Engineering Materials: Properties and Selection |
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Page 60
... thermosetting . All plastics behave like molten materials at some point in their processing ; this is part of the definition of a plastic . A thermo- plastic material will flow at elevated temperatures ( above the glass transition ...
... thermosetting . All plastics behave like molten materials at some point in their processing ; this is part of the definition of a plastic . A thermo- plastic material will flow at elevated temperatures ( above the glass transition ...
Page 102
... thermosetting . Up to the past decade , the commercial mani- festation of thermoplastic composites was chopped glass fibers blended into normal molding pellets . Fiber length was short ( often only a few millimeters ) and the strength ...
... thermosetting . Up to the past decade , the commercial mani- festation of thermoplastic composites was chopped glass fibers blended into normal molding pellets . Fiber length was short ( often only a few millimeters ) and the strength ...
Page 119
... thermosetting plastic fabrication technique can be used to make polymer composites , but the high performance composites are more likely to be made from thermosetting resins using one of the techniques that were shown in Figure 3-38 ...
... thermosetting plastic fabrication technique can be used to make polymer composites , but the high performance composites are more likely to be made from thermosetting resins using one of the techniques that were shown in Figure 3-38 ...
Contents
WELDING | 18 |
PROPERTIES AND SELECTION | 19 |
PRINCIPLES OF POLYMERIC MATERIALS | 53 |
Copyright | |
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abrasion acetate acid adhesives age hardened AISI alloy steels alloying elements aluminum alloys annealed anode applications ASTM atoms austenitic bond brass bronze carbide carbon steels carburizing cast iron ceramics characteristics chemical chromium coatings components concentration copper alloys corrosion resistance cost cracking density discussed ductility elastomers electrical electrons engineering materials environments epoxy fabrication factor ferrite fibers filler metal film furnace glass grades graphite gray iron hardness heat treatment high strength impact strength important machine magnesium martensite mechanical properties melting modulus molding molybdenum nickel nitriding nylon oxide phenolics plastics plating polyester polyethylene Polyimide polymer polymer composites polymeric produce quench reinforcement resins rubber shapes shown in Figure silicon solution specific stainless steels stress relieving structure surface techniques temper tensile strength thermal thermoplastic thermosetting thickness tion titanium tool steels tungsten types usually wear resistance weldability welding yield strength zinc