type Cloud-based 3D modeling, CAD, CAM, CAE, and PCB software platform for product design and manufacturing with the capabilities of using 3D scans for CAD creation.
Price (in USD) $495 per year

Fusion 360’s Approach To Reverse Engineering

There is a growing popularity for designers, engineers, and machinists to use real-world data as the starting point for design. Fusion 360 is a powerful software at a price of just under $500 per year. With it being at the forefront and center as a CAD, CAM, CAE, and PCB software platform for product design and manufacturing, you can also edit and repair imported scans or mesh models files (STL, OBJ, and now 3MF) as well as using them for creating CAD models.

With Fusion 360, you can create custom products like eyewear, apparel, or prosthetics based on a person’s unique curvatures and measurements using 3D scan data.

Fusion 360 imported 3d scan data

Here, we have 3D scan data of a person’s leg (top photo) which can be referenced to create fitted prosthetics (bottom photo).

Fusion 360 Designing prosthetics

Source: Screenshots from Fusion 360 video.

While this article focuses on using 3D scanner data as a basis for design, it is worth noting that many users (especially hobbyists, home users, students, and educators as there is a free version of Fusion 360 available) are using the software to add their own customization for downloaded STL mesh files from websites like Thingiverse and converting them into CAD models before 3D printing them.

What we love graphic

What We Love About Autodesk Fusion 360

  • Great value for the price.
  • It’s at a good price point for people who are using a low-cost 3D scanner and need complementary software for converting scan data to CAD.
  • Fusion 360 is great for a full manufacturing process. It’s not just offering reverse engineering capabilities but also CAM which covers the design of a product as well as manufacturing.

How it Works

If you want to test the waters and see if CAD modeling with basic scan to CAD features is for you, give Fusion 360 a try. Fusion 360 is better at handling less complicated scan data, typically mechanical parts (as opposed to organic freeform surfaces).

Here are some videos to give you a better idea of how Fusion 360 handles the scan to CAD process.

Reverse Engineering A Scanned Part in Autodesk Fusion 360 (STL to CAD)
QUICK TIP: Mesh to Solid Reboot

Fusion 360 Review

While it’s difficult to find reviews dedicated to Fusion 360’s scan to CAD capabilities, it has favorable reviews on G2 from users as a CAD/CAM software.

Fusion 360 review rating

Which Scan to CAD Software is Right for Me?

A quick way to determine the most suitable for your needs

If price is a major factor…

Plugins are typically the best affordable solution with dedicated reverse engineering tools. Therefore, either Mesh2Surface for SOLIDWORKS or Rhino would be great options. If you aren’t using any CAD software and want dedicated reverse engineering tools, the best value we offer is Rhino with Mesh2Surface for Rhino. The combined purchase price of this package is just under $1,800 USD. Learn more >


If you are looking for a well-rounded standalone reverse engineering software…

QUICKSURFACE is a good choice.


If you already have SOLIDWORKS…

Mesh2Surface for SOLIDWORKS is the best option as you don’t need to learn another software.


If you already have Rhino3D…

Mesh2Surface for Rhino is the best option as it’s a plugin for Rhino software.


If you want to try CAD modeling and also want to test out basic reverse engineering tools…

Fusion 360 is a good choice as it’s the cheapest option that you can also do scan to CAD operations.


If budget is not an issue…

Geomagic Design X or Geomagic for SOLIDWORKS would be other options you should consider. They are considered high-end reverse engineering tools with comprehensive feature sets.

