Thermal Expansion and Compressibility of Amorphous Polymers
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概要
- 論文の詳細を見る
Structure insensitive properties of amorphous polymers are discussed on the basis of cell model. Even in amorphous polymer, chain is supposed to be surrounded by six of four nearest neighbors and they form a hexagonal or tetragonal lattice. Lennard-Jones type potential is assumed is assumed between chain units which belong to different chains. The equation of state is obeys the principle of corresponding state. Considering the growth of holes due to the micro-Brownian motions of the chain segments, the dependences of specific volume and compressibility on temperature are discussed for rubbery state as well as glassy one. The results fairly agree with available experimental data.
- 社団法人応用物理学会の論文
- 1968-05-05
著者
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Ishikawa Kinzo
Department Of Textile Engineering Tokyo Institute Of Technology
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Ishikawa Kinzo
Department Of Polymer And Textile Engineering Tokyo Institute Of Technology
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ISHINABE Takao
Department of Textile Engineering, Tokyo Institute of Technology
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Ishinabe Takao
Department Of Textile Engineering Tokyo Institute Of Technology
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Ishinabe Takao
Department Of Polymer And Textile Engineering Tokyo Institute Of Technology
関連論文
- Thermal Expansion and Compressibility of Amorphous Polymers
- Volume Viscoelasticity of Amorphous Polymers. II.
- Volume Viscoelasticity of Amorphous Polymers
- A Quasi-Lattice Model of Amorphous Polymers