Explanations Of All Safety Tools In ANSYS Mechanical
If you want to show your material’s, application’s or part’s safety situation with the applied boundry conditions such as forces, pressures etc. in ANSYS Mechanical, selection of a proper safety tool is very important. There are four types of safety tools in ANSYS that you can use; Max Equivalent Stress Tool, Max Shear Stress Safety Tool, Mohr-Coulomb Stress Safety Tool and Max Tensile Stress Safety Tool. All these safety tools are explained in detail in Mechanical Base. We will give the link of all of these individual safety tools’ explanations in Mechanical Base.
Safety Tools In ANSYS Mechanical
- Maximum Equivalent Stress Safety Tool In ANSYS Mechanical: Maximum equivalent stress theory is also called as distorsion theory that can be applied to ductile materials. If you click on the given link, you can find much more advanced information about Mximum Equivalent Stress and its Safety Tool in ANSYS Mechanical.
- Mohr-Coulomb Stress Tool In ANSYS Mechanical: Mohr-Coulomb stress theory is used for brittle materials. For brittle materials, compression stress and strength is also very inportant as tensile stress. In this theory, compression effects are also considered. Click on the given link and find out much more information about Mohr-Coulomb Stress and its Stress Tool in ANSYS Mechanical.
- Maximum Shear Stress Safety Tool In ANSYS Mechanical: Maximum shear stress safety tool is used for shear stress calculation in ductile materials. Click on the given link and find out much more information about Maximum Shear Stress and its Stress Tool in ANSYS Mechanical.
- Maximum Tensile Stress Safety Tool In ANSYS Mechanical: Maximum Tensile Stress compares the biggest principal stress occur on brittle materials with tensile strength of this mateirials. Click on the given link and find out much more information about Maximum Tensile Stress and its Stress Tool in ANSYS Mechanical.
These are the all safety tools in ANSYS Mechanical that you can use for your material and application. Do not forget to leave your comments and questions about safety tools in ANSYS Mechanical below. Your precious feedbacks are very important for us.