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11. |
A thermoelastic analysis in a semi‐infinite cylindrical single crystal during laser‐heated pedestal growth |
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Journal of the Chinese Institute of Engineers,
Volume 21,
Issue 1,
1998,
Page 101-108
LiHsing Wang,
BorJou Tsay,
MinHsiung Hon,
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摘要:
The thermal stress produces in a single crystal during fiber growth by temperature variations is analytically obtained and numerically calculated for various Biot numbers and interface shape of the melt and the solid. It is found that maximum stress and dislocation density were produced during the single crystal growth for the growing interface concaving towards the melt with a large Biot number. The temperature distribution far beyond the interface shows little or no difference between the convexed and concaved conditions along the axial and radial direction. However, it is shown that single crystals at the periphery and tip of the concaved‐ interface have thermal stress (dislocation) 4.8 times higher than the ones with the convexed‐interface. The thermal stresses or dislocation density of the spinel calculated from the optical micrograph photographs have the same trends as the derived model.
ISSN:0253-3839
DOI:10.1080/02533839.1998.9670375
出版商:Taylor & Francis Group
年代:1998
数据来源: Taylor
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12. |
Nonlinear vibration analysis of a traveling string with time‐dependent length by finite element method |
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Journal of the Chinese Institute of Engineers,
Volume 21,
Issue 1,
1998,
Page 109-117
Rong‐Fong Fung,
Pao‐Hsii Wang,
Ming‐Jer Lee,
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PDF (647KB)
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摘要:
In this paper, the nonlinear vibrations of string with time‐varying length and a weight at one end are investigated. A set of nonlinear, time‐varying differential equations describing this system was derived by using Hamilton's principle. An approximated model was made by variable‐domain finite element formulation. Numerical results are presented for the parabolic and sinusoidal axial‐motions of the string. Finally, the linear and nonlinear effects on the transient amplitudes are also compared.
ISSN:0253-3839
DOI:10.1080/02533839.1998.9670376
出版商:Taylor & Francis Group
年代:1998
数据来源: Taylor
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