Material Selection and Simulation Are Powerful in the STEM Classroom | ANSYS Blog
November 1st, 2019
Engineers understand that shape and material selection are critical to the optimal design of structural parts, such as I-beams.
Science, technology, engineering and math (STEM) students, however, might not know why certain shapes or materials are advantageous for a given situation.
Material properties (such as stiffness and strength) and the beam shape (dimensions, second moment of area and shape factor) must be fully understood when making design choices.
CES EduPack, available in the ANSYS Granta family of material intelligence software, can help STEM students learn about material properties and structural sections. For instance, when CES EduPack is combined with finite element analysis, through ANSYS Mechanical or ANSYS Discovery Live, students can explore the complex interactions between a design’s shape and material selection.
Tools for Complex Material Selection and Shape Optimization
The number of beam shape and material combinations are vast; where do engineers begin when making design decisions?
CES EduPack contains the structural information of various beams created by common shapes and materials, including (but not limited to):
- Hollow circular column
- Circular column
- Structural steel
- Extruded aluminium alloy
- Pultruded glass fibre reinforced polymer (GFRP)
Through advanced plotting capabilities, CES EduPack can be used to compare different structural materials. However, the shape factor needs to be considered to make a proper material selection. Though the software can account for some shape parameters (such as second moment of area and section area) some dimensions and design parameters will still need to be determined.
Finite element analysis (FEA) is a technique that simulates a structure’s response to specific loading conditions. During the design process, engineers can create computer-aided design (CAD) drawings and simulate the loads to understand a part’s stress concentrations and deformations. This gives the engineer detailed material requirements based on all of the beam’s dimensions and design parameters. These simulations can be performed using Mechanical and Discovery Live.
The accuracy of simulations depends on the quality of the material property information. However, gaining access to accurate material property information can be challenging. Therefore, the best way to understand the design and material selection of a structural beam is by combining the power of CES EduPack and FEA.
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This blog was originally posted on ANSYS’ website here.