Affordable Scan to CAD Software Comparison

Here is a side-by-side comparison chart

  Mesh2Surface for SOLIDWORKS Mesh2Surface for Rhino QUICKSURFACE FUSION 360
Plugin or Standalone Software Plugin Plugin Standalone Software Standalone Software
Required software (Sold Separately) SOLIDWORKS Rhino Not Applicable Not Applicable
Price Single License: $3,000
Mechanical version: $940.50
Premium version: $1,400
Freeform: $2,195
Full: $4,395
$495 per year
Reverse Engineering Tools Dedicated scan to CAD tools that work natively in SOLIDWORKS to perform all types of reverse engineering jobs. Dedicated scan to CAD tools to perform all types of reverse engineering jobs natively inside Rhino. Sophisticated scan to CAD tools for reverse engineering all types of parts from basic to complex, mechanical to freeform, and even hybrid. Good for basic scan to CAD conversion for less complicated parts that are more mechanical in nature.
Easy to Use Yes Yes Yes Yes
Great for Organic Surfaces Yes Yes Yes No

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3 Takeaways from Our Happy Hour Workshop: Reverse Engineering from Scan to CAD https://gomeasure3d.com/blog/3-takeaways-from-our-happy-hour-workshop-reverse-engineering-from-scan-to-cad/ Tue, 20 Jul 2021 12:00:05 +0000 https://gomeasure3d.com/?p=19083 For those who missed our happy hour workshop on reverse engineering from Scan to CAD, here’s a quick recap by exploring three questions we’ve answered including key takeaways.

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Happy Hour Workshop

We had our first-ever virtual Happy Hour Workshop this year. It was a great place where anyone could ask us questions and our team would answer them with a live demonstration. In this workshop, our focus was on the topic of reverse engineering from Scan to CAD. Our goal was to show how much easier and simpler it is to use 3D scanner data as a reference for product design instead of designing a CAD model from scratch.

For those who missed the session, here’s a quick recap by exploring three questions we answered and the key takeaways.

  1. How can I make the process of reverse engineering from Scan to CAD faster and simpler?
  2. Do I need dedicated 3D reverse engineering software?
  3. How does reverse engineering using Artec Studio 3D scanning software compare to using dedicated Scan to CAD software?

coffee cup

Watch the Scan to CAD Episode On-Demand

If you want to view our Happy Hour Workshop in its entirety, you can watch the recording.


Question #1

How Can I Make The Process of Reverse Engineering from Scan to CAD Faster and Simpler?

Most of the time for basic reverse engineering applications, you don’t need to use a 3D scanner to capture a 3D model of your entire part down to the finest details to convert it from scan data to CAD. All you need is to take the necessary 3D measurements from the part using a 3D scanner as the data you get is extremely accurate. That means you might just need to take a couple of scans to get the critical information you need in order to figure out—for instance, hole locations or the basic structural dimensions of the part. Capturing only the data you need also keeps your file size small so you’re not dealing with big files you really don’t need.

quick tip icon
Takeaway #1

You don’t need a fully completed 3D model to do reverse engineering from Scan to CAD. By scanning only the information you need, will make your reverse engineering process that much more efficient.

Example:
Corroded mount

The project was to create a CAD model for the corroded mount (on the left) so we can manufacture and replace it. Since we don’t have the original CAD drawings, we need to make a new one. On the other side of the boat engine (on the right), the mount is in good condition so we scanned this one and used the scan data as a reference for design for creating the CAD model to replace the damaged mount. By 3D scanning the part in place without taking anything apart, we only needed to take out the corroded part once when we replaced it with the new one. The engine can remain in use until the replacement mount is ready.

Scan of mounting bracket
We scanned the good mounting bracket using an Artec 3D scanner. We’re not looking to get every single detail of the part since our goal is to only get the basic 3D measurements.
Scan data used for guide for making CAD model
The 3D scan data was then imported into SOLIDWORKS where we use the 3D measurements as a guide for creating our CAD model. The part was replicated and then converted into a flat panel with sheet metal surface finishing. Finally, we manufactured the part in order to replace the corroded one by welding it into place.
time icon

The entire process from 3D scanning, drawing the CAD model, and sending the file to a fabricator for manufacturing took about 20 minutes.


Question #2

Do I Need Dedicated 3D Reverse Engineering Software?

Before we get to this question, we want to give a brief explanation of the two ways you can reverse engineer a part using 3D scan data as a reference to create a CAD model.

