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How to mesh the components using 3matic

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Description

3matic: In this model, I tried to show how to adjust a model exported from CAD software with the 3D bone geometry that from CT-scan images via mimics to prepare the model for applying the mechanical properties using 3matic.

Also, this video will show you how to apply the mesh configuration on your model properly using 3matic.

This mimics and 3matic simulation can be very helpful especially in biomechanics modelling as it is very important to know how to apply mesh to get the most accurate results. High accuracy is one of the most important criterions in biomechanics area. In this product, you can find the PowerPoint files which contain more details.

The Mimics Innovation Suite

The Mimics Innovation Suite was designed to make using medical image data for engineering purposes as easy and rewarding as possible.

As the industry-standard medical image-based engineering software and service, MIS puts you in control with the most advanced tools to support your mission in improving patient care.

The Mimics Innovation Suite software toolbox. allows you to import medical image data (DICOM) and segment the anatomy to create accurate 3D models.

Use the 3D models as the starting points for advanced 3D analysis, planning, personalized device design, finite element meshing, or 3D printing.

MIS offers a wide range of tools for orthopedic, cranio-maxillofacial, cardiovascular, respiratory, and other clinical applications.

Personalized engineering and simulation are increasingly seen as core competences for biomedical research teams. To meet this challenge, a powerful and clinically accepted R&D software toolbox is needed.

As professors, providing your students with the technical skill set preferred by hospitals and the medical device industry will prepare them in the best possible way for careers in research or the medical industry.

When performing personalized studies, the 3D models you start. from should be geometrically accurate and meshed appropriately. Therefore, using a software that is built to accomplish this task in as little time as possible and can be automated will make all the difference.

While animals and cadavers are commonly used to validate medical devices and train physicians, their anatomies can be significantly different from those of actual patients. 3D-printed anatomical models offer realistic testing conditions and, when used in pre-procedural planning, can shorten intervention time.

Each patient’s anatomy is both unique and complex. Designing patient-specific devices, preparing 3D anatomical models for printing or creating FEA/CFD meshes based on patient anatomy can therefore be challenging.

With 3-matic’s tools you can use the patient’s anatomy as the starting point. This can lead to anatomically contoured devices that may fit better, more accurate anatomical models for 3D printing, and more representative finite element models.

Our services:

First things first: before starting any new product design you need to see how to create the highest quality while keeping costs in check. Requirements are listed, ideas are brainstormed and/or data files checked to see how to find the best solution to fit the design question at hand.

Regardless of how far into the design process you are talk to us to see if your data can be optimized to take better advantage of 3D Printing. Just starting from a 2D design with A-face data?

We can create the 3D file and get it ready to print. Rely on our engineering team for file repair and preparation. With an array of software tools developed in-house, we can handle the heaviest design files, generate reinforcement support structures, design complex cuts, or make your design more functional, more esthetic, lighter, smoother or simply better suited for 3D Printing.

We believe that every designer should be able to develop products without being limited by technology or material availability. In our state-of-the-art Factory for 3D Printing you can choose from seven manufacturing technologies and over thirty materials.

Rest assured that our engineering experts will always do their utmost to find a solution for your application and to propose a combination of technology, materials and finishes to shape it with. Also if you’re looking for more in-depth revisions of your design, we’re happy to help.

Video files: How to mesh the components using 3matic

For more information, please send me an Email:

Hoomanshirzadi@hyperlyceum.com

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HLyceum

Easy learning
Hyperlyceum.com

1 review for How to mesh the components using 3matic

  1. HyperLyceum Team (verified owner)

    Meshing in Abaqus is challenging and this video gives you some hints to apply it to biomechanical components such as hip bone

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