5 Steps & 30 Mins : Composite Material Modeling (Digimat-HC)
Salepage : 5 Steps & 30 Mins : Composite Material Modeling (Digimat-HC)
Archive : 5 Steps & 30 Mins : Composite Material Modeling (Digimat-HC) Digital Download
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mp4 (1280×720, 30 frames per second(r)) | Audio: aac, 44100 Hz, 2 channels | Size: 169 MB
eLearning Video | 10 lectures (30 minutes) | Language: English
Learn how to use Digimat-HC to model and forecast the behavior of a sandwich-structured composite. It just takes 30 minutes!
Discover Digimat software (tools and solutions).
A step-by-step technique to modeling a sandwich panel composite in Digimat-HC
Requirements
Basic understanding of composite material mechanics and behavior
Description
We all appreciate content that provides several advantages and information in a concise and time-saving manner. Furthermore, some people struggle with the issue of composite material analysis since many tools that aid in modeling and simulating the behavior of composite materials have a high learning curve.
Digimat is a piece of software that predicts local composite material behavior and optimizes safety factor and composite material weight.
This course will teach you how to model a sandwich-structured composite in Digimat-HC in five steps:
1-Developing and Selecting Core Material
2-Building Skin Layers
3-Putting together the sandwich material panel structure
Setup for a Four-Three-Point Bending Test
5-Viewing Simulation and Making Plots
We will have two worked examples to put together after learning how to model a sandwich panel in Digimat-HC.
Learning how to utilize the program effectively can save you time while providing quick-yet-accurate forecasts for local composite behavior. This will also assist to reduce manufacturing expenses associated with time waste and multiple testing.
Tips:
1- After finishing each lesson, it is advised that you implement what you have learned step by step. Then, model an existing verified structure to assess model accuracy and provide ideas for enhancing your model.
2- Read the EKT (Extra Knowledge Text), which contains information that may assist you in better understanding the model’s parameter selection and input.
E-XStream Digimat 5.1.1 was utilized.
Who should take this course:
Anyone who works in the automotive, materials, mechanical, electrical, or aeronautical engineering industries, for example…
Anyone with an interest in composite material analysis
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