Industrial polymers handbook: products, processes, applications
The Industrial Polymers Handbook - Products, Processes, Applications - is a multi-volume compendium of technology that describes industrially important polymers, both naturally occurring and synthetic. The book is arranged in 3 main parts: Part 1 describes polymerization processes in detail and addresses trends in polymer reaction engineering, polymerization mechanisms and kinetics, and reactor modeling. Part 2 includes a comprehensive presentation of source-based and structure-based polymer nomenclature and covers descriptions of the syntheses and characteristics of the industrially important polymer classes, while Part 3 covers biopolymers and their derivatives. Internationally respected authors from both industry and academia in many of the world's major industrialized countries provide the complete picture, backed by top-quality illustrations, clear diagrams and charts, and the extensive use of tables - providing a unique level of detail. A keyword, author, and a CAS-registry-number index round off the contents of this handbook, making it an invaluable source of information for chemists, chemical engineers, patent attorneys, marketing specialists, and all those involved in today's polymer industry.
26 pages matching step-growth polymerization in this book
Results 1-3 of 26
What people are saying - Write a review
We haven't found any reviews in the usual places.
Reaction Engineering 10 Reactor Modeling
6 other sections not shown
A. E. Hamielec acetate acid acrylate acrylic acid agents aliphatic amines applications aqueous aromatic batch Bayer bimolecular termination carbon catalysts chain length chain transfer Chem chemical coatings comonomers composition compounds concentration copolymer copolymerization cross-linking crystalline density diamines diisocyanate dispersions DuPont elastomers emulsifier emulsion polymerization end groups Equation esters ethylene extruded fibers Figure films foam free-radical glass transition temperature glycol heat high molecular mass homopolymers increase initiator injection molding isocyanate IUPAC kinetics latex particles long-chain branching Macromolecules Makromol materials melt methacrylate molecular mass molecular mass distribution molecules monomer Nomenclature nylon PETP phase Plast polyacrylates polycarbonate polycondensation polyesters polyether polyimide polymer polymer chains polymer particles polyols polyureas Polyurethanes prepolymer production PTFE radical rate constant reaction reactive reactor resins resistance soluble solution solvent stability step-growth polymerization structure styrene suspension polymerization Table Tensile terephthalate thermal thermoplastic transesterification vinyl viscosity