Plastics: Materials and ProcessingFor courses in Plastics, Materials and Manufacturing found in departments of mechanical, industrial or manufacturing technology or engineering; also for any beginning course in Plastics in engineering or technology programs. This book is designed to introduce plastics to a wide range of students who need to either gain, improve, or refresh their knowledge of plastic materials and manufacturing. It fully discusses both materials and manufacturing processes in a carefully-constructed and logical presentation. While providing a fundamental overview of a broad spectrum of topics, the text's high level of detail makes it valuable as both an introductory text and, later, a professional reference manual. |
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Page 92
... Thermal - protective Additives and Processing Methods Several materials have been developed to assist in the reduction of thermal degradation in thermoplastics . These materials , which preferentially absorb heat , are added to the ...
... Thermal - protective Additives and Processing Methods Several materials have been developed to assist in the reduction of thermal degradation in thermoplastics . These materials , which preferentially absorb heat , are added to the ...
Page 94
... Thermal Conductivity Thermal conductivity is a measure of how quickly or easily heat moves through or along a material . As already discussed , when plastics are heated , they have a tendency to move inter- nally and therefore absorb ...
... Thermal Conductivity Thermal conductivity is a measure of how quickly or easily heat moves through or along a material . As already discussed , when plastics are heated , they have a tendency to move inter- nally and therefore absorb ...
Page 916
... Thermal aging ( see Aging ) Thermal conductivity ( K ) , 94 , 308 Thermal decomposition , 152 Thermal expansion , 81 Thermal heating , 374 Thermal history , 91 , 243 Thermal resistivity ( R ) , 653 Thermal stabilizers , 92 , 243-245 , 323 ...
... Thermal aging ( see Aging ) Thermal conductivity ( K ) , 94 , 308 Thermal decomposition , 152 Thermal expansion , 81 Thermal heating , 374 Thermal history , 91 , 243 Thermal resistivity ( R ) , 653 Thermal stabilizers , 92 , 243-245 , 323 ...
Contents
Introduction to Plastics | 1 |
Polymeric Materials Molecular Viewpoint | 25 |
Microstructures in Polymers | 73 |
Copyright | |
45 other sections not shown
Common terms and phrases
addition adhesive applications atoms blow molding bottles called carbon carbon-carbon double bond casting cause cavity chapter chemical coating composite compression molding cooling copolymer cost crosslinking crystalline curing cycle degradation density discussed elastomers electrons energy epoxy extruder fiberglass fibers fillers film flexible flow foam force free radical HDPE heat impact important increase injection molding machine layer LDPE liquid mandrel manufacturing mechanical properties melt index metal method mixing molding process molecular weight molecules monomer nylon occur operation parison phenolics Photo plastic material polyesters polyethylene polyimides polymer chains polymerization polystyrene polyurethane pressure problem PTFE reaction recycling reinforcement removed resin resistance result rotational molding rotomolding rubber runner sample screw shape shear sheet shown in Figure solid solvent sprue stiffness strength stress structure surface temperature tensile thermal thermoforming thermoplastic thermoset thickness tion toughness transfer molding tubing typical usually vacuum vinyl viscosity