Ways To Reverse Engineering a Part from Scan to CAD
  1. Using a dedicated 3D reverse engineering software
    SolidWorks screenshot

    Examples:

    How It Works:

    After your 3D scanning is complete, you would need to export your scan data out into an STL file from your 3D scanning software and then import it into these types of software to do the reverse engineering. These software have comprehensive and powerful tools to help you use scan data as a reference point for designing a new CAD model instead of doing it from scratch, making the job that much easier.

  2. 3D scanning software such as Artec Studio has basic reverse engineering features.
    Artec Studio CAD features

    In Artec Studio 15, basic reverse engineering operations can be done if you don’t have dedicated reverse engineering software, or a Scan to CAD plugin for your favorite CAD software.

    How It Works:

    After you have completed your scans in Artec Studio and have merged them into the desired 3D model, you can use primitives to extract key geometrical data in a CAD format. Precise Positioning features makes it easier to position 3D models in the world coordinate system. Artec Studio allows you to export correctly positioned models with primitives aligned to the scan data as popular CAD formats (STEP or IGES files). You can then import them into SOLIDWORKS, Geomagic Design X and other CAD software for use to aid in sketching your CAD model.

Questions to Ask Yourself:

Going back to our original question, Do I need a dedicated reverse engineering software?, there are three additional questions you have to ask yourself. If you answer “yes” to the following questions, then investing in dedicated Scan to CAD software will help you save time.

  1. Would you be doing reverse engineering pretty regularly?

    If you are doing reverse engineering on a regular basis, having a dedicated software is a time saver.

  2. Are the parts you are trying to reverse engineer have complex geometry?

    Dedicated Scan to CAD software is better at handling freeform surfaces and organic shapes to create a CAD model that’s highly accurate to your scan data.

  3. Is saving time an important factor for you?

    Dedicated Scan to CAD software has advanced tools that can help you be much more efficient at reverse engineering. We’ll show you more in the next takeaway.

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Takeaway #2

If you only have one-off projects or if you just started to explore the possibilities of using Scan-to-CAD for your projects, you might want to try using Artec Studio first before investing into dedicated reverse engineering software to see if it’s a right fit for you.

Having a dedicated reverse engineering (Scan-to-CAD) software will make work easier and more efficient. If you do reverse engineering almost everyday, having a dedicated software will help you be more productive.

Typically, Scan to CAD plugins provide advanced reverse engineering functionality that you normally can’t get inside your preferred CAD modeling software (SOLIDWORKS, Rhino, etc.). It will cost less than a standalone software like Geomagic Design X or QUICKSURFACE if you are on a tight budget. It’s also a great choice if you prefer to do reverse engineering inside your preferred CAD modeling software.


Question #3

How Does Reverse Engineering Using Artec Studio Compare To Using Dedicated Scan to CAD Software?

In order to demonstrate the differences, it’s best to show step-by-step videos of the processes.

Artec Studio

For Artec Studio, Art gives you a quick tour of the reverse engineering features. Here is a preview.

Video Preview: How to use reverse engineering features inside Artec Studio 15. Watch the full episode.
Dedicated Scan to CAD Software or Plugin

Here is a video where we summarize and demonstrate the different options:

Video Tutorial: Reverse engineering from scan data to CAD With Artec Space Spider 3D scanner
quick tip icon
Takeaway #3

As you can see, you can take different paths to achieve the goal. It really depends on which method you choose to get the results you want. If you own a 3D scanner like the Artec, the Artec Studio software has all the great features for 3D scanning. As a bonus, it also includes basic reverse engineering functionalities that can allow you to do reverse engineering if you don’t want to spend extra money on a dedicated Scan to CAD software.

Using Artec Studio versus dedicated reverse engineering software is like taking a bus versus driving a car. It might be more economical to take the bus but having your own car is going to get you to your destination faster and it will take you to exactly where you need to go.

  Economical Advanced Features
Transportation
Going to a specific destination
Bus
Riding a Bus

You would still need to walk to your destination as the bus only takes you to the bus stop.

Car
Taking a Car

Takes you to the exact location of where you want to go faster than a bus.

