Tutorials

Most liked all time
- Recent
- Most liked
- Most viewed
- Most commented
- This week
- This month
- All time
Category
Software
- Snagit
- Alibre Design
- ArchiCAD
- AutoCAD
- AutoCAD Electrical
- Autodesk 3ds Max
- Autodesk Alias
- Autodesk Inventor
- Autodesk Maya
- Autodesk Revit
- Autodesk 123D
- BricsCAD
- Bentley MicroStation
- BlenderCAD
- BobCAD-CAM
- CATIA
- Delmia
- DraftSight
- FreeCAD
- Femap
- Fusion 360
- Geomagic Design
- IronCAD
- JT
- Kompas-3D
- KeyCreator
- KeyShot
- Lagoa
- Luxology
- Mastercam
- Moi3D
- NX Unigraphics
- OBJ
- Onshape
- OpenSCAD
- Parasolid
- Powermill
- Powershape
- Pro/Engineer Wildfire
- PTC Creo Parametric
- PTC Creo Elements
- Rhino
- SpaceClaim
- SOLIDWORKS
- solidThinking Evolve
- Solid Edge
- SolidFace
- STEP / IGES
- SketchUp
- STL
- TinkerCAD
- TopSolid
- T-Flex CAD
- TurboCAD
- VectorWorks
- ViaCAD 3D
- VRML / WRL
- ZW3D
- Rendering
- GrabCAD Print
- GrabCAD Community
- GrabCAD Workbench
- Text file
- 3D Manufacturing Format
- Cinema 4D
- Other
Intermediate

FEM ×
Standards ×

Fatigue Crack Growth Analysis of Modified Compact-Tension Specimen - ANSYS Workbench

in FEM

59 14 Intermediate

This tutorial includes step-by-step fatigue crack analysis of Modified Compact-Tension Specimen.

Side Pole Test - High Speed Impact - Explicit Dynamics - ANSYS Workbench

in FEM

40 0 Intermediate

Explicit dynamics is a time integration method used to perform dynamic simulations when speed is important. Explicit dynamics account for quickly changing conditions or discontinuous events, such as free falls, high-speed impacts, and applied loads. Because these “nonlinear dynamics” are integrated into the simulation, explicit dynamics is the preferred choice for simulating highly transient physical phenomena. Some side impacts involve a vehicle travelling sideways into rigid roadside objects such as trees or poles. Often this is the result of a loss of control on the part of the driver, owing to speeding, misjudgement of a corner or because of a skid in slippery conditions.

Planar Seal Simulation with Hyperelastic Experimental Data (Mooney-Rivlin Hyperelastic Model)

in FEM

35 0 Intermediate

The seal which is used in the door of applications from automotive industries. The seal is a long strip of rubber and it will be modeled as a plane strain problem. A series of material tests has been conducted, including the uni-axial tensile test, the bi-axial tensile test and the shear test. A series of trials of data fitting shows that, for these material testing data, the two-parameter "Mooney-Rivlin Hyperelastic Model" fits the data better than other models. It is decided to use Two-Parameter Mooney-Rivlin Model. The unit system used in this tutorial is "U.S. Customary (in-lbm-lbf-s)".

Topology Optimization of Triangular Bracket - ANSYS Workbench

in FEM

32 2 Intermediate

Topology optimization is a mathematical method which spatially optimizes the distribution of material within a defined domain, by fulfilling given constraints previously established and minimizing a predefined cost function. Main aim of this tutorial is optimizing and decreasing the material density of the triangular bracket as 50% by topology optimization.

Static Crack Growth Analysis of ARCAN Specimen - ANSYS Workbench

in FEM

30 0 Intermediate

This tutorial includes step-by-step static crack growth analysis of ARCAN Specimen.

Spring stiffness calculation in SOLIDWORKS

in FEM

14 1 Intermediate

How to calculate spring stiffness with Solidworks simulation @cadingal . Static structural analysis of a helicoil spring will be done using self contact approach to calculate spring stiffness in Solidworks.

Linear Static Study in 10 simple steps.

in FEM

14 0 Intermediate

Linear Static Study with SolidEdge.

Simulation of Two Flanges with Bolts

in FEM

13 10 Intermediate

Solidworks Simulation, Bolt connection

How to do Structural Analysis of a Car Wheel in SOLIDWORKS?

in FEM

10 0 Intermediate

How to do Structural Analysis of a Car Wheel in SOLIDWORKS? @cadingal Learn..... How to assign gravity load? How to assign Force load? How to evaluate stress, deformation & factor of safety?

