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Finite Element Analysis. Barna Szabó
Читать онлайн.Название Finite Element Analysis
Год выпуска 0
isbn 9781119426462
Автор произведения Barna Szabó
Жанр Физика
Издательство John Wiley & Sons Limited
5 Chapter 5Table 5.1 Legacy codes: Summary of results.Table 5.2 Numerical simulation codes: Summary of results.Table 5.3 Solution by classical methods: Summary of results.Table 5.4 Fastener forces estimated by the method described in Appendix JTable 5.5 Fastener forces estimated by the linear spring modelTable 5.6 Fastener forces estimated by the nonlinear spring modelTable 5.7 Fastener forces estimated by the multibody contact modelTable 5.8 Example 5.1. Fastener forces estimated by the nonlinear spring mode...Table 5.9 Fastener forces estimated by finite element modelingTable 5.10 Quantities of interest from finite element modeling and Model 3 (k...Table 5.11 Linear model. Computed values of the strain energy (
mm).Table 5.12 Linear model. Computed stress resultants in the local coordinate s...Table 5.13 Nonlinear model, mm. Computed stress resultants in the global coo...Table 5.14 Linear model of the coil segment. Computed values of the strain en...6 Chapter 6Table 6.1 Calibration of Peterson's material parametera based on the random f...Table 6.2 Additional calibration data to augment Table 6.1.Table 6.3 24S‐T3 alloy: Fatigue limit values predicted by the random fatigue ...Table 6.4 24S‐T3 aluminum alloy: Computed values ofVk , βk ,
and for Table 6.5 Computed log likelihood values .Table 6.6 Results of validation experiments performed on notched 2024‐T3 alum...Table 6.7 Results of experiments for out‐of‐phase fully reversed axial and t...Table 6.8 Test records used for the calibration of Model B.Table 6.9 The outcome of the validation experiment for out‐of‐phase axial an...Table 6.10 The outcome of validation experiments for out‐of‐phase axial and ...Table 6.11 The computed log likelihood ( ) values for predictors A and B.Table 6.12 Ideal data ( ): Minimum 95% confidence intervals ( ).7 Chapter 7Table 7.1 Example 7.2. Estimated range of the stress resultantsQx and Qy (N/m...Table 7.2 Example 7.4. The first non‐zero natural frequency (Hz) correspondin...Table 7.3 Example 7.5. Natural frequencies (Hz) for mode 20 computed using th...
8 Chapter 8Table 8.1 Displacement boundary conditions.Table 8.2 Displacement boundary conditions for the determination of the coeff...Table 8.3 Material properties of the hexagonal pattern (MPa and
).Table 8.4 Material properties of the square pattern (MPa and ).Table 8.5 Comparison of material properties (psi and ).Table 8.6 Displacement boundary conditions for the problem of localization.Table 8.7 Displacement boundary conditions.9 Chapter 9Table 9.1 Critical values of the axial displacement
(mm) and the rotation θ...Table 9.2 Example 9.7: The results of computation for .Table 9.3 Example 9.10: Computed values of the quantities of interest with a...10 Appendix CTable C.1 Fichera domain (elasticity). Estimation of the reference value of t...Table C.2 Fichera domain.h‐Convergence, uniform mesh,
(trunk space).11 Appendix ETable E.1 Abscissas and weights for Gaussian quadratureTable E.2 Abscissas and weights for Gauss‐Lobatto quadrature
12 Appendix FTable F.1 Coordinates of one‐dimensional optimal sets
and from reference [...Table F.2 Triangular coordinates of the interior interpolation points for .13 Appendix GTable G.1 Lowest positive values of
for three types of homogeneous boundary ...14 Appendix HTable H.1 Values of the function
.15 Appendix ITable I.1 Average static properties of 24S‐T3 (2024‐T3) aluminum from referen...Table I.2 Summary of test records extracted from NACA & NASA technical report...Table I.3 Estimated parameters
for the bilinear model.Table I.4 Estimated parameters for the fatigue limit model.Table I.5 Estimated parameters for the random fatigue limit model.List of Illustrations
1 Chapter 1Figure 1.1 Exact and approximate solutions for the problem in Example 1.1.Figure