Reverse Engineering
Using scan data as a reference for design
Artec Studio 15 3D Scanning Software
Artec Studio 15 3D Scanning Software

Includes bonus reverse engineering features

Reverse Engineering Software
Dedicated Reverse Engineering Software or Plug-in

This is specifically what this software or plugin is built for. Specializes in Scan to CAD toolsets.


In Conclusion

You might be thinking of buying a 3D scanner for a specific application (for instance, for 3D visualization or quality inspection) and wanted to see what other purposes (such as reverse engineering) you can use the system for to justify the purchase. You might be also considering using 3D scanning to help you be more efficient at product design.

If you have questions related to Scan to CAD and want to explore your options, watch our Happy Hour Workshop episode to find out more.

Other questions that were asked and answered in the workshop include:
  • How do you do reverse engineering with Fusion 360?
  • What are the major differences between SOLIDWORKS and Rhino?
  • Which 3D scanner is the best for starting out reverse engineering from Scan to CAD?

We recorded the session and it’s now available for on demand viewing.


coffee cup

Watch the Scan to CAD Happy Hour Workshop On-Demand

If you want to view our Happy Hour Workshop in its entirety, you can watch the recording.

The post 3 Takeaways from Our Happy Hour Workshop: Reverse Engineering from Scan to CAD appeared first on GoMeasure3D.

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Happy Hour Workshop – Reverse Engineering from Scan Data to CAD https://gomeasure3d.com/webinar/happy-hour-workshop-reverse-engineering-from-scan-data-to-cad/ Wed, 02 Jun 2021 22:19:51 +0000 https://gomeasure3d.com/?page_id=19026 We’ll be focusing our discussion around a project we’ve recently been working on. We'll show you the step-by-step process of how to reverse engineer a part from scan data to CAD and reveal the final results.

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Virtual Happy Hour Workshop

Reverse Engineering From 3D Scanner Data to CAD
(Scan to CAD)

Reverse Engineering From Scan to CAD

* This is a previously recorded session.

Welcome to our Happy Hour Workshop! In this one-hour session, we centered our discussion around a project we’ve recently been working on. One of the mounts that sits on a boat diesel generator needed to be replaced due to corrosion. This one-hour workshop shows you the step-by-step process of reverse engineering this mount without even moving a big heavy generator!

broken mount
One of the mounts that sits on a boat diesel generator needed to be replaced due to corrosion.

The other mount is in good condition so we’ve used a 3D scanner to scan the mount and use reverse engineering software to create a CAD file, which can be used to manufacture the mount. We’ll show you the step-by-step process of how to reverse engineer this mount and reveal the final results in the workshop. Complicated measurement challenges can often be simplified with the help of 3D scanning technologies.

Who Is This Session For?

This session is ideal for anyone:

  • who wants to learn more about the scan to CAD process
  • who already has a 3D scanner and want to find other uses
View the webinar by filling the form below:

* These fields are required.

The post Happy Hour Workshop – Reverse Engineering from Scan Data to CAD appeared first on GoMeasure3D.

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Sign Up For Our Virtual Happy Hour Workshop: Reverse Engineering from Scan to CAD https://gomeasure3d.com/blog/sign-up-for-our-virtual-happy-hour-workshop-reverse-engineering-from-scan-to-cad-may-27/ Mon, 17 May 2021 07:46:56 +0000 https://gomeasure3d.com/?p=18829 In this one-hour virtual Happy Hour workshop, we’ll be focusing our discussion around how to reverse engineer from scan to CAD. This is an interactive session. Sit back, relax, and have a great conversation.

The post Sign Up For Our Virtual Happy Hour Workshop: Reverse Engineering from Scan to CAD appeared first on GoMeasure3D.

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reverse engineering from scan to cad happy hour workshop

Welcome to our Virtual Happy Hour Workshop!
Sit back, relax, and have a drink ☕ at the comfort of your desk.
Let’s have a great conversation about anything you want to know about reverse engineering from Scan to CAD.

The Happy Hour Workshop is our new webinar series. This is an interactive session where you will be able to send in questions throughout the session and we’ll adapt the presentation to give you all the answers.


