Filetype PDF | Posted on 28 Jan 2023 | 2 years ago
Authentication
digital resources
149x Filetype PDF File size 0.98 MB Source: ocw.snu.ac.kr
Mechanics and Design
Chapter 5. FEM -Truss
ByengD. Youn
System Health & Risk Management Laboratory
Department of Mechanical & Aerospace Engineering
Seoul National University
Seoul National University
CONTENTS
1 FEM -Introduction
2 Truss Element in 1D Space
3 Truss Element in 2D Space
4 Truss Element in 3D Space
3 Inclined or Skewed and Support
2019/1/4 Seoul National University - 2 -
Chapter 5 : FEM –Truss
Introduction
• The finite element method (FEM) is a technique for analyzing the behavior
of engineered structures subjected to a variety of loads. FEM is the most
widely applied computer simulation method in engineering.
• The basic idea is to divide a complicated structure into small and manageable
pieces (discretization) and solve the algebraic equation.
Applications of FEM in Engineering
Simulation
Experiment
Engineered system Tire Cellular phone Li-ion battery
Predicted measure Vehicle Safety Cornering force Reliability system Thermal
behavior
2019/1/4 Seoul National University - 3 -
Chapter 5 : FEM –Truss
Introduction
Available Commercial FEM Software
• Midas (General purpose) • PATRAN (Pre/Post Processor)
• ANSYS (General purpose) • NASTRAN (General purpose)
• I-DEAS (Complete CAD/CAM/CAE package) • COSNOS (General purpose)
• HyperMesh (Pre/Post Processor) • Dyna-3D (Crash/impact analysis)
• ABAQUS (Nonlinear and dynamic analyses)
Types of Finite Elements
1-D (Line) Element 2-D (Plane) Element 3-D (Solid) Element
(Spring, truss, beam, pipe, etc.) (Membrane, plate, shell, etc.) (3-D fields – temperature,
displacement, stress, flow
velocity, etc.)
2019/1/4 Seoul National University - 4 -
no reviews yet
Please Login to review.
