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Although polypropylene has been marketed since the 1950s, research and development in this area is still vigorous. The consumption of polypropylene over the years has been relatively high, mainly due to the steady improvement of its property profile. Polypropylene: Structures, Blends and Composites, in three separate volumes, reflects on the key factors which have contributed to the success of polypropylene, dealing with all aspects of structure-performance relationships relevant to thermoplastic polymers and related composites.
Volume 1, Structure and Morphology, deals with polymorphism in polypropylene homo- and copolymers, where molecular and supermolecular structures are covered, and the processing-induced structure development of polypropylene, showing the interrelation between the processing-induced morphology and mechanical performance.
Volume 2, Copolymers and Blends, contains comprehensive surveys of the nucleation and crystallisation behaviour of the related systems. It includes the development of morphology and its effects on rheological and mechanical properties of polypropylene-based alloys and blends and a review of polypropylene-based thermoplastic elastomers.
Volume 3, Composites, gives a comprehensive overview of filled and reinforced systems with polypropylene as a matrix material, with the main emphasis on processing-structure-property-interrelationships. Chapters cover all aspects of particulate filled, chopped fibre-, fibre mat- and continuous fibre-reinforced composites. Interfacial phenomena, such as adhesion, wetting and interfacial crystallisation, are also included as important aspects of this subject.
List of contents
One Polymorphism in Polypropylene Homo- and Copolymers.- 1 Molecular structure of polypropylene homo- and copolymers.- 2 Crystalline structures of polypropylene homo- and copolymers.- 3 Crystallization, melting and supermolecular structure of isotactic polypropylene.- 4 Nucleation of polypropylene.- 5 Epitaxial growth on and with polypropylene.- Two Processing-induced Structure.- 6 Higher order structure of injection-molded polypropylene.- 7 Knit-line behaviour of polypropylene and polypropyleneblends.- 8 Welding and fracture of polypropylene interfaces.- 9 Self-reinforcement of polypropylene.- 10 Processing-induced structure formation.
About the author
M.Sc., Technical University of Budapest, §Faculty of Chemical Engineering, Budapest,§Hungary (1969-74), Ph.D., Lomonossov Moscow University of Fine Chemical Technology, Moscow, USSR(1983),D.Sc., Hungarian Academy of Sciences, Budapest (1991)§Professional Experience: Sci. coworker, laboratory head (1974-83), Chief engineer (1983-87), guest scientist, professor (1987-91), Professor on Chemical Engineering (1992), Technical University of Budapest.§Awards and Recognitions: Alexander von Humboldt Fellow in Germany (1985-86), Fellow of the Japan Society of Promotion of Science (JSPS) (1993), Honorary doctor of the Budapest University of Technology and Economics (2004)§Editorial Board Member: Plastics, Rubber and Composites (1983-),§ Science and Engineering of Composite Materials (1989 - 93), Journal of Polymer Engineering (1989 -93), Mechanics of Composite Materials (1991-2005), Journal of Applied Polymer Science (2002-), Progress in Plastics, Rubber and Recycling Technology (2004-)