External Windmill flow simulation in solidworks fully explained for beginners from scratch

in FEM

10 0 Intermediate

In this video you are going to learn how to do external flow simulation in solidworks. i have defined and make everything from scratch like making geometry explaining why i am doing a particular step etc. i have also explained how to define boundry conditions in solidworks . what is mean by reference of axis . how to do wind flow simulation in solidworks with deep explaination i hope this video helps you a lot . I also define how to use equation goal . if you want to learn about more flow simulation in solidworks checkout this playlist https://www.youtube.com/playlist?list=PLjExndY7KnkBnQ6LS2u9ZfjOMOVGFIfxI and if possible support us on paypal so that we can create more and better content : paypal.me/nobodyknow137

Tolerances in DIN 5480 splines

in Standards

10 1 Intermediate

In this tutorial, I will address some topics regarding the flank tolerances in the standard DIN 5480 splines. For an Asking of https://grabcad.com/erick.mireles-2 about the meaning of 8f in an expression like DIN 5480 W 120 x 3 x 38 x 8f

Design and analysis of a Utility Crane with Solidworks Simulation

in FEM

9 1 Intermediate

Design and analysis of a Utility Crane with Solidworks Simulation will be done in this tutorial. Download 3D CAD model of utility crane from following link. https://drive.google.com/file/d/10PDTV3Civ02RRciEHKwo30mu7d_4E5WV/view?usp=sharing Evaluate stresses and deformation and reaction forces of a utility crane. #solidworks #utilitycrane #simulation

Ansys Workbench Tutorial-Tee Joint (Fluid Flow Fluent)

in FEM

8 0 Intermediate

This Video Tutorial Explains how to perform Fluid Flow Fluent Ansys by taking the example of Tee Joint. Watch the Full Video Tutorial Hope you will enjoy this video tutorial

#4 Static Structural Analysis of Cylindrical Pressure Vessel | ANSYS | ABIS CADDworks ABIS CADDworks

Ismail A Mohammed

in FEM

8 0 Intermediate

Static Structural Analysis of Cylindrical Pressure Vessel

Designing Axial Static O-ring Grooves to "Industry Standards"

in Standards

8 2 Intermediate

This Covers 2/3 of everything I know about designing O-ring seals. I frequently used these while designing production tools. Most the design is based on the standards that are put forth by SAE. Personally, I be going over the reiteration by Parker since it's what I learned. Other references include the Apple Rubble Product and Trelleborg for their proprietary O-ring Gland Calculators, and the help they gave me in building my own. Links to their websites are found in Section 5. All design in this lesson is for "Static Axial Design under normal conditions”. Disclaimer: while I have completed a BS in Mechanical Engineering and have passed the FE, I am not a PE. While these calculations are standard, published, and I personally have used these practices to design multiple high-pressure tools, I cannot guarantee that they a perfect. If you are in doubt, in a hazardous environment, or using in an application that could cause harm to life, I would suggest double checking with other sources (engineering) and/or extensive testing. Also, my experience is in Oil and gas, in the continental USA. You may notice my practices being bias to API standards and in English Units, I suggest you take all I say with a grain of salt. Lesson Plan: Step 1: Background and Definitions Step 2: Finding a Published O-ring Gland and incorporating it into a design. Step 3: Designing Custom Groove using the Standards Step 4: Other Design Recommendations and Drafting Example Step 5: References and Useful links A copy of the files can be found at: https://grabcad.com/library/how-to-design-an-o-ring-gland-to-industry-standards-parts-and-photos-1

or

© 2025 Stratasys Inc.

ABOUT US

Company

Jobs

RESOURCES

Blog

Resource Center

Support

GrabCAD Software Support

GrabCAD Community Support

SOCIAL

Facebook

Youtube

Instagram

Linkedin

Twitter

Streamline Pro

Overview

Control

Overview

Print

Overview

Pro

GrabCAD Print for FDM

GrabCAD Print for PolyJet

Digital Anatomy

SAF Technology

Origin

GrabCAD Print for Neo

Shop

Overview

Features

Compare

Teachers & Lab Managers

IT & Security

Engineering Managers

PARTNERS

Software Partners

GrabCAD SDKs

COMMUNITY

Library

Challenges

Groups

Questions

Tutorials

Engineers

Contact Us Website Terms of Use Software Terms of Use Privacy policy Trademarks Your Data on GrabCAD

The Computer-Aided Design ("CAD") files and all associated content posted to this website are created, uploaded, managed and owned by third-party users. Each CAD and any associated text, image or data is in no way sponsored by or affiliated with any company, organization or real-world item, product, or good it may purport to portray.