摘要
前言由于汽车、航空和油井等特种工业部门要求增强弹性体的性能,它已成为近来趋向于高性能弹性体的主要驱动力。这些工业要求弹性体耐高温。
同被引文献14
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1Kimmer w, schmalz E D. Infrared Analysis of Butadiene Polymers[J]. Rubb Chem Technol, 1960, 33:639.
-
2Hampton R. Applied Infrared Spectroscopy in the Rubber Industry[J].Rubb Chem. Technol, 1972,45(3):546.
-
3Hummel D O, Scholl F. Infrared Analysis of Polymer Resins and Additives: An Atlas[M]. Verlay Chemie Weinheim. 1978.
-
4Kendra P J, Jones C H, Wallen P J, et al. Fourier Transform Raman Spectroscopy in the Analysis of Elastomers, Part 2: Synthetic Rubber. Kauschuk Gummi Kunststoffe, 1992,45(11):915.
-
5Edward H G M, Johnson A F, Lewis I R, et al. Raman spectroscopy Analysis of the Microstructures of the Butadiene-Acrylonitrilen copolymers[J]. Polym Int, 1993,31(4):391.
-
6薜奇.高分子结构研究中的光谱方法[M]. 北京:高等教育出版社,1995,5.
-
7Bunce S J, Edward H G M, Johnson A F, et al. Synthetic Polyisoprenes Studied by Fourier Transform Raman Spectroscopy[J]. Spectrochim Acta, Part A, 1993,49A(5,6):775.
-
8何永矩.拉曼光谱测定聚丁二烯的微相结构[J].分析化学,1988,16:1065-1065.
-
9Cheng D M, Gadner I J, Wang H C. Spectroscopy Studies of the structures of Butyl and Bromobutyl Rubber[J]. Rubb Chem Technol, 1990,63(2):265.
-
10Pecsok P L. Painter P C, Shelton J R. Fourier Trans-form Infrared Studies of the Mechanism of Oxidation of cis 1,4- Polybutadiene[J]. Rubb Chem Technol, 1976, 49:1010.