Virtual Happy Hour Workshop

On the Topic: Reverse Engineering from Scan Data to CAD
Thursday, May 27, 2021
(4PM EST / 1PM PST)
Duration: 1 Hour

* The workshop is now over but you can watch the recorded session:


Project We’ll Be Discussing

In this one-hour workshop, we’ll be focusing our discussion around a project we’ve recently been working on.

broken mount
One of the mounts that sits on a boat diesel generator needed to be replaced due to corrosion.

The other mount is in good condition so we’ve used a 3D scanner to scan the mount and use reverse engineering software to create a CAD file, which can be used to manufacture the mount. We’ll show you the step-by-step process of how to reverse engineer this mount and reveal the final results in the workshop. Complicated measurement challenges can often be simplified with the help of 3D scanning technologies.

Watch this video to learn more about the challenge that we’ll be discussing:

Paul gives a sneak peek at the project we’ll be discussing in our next Happy Hour Workshop.
Who Is This Session For?

This session is ideal for anyone:

  • who wants to learn more about the scan to CAD process
  • who already has a 3D scanner and want to find other uses
Got Questions?

We’re keeping this workshop casual and we welcome any questions. If you want to ask our technical team directly in an open forum, join us in this Zoom meeting. They will be there to answer your questions live and show you how we do it in our lab.

Presenters

Signature Paul Motley COO, GoMeasure3D

Signature Art Pekun Application Engineer, GoMeasure3D


Virtual Happy Hour Workshop

On the Topic: Reverse Engineering from Scan Data to CAD

Duration: 1 Hour

View the recorded session by filling the form below:

* These fields are required.

Watch the Recorded Session →

The post Sign Up For Our Virtual Happy Hour Workshop: Reverse Engineering from Scan to CAD appeared first on GoMeasure3D.

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Four New and Exciting 3D Scanning Technologies To Gear Up For 2021 https://gomeasure3d.com/blog/four-exciting-new-3d-scanning-tech-to-gear-up-for-2021/ Thu, 10 Dec 2020 09:32:24 +0000 https://gomeasure3d.com/?p=17677 It’s almost the end of 2020! We thought now is the best time to feature the best new 3D scanning technologies we tested this year to help you make plans for 2021.

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It’s almost the end of 2020! If we’ve learned anything about the pandemic this year, it’s that we can evolve during these uncertain times and adapt to whatever comes our way.

We thought now is the best time to feature the best new 3D scanning technologies to help you make plans for 2021. They can give your work life a major boost. Our team always researches, tests, and only recommends hardware and software that are the best value we can find in the market.

We divided them into 4 categories:

  1. 3D Scanner
  2. 3D Scanning Accessory
  3. 3D Inspection
  4. Reverse Engineering

3D Scanner

AI-Powered Artec Eva / Leo Handheld 3D Scanner

Artec handheld scanner
Artec: Trailblazers in Combining 3D Scanning and AI

It’s been a long-standing ritual that Artec releases one major update every year for Artec Studio. The company’s proprietary 3D scanning software works with all of its handheld, desktop, and long-range 3D scanning systems. This year, Artec made an exception with two announcements. The team made a major breakthrough in combining 3D scanning with the power of AI called the HD Mode for Artec Studio 15.1.

What So Special About the HD Mode?

With the HD Mode, now you can get both high-quality scans with the convenience of a handheld 3D scanner.

Exclusive to the Artec Eva and Leo, the HD mode doubles the resolution of these handheld 3D scanners and produces substantial improvements in scan quality. The new algorithms are now capable of extrapolating more information with the same amount of 3D capture. All you have to do is enable the HD mode on the 3D scanner. You get richer quality and detailed 3D scans with less noise.

Scan Density

With the power of the HD mode, what this means is the scan density per frame is no longer restricted by the hardware. You can see how much more information is captured with the HD mode compared to the SD mode (refers to previous standard definition mode).

HD Mode 32x
HD Mode
SD Mode

Major improvements also include the ability to:

  • scan different types of challenging surfaces
  • get cleaner scan data
  • get the nitty-gritty details of an object
  • widen the spectrum of object size these two handheld 3D scanners can scan
SD Mode HD Mode
What This Means For New and Existing Users

For users who purchase a new Artec Eva or Leo, this means that you are getting a great value, capturing amazing 3D scan quality for the price of the scanner.

