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Generalization of Results of Computations and Natural Experiments at Steel Parts Quenching 被引量:2

Generalization of Results of Computations and Natural Experiments at Steel Parts Quenching
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摘要 Complicated changes occur inside the steel parts during quenching process. A three dimensional nonlinear mathematical model for quenching process has been established and the numerical simulation on temperature field, microstructure and stress field has been realized. The alternative technique for the formation of high-strength materials has been developed on the basis of intensification of heat transfer at phase transformations. The technology for the achievement of maximum compressive residual stresses on the hard surface is introduced. It has been shown that there is an optimal depth of hard layer providing the maximum compression stresses on the surface. It has also been established that in the surface hard layer additional strengthening (superstrengthening) of the material is observed. The generalized formula for the determination of the time of reaching maximum compressive stresses on the surface has been proposed. Complicated changes occur inside the steel parts during quenching process. A three dimensional nonlinear mathematical model for quenching process has been established and the numerical simulation on temperature field, microstructure and stress field has been realized. The alternative technique for the formation of high-strength materials has been developed on the basis of intensification of heat transfer at phase transformations. The technology for the achievement of maximum compressive residual stresses on the hard surface is introduced. It has been shown that there is an optimal depth of hard layer providing the maximum compression stresses on the surface. It has also been established that in the surface hard layer additional strengthening (superstrengthening) of the material is observed. The generalized formula for the determination of the time of reaching maximum compressive stresses on the surface has been proposed.
出处 《Journal of Shanghai Jiaotong university(Science)》 EI 2000年第1期128-134,共7页 上海交通大学学报(英文版)
关键词 QUENCHING Phase Transformation Temperature FIELD Stress FIELD Maximum COMPRESSIVE Stresses Superstrengthening of Materials GENERALIZATION of RESULTS of Computations. Quenching Phase Transformation Temperature Field Stress Field Maximum Compressive Stresses Superstrengthening of Materials Generalization of Results of Computations.
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参考文献1

  • 1T Inoue,K Arimoto.Development and implementation of cae system “hearts” for heat treatment simulation based on metallo-thermo-mechanics[J].Journal of Materials Engineering and Performance.1997(1)

同被引文献22

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