PHASE TRANSITION IN CAVITATION PROBLEM AND THE SPEED APPROACHING TO EOUILIBRIUM

Applied Mathematics and Mechanics (English Edition) ›› 1984, Vol. 5 ›› Issue (5): 1595-1601.

PHASE TRANSITION IN CAVITATION PROBLEM AND THE SPEED APPROACHING TO EOUILIBRIUM

蔡树棠¹, 吴敦楷²

1. Department of Modern Mechanics, University of Science and Technology of China, Hefei;
2. Division of Physics, Hanzhou Commercial College, Hanzhou

收稿日期:1984-01-17 出版日期:1984-09-18 发布日期:1984-09-18

PHASE TRANSITION IN CAVITATION PROBLEM AND THE SPEED APPROACHING TO EOUILIBRIUM

Tsai Shu-tang¹, Wu Den-kai²

1. Department of Modern Mechanics, University of Science and Technology of China, Hefei;
2. Division of Physics, Hanzhou Commercial College, Hanzhou

Received:1984-01-17 Online:1984-09-18 Published:1984-09-18

摘要/Abstract

摘要： In the previous article[9],we mentioned that the cavita-tion phenomenon cannot be described both by the fast expansion and compression of a single gas bubble,because the actual fact is departed far from these kinds of description but close to the equilibrium condition. In this article,we shall go on to tackle the problem,which was discussed in the previous paper[9]. We get the speed and the relaxiation time of approaching to the equilibrium state of a gas bubble,and give out the criterion that the gas bubble may be considered as in equilibrium condition in cavitation phenomenon.

关键词: nanocomposite, thermal elastoplastic, effective thermal expansion, residual interface stress, size-dependent

Abstract: In the previous article[9],we mentioned that the cavita-tion phenomenon cannot be described both by the fast expansion and compression of a single gas bubble,because the actual fact is departed far from these kinds of description but close to the equilibrium condition. In this article,we shall go on to tackle the problem,which was discussed in the previous paper[9]. We get the speed and the relaxiation time of approaching to the equilibrium state of a gas bubble,and give out the criterion that the gas bubble may be considered as in equilibrium condition in cavitation phenomenon.

Key words: nanocomposite, thermal elastoplastic, effective thermal expansion, residual interface stress, size-dependent

蔡树棠;吴敦楷. PHASE TRANSITION IN CAVITATION PROBLEM AND THE SPEED APPROACHING TO EOUILIBRIUM[J]. Applied Mathematics and Mechanics (English Edition), 1984, 5(5): 1595-1601.

Tsai Shu-tang;Wu Den-kai. PHASE TRANSITION IN CAVITATION PROBLEM AND THE SPEED APPROACHING TO EOUILIBRIUM[J]. Applied Mathematics and Mechanics (English Edition), 1984, 5(5): 1595-1601.

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PHASE TRANSITION IN CAVITATION PROBLEM AND THE SPEED APPROACHING TO EOUILIBRIUM

PHASE TRANSITION IN CAVITATION PROBLEM AND THE SPEED APPROACHING TO EOUILIBRIUM

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