For existing users who already have an Artec Eva or Leo, if you upgrade to the latest version of Artec Studio 15.1, you get these types of results! All the work is done with just a software upgrade. No extra work is required. It’s like getting a new 3D scanner!

Interested in upgrading to Artec Studio 15.1 to get better results? Contact Us →

See It In Action

Using the HD Mode, there’s no change to the way you scan. You just scan as you normally would while Artec Studio does all the heavy lifting work. The results are so spectacular that our motorcycle wheel scan captured with the Artec Eva was selected by Sketchfab as their Staff Pick!

3d scan tire

Looking at the 3D model, you can see the new AI-Powered HD mode captures all the fine and intricate details of the spokes on the wheel.

3d scan tire

With the HD Mode, it’s also better at 3D scanning black surfaces without spraying the part. You can see the word embossing very clearly from the tire.

Learn More

For more details on the AI-Powered Eva and Leo with the HD Mode, check out our product page.


Accessories

AESUB Vanishing 3D Scanning Spray

Aesub vanishing 3d scanning spray
Solving An Industry Problem

Traditional powder 3D scanning sprays cover the object but they don’t necessarily do a good job in adhering to the object’s surface. As a result, the powder spreads everywhere causing a real mess. For example, it’s extremely difficult to handle or move the object after it has been sprayed. This can be a pain to cleanup.

Traditional 3D Scanning Spray – Before AESUB Blue
Before Aesub invention

Before starting his own company, AESUB Founder was frustrated with other 3D scanning sprays his team was using and thought there must be a better way.

Great inventions are typically borne out of real problems that you can’t find an adequate solution in the market. This is what happened to AESUB Blue Vanishing 3D Spray Founder, Fredrich Schlott, a mechanical engineer who was running his own 3D scanning service company. He was looking for a 3D scanning spray that doesn’t cross-contaminate by spreading dust to the 3D scanning systems, technicians, and its surroundings. Hear about why he started AESUB in his own words:

What’s So Special About AESUB Blue?

You might think AESUB Blue is just a 3D scanning accessory but you will be amazed by the 3D scanning results you get simply by spraying the part with this product.

What’s different about AESUB Blue is that it’s a vanishing spray. Once you spray it on an object, it will disappear after a certain amount of time depending on temperature (usually within a few hours) so there is no mess and no cleanup!

The Result: You don’t contaminate yourself, the 3D scanning system, or the working environment. Best of all, it provides a consistent coating that makes it much easier to scan dark, shiny, metallic, clear, or any hard to scan surfaces.

Aesub spray used on helmet

If you are working with photogrammetry dots, you don’t have to worry about them not sticking to the object because they will stick on the coating.

Helmet spray with and without comparison

You get exceptional 3D scanning results using AESUB Blue.

Aesub blue

AESUB also offers a permanent 3D scanning spray when you need to scan an object over a few days.


3D Inspection

Geomagic Control X Essentials

Geomagic Control X Essentials
The Demand For Low-Cost 3D Inspection Software

Product quality and reliability matter more than ever. Companies are producing more manufactured goods to meet customer demands. As a result, they need to be absolutely sure that every product that comes out of the production line is consistently good.

Product quality ultimately has a direct impact on the company’s bottom line. It affects:

 
5 stars
Good Product Quality
1 star
Poor Product Quality
Customers
  • Boost customer loyalty (trust)
  • Customers not happy with the company (lose confidence)
Post-Sale
  • Fuel positive reviews, word of mouth (boost marketing and sales)
  • Negative reviews and complaints (bad publicity/press)
  • Replacement and return (more costs + work and headaches)
Profitability
  • Boost revenue and reduce cost
  • Lost sales and higher costs

This is not just a problem for large corporations. Small to medium-sized businesses who might not have as big of a budget as global brands are also looking for affordable ways to implement a quality control system. When manufacturing in volume, companies need assurance in their product consistency. It’s also about getting accurate and easy to understand reports to pinpoint and fix the source of quality issues—fast.

