Page 202 - Using ANSYS for Finite Element Analysis A Tutorial for Engineers

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A deformation, 132
addition of matrices, 15 element material properties,
algebraic equation. See linear 126
algebraic equations geometric properties,
ANSYS. See also geometric 125–126
modeling; static analysis listing the stresses, 130–132
model geometry loads, applying, 128–129
analysis type and analysis meshing, 126–127
options, 61–62 saving, 127
applying loads and obtaining solving, 129–130
solution, 61, 62–63 stresses, 133–134
initiate solution, 63 title, giving, 122
load step options, 63 type of element, 125
preprocessing plane problem (wrench)
analysis title, 55 ANSYS solution, 142–146
element real constants, 57–59 geometry, 142
element types, 56–57 loading, 142
jobname, 54–55 material properties, 142
linear material properties, methodology, 142
59–60 assembly design (static analysis)
material properties, 59 ANSYS solution, 154–160
nonlinear material properties, boundary condition, 154
60–61 geometry, 154
units, 55 loading, 154
results, 63–64 material properties, 154
applied mechanics, 1 methodology, 154
area elements, static analysis
plane problem (bracket), B
121–122, 134–141 bar element formulation, 31–33
analysis type, 127 beam elements, static analysis.
Boolean operations, 122–124 See also distributed loads on
constraints, 127–128 beam elements
deflection, 133 analysis type, 113

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