Handbook of plastics technologies: the complete guide to properties and performanceUnderstand, design, and manufacture plastics This resource provides you with the state-of-the-art information for the design, manufacture and application of plastics as well as its cutting-edge usage in nanotechnology.
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Page 3-14
TABLE 3.9 Phenolic Moldings: Typical Properties Property Wood flour Glass fiber
TABLE 3.10 Fillers for High-Impact-Strength Phenolics Filler Notched Izod impact
strength, fpi None 0.25 Wood flour 0.3 Fabric 2.4 Cord 7.0 TABLE 3.1 1 Effect ...
TABLE 3.9 Phenolic Moldings: Typical Properties Property Wood flour Glass fiber
TABLE 3.10 Fillers for High-Impact-Strength Phenolics Filler Notched Izod impact
strength, fpi None 0.25 Wood flour 0.3 Fabric 2.4 Cord 7.0 TABLE 3.1 1 Effect ...
Page 5-18
Particulate fillers usually decrease strength due to stress concentration at sharp
edges and corners of the filler particles. 5.2.1.6 Impact Strength. This is increased
tremendously by continuous fibers (Fig. 5.5); they seem to distribute the shock ...
Particulate fillers usually decrease strength due to stress concentration at sharp
edges and corners of the filler particles. 5.2.1.6 Impact Strength. This is increased
tremendously by continuous fibers (Fig. 5.5); they seem to distribute the shock ...
Page 5-24
TABLE 5.19 Maximum Properties of Reinforced Plastics Epoxy/glass Modulus to
5,500,000 psi Flexural strength to 70,000 psi Impact strength to 10 fpi HDT to 600
°F Thermoset polyester/glass Modulus to 3,000,000 psi Flexural strength to ...
TABLE 5.19 Maximum Properties of Reinforced Plastics Epoxy/glass Modulus to
5,500,000 psi Flexural strength to 70,000 psi Impact strength to 10 fpi HDT to 600
°F Thermoset polyester/glass Modulus to 3,000,000 psi Flexural strength to ...
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Contents
Introduction to Polymers and Plastics | 1-1 |
Thermoplastics | 2-1 |
Aubert Y Coran Consultant Longboat Key FL CHAP | 2-4 |
Copyright | |
13 other sections not shown
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Common terms and phrases
abrasion acetate acid acrylic addition adhesive amines applications Berins biodegradable blend blow molding bonding bottles Brydson Butterworth-Heinemann carbon cellulose chain chemical chlorine coatings compounds compression containers copolymers cross-linking crystalline cure degradation elastomers electrical epoxy esters ethylene extruded fasteners fibers FIGURE fillers film flexible foam glass transition temperature grades HDPE heat heat deflection temperature impact strength increase injection molding joint kpsi layers melt metal method modulus molecular weight molecules monomer nanocomposites nitrile rubber nylon Oxford oxide packaging particles percent peroxide phenolic Plastics Engineering Handbook Plastics Industry Plastics Materials poly polycarbonate polyester polyethylene polyimides Polymer Science polymerization polypropylene polystyrene polysulfone polyurethane Polyvinyl reaction recycling rate reinforcing resin resistance screw shear silicate silicone solvent stability stress structure styrene substrates sulfur surface Table temperature tensile strength thermal thermoplastic thermoset thermoset plastics tion TPEs types typically vinyl viscosity vulcanizates vulcanization welding York
Bibliographic information
| Title | Handbook of plastics technologies: the complete guide to properties and performance McGraw-Hill handbooks |
| Author | Charles A. Harper |
| Editor | Charles A. Harper |
| Edition | 2, illustrated |
| Publisher | McGraw-Hill, 2006 |
| Original from | the University of Michigan |
| Digitized | 30 Nov 2007 |
| ISBN | 0071460683, 9780071460682 |
| Length | 900 pages |
| Subjects | › Plastics Technology & Engineering / Chemical & Biochemical Technology & Engineering / Materials Science Technology & Engineering / Textiles & Polymers |
| Export Citation | BiBTeX EndNote RefMan |