What’s So Special About Geomagic Control X Essentials?

The two new Geomagic Control X editions use the same platform as the professional edition at approximately half of the price!

Tailored to companies with a smaller budget that want to get started in quality inspection, 3D Systems introduced Geomagic Control X Essentials.

This is great news because the entry-level Essentials packages provide the best value as general-purpose 3D inspection systems that are feature-rich without a high price tag. Not all organizations need advanced features like automated inspection or engineering analysis. If your operations expand and require additional quality inspection features, you can always upgrade to the professional version.

Here’s a comparison chart to better understand which version would be the best fit for you:

comparison chart
See It In Action

To give you a better idea of what Geomagic Control X Essentials offers, here’s a quick demo:

For more information on Geomagic Control X Essentials, please visit our Geomagic Control X Software Essentials Page.


Reverse Engineering

QUICKSURFACE 2021 Scan To CAD Software

Quicksurface 2021
Demand For Low-Cost Reverse Engineering Software

Similar to 3D inspection, more and more small to medium-sized companies are looking for low-cost reverse engineering software to help speed up the product development process. QUICKSURFACE is a low-cost standalone scan to CAD software set out to change the reverse engineering industry. It has comprehensive SCAN to CAD tools that are simple to use. As a bonus, it’s almost substantially more affordable compared to similar software on the market.

The new QUICKSURFACE 2021 has just been released. It includes new exciting new tools to help you to make the reverse engineering of 3D scans even easier.

Here’s a list of new features and improvements [with video].

What’s So Special About QUICKSURFACE?

QUICKSURFACE opens up reverse engineering in a way that is both approachable and accessible. The workflow is straightforward. It cuts through all the hassle typically associated with the reverse engineering process to get you the end result fast. At an affordable price, it spreads the use of the technology so more people can benefit from using scan data from a 3D scanner as a basis for design.

The standalone reverse engineering software gives users a versatile toolset to create parametric and freeform CAD models while making sure accuracy and design intent are intact.

With QUICKSURFACE you can do:

  1. Parametric Modeling (History-based Modeling): Parametric modeling is a key feature of QUICKSURFACE. The best part: You can easily modify and make changes to the parameters from solid bodies even at a later time. You can directly transfer a parametric history tree to SOLIDWORKS® for mechanical parts.

    Quicksurface parametric
  2. Freeform Modeling (Automatic Surfacing + Manual Surface Modeling): Great for reverse engineering organic or complex surfaces, you can do it instantaneously with a click of a button or have total control to manually adjust the resolution and position of control points of the created surface.

    Automatic Surfacing
    Automatic Surfacing
    Freeform Modeling
    Freeform Modeling
  3. Hybrid Modeling (Combining both Parametric modeling + Freeform modeling): Real-world mechanical parts can have a mix of both organic and prismatic shapes. Starting with freeform and basic primitives, you can build a complex CAD model by trimming them and can later change the surfaces based on the design intent.

Try QUICKSURFACE For Free

If you are still unsure if QUICKSURFACE is right for you, the best way is to test it out yourself.

Start a 15-day free trial and test drive it to see if QUICKSURFACE is a good fit for you.


Get Ready for 2021

We hope that article will help with your planning into the New Year. As we’re getting really close to the end of the year, you still have time to get ready for next year.

quick tip icon

If you still have budget left you would like to spend this year, now is the best time to purchase 3D scanning equipment. This will ensure you are off to a good start in the New Year, whether it’s for new projects or expanding your capabilities.

scanning motorbike with Artec

It’s best to talk to a 3D scanning specialist about your plans so they can better understand your 3D scanning needs to recommend the best solution for you.

Please feel free to contact us about your needs and we can put together a tailored quote for you.

At GoMeasure3D, we wish you a Merry Christmas and a great start to the New Year!

The post Four New and Exciting 3D Scanning Technologies To Gear Up For 2021 appeared first on GoMeasure3D.

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