Engineering Materials and Their ApplicationsThis edition of the classic text/reference book has been updated and revised to provide balanced coverage of metals, ceramics, polymers and composites. The first five chapters assess the different structures of metals, ceramics and polymers and how stress and temperature affect them. Demonstrates how to optimize a material's structure by using equilibrium data (phase diagrams) and nonequilibrium conditions, especially precipitation hardening. Discusses the structures, characteristics and applications of the important materials in each field. Considers topics common to all materials--corrosion and oxidation, failure analysis, processing of electrical and magnetic materials, materials selection and specification. Contains special chapters on advanced and large volume engineering materials plus abundant examples and problems. |
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Page 94
... silicon is far above the temper- ature of the liquid aluminum . The silicon diffuses from the surface of the solid into the liquid . After the silicon is dissolved , we cool the melt . We find two important differences compared with the ...
... silicon is far above the temper- ature of the liquid aluminum . The silicon diffuses from the surface of the solid into the liquid . After the silicon is dissolved , we cool the melt . We find two important differences compared with the ...
Page 95
... silicon 40 60 T 80 1430 ° 2400 Liquidus 2000 B + L 1600 a + L 660 ° Eutectic ( E ) Solidus 1200 600 577 ° 1.65 11.6 α + β Al 20 40 60 80 Si Weight percentage , silicon Fig . 4.3 Complete aluminum - silicon phase diagram . ( American ...
... silicon 40 60 T 80 1430 ° 2400 Liquidus 2000 B + L 1600 a + L 660 ° Eutectic ( E ) Solidus 1200 600 577 ° 1.65 11.6 α + β Al 20 40 60 80 Si Weight percentage , silicon Fig . 4.3 Complete aluminum - silicon phase diagram . ( American ...
Page 100
... silicon . Now let us cool the all - liquid alloy to 600 ° C , where two phases are present . Even though there are two phases , there must still be 3 g of silicon present in these phases , so that the amount of silicon in a plus the ...
... silicon . Now let us cool the all - liquid alloy to 600 ° C , where two phases are present . Even though there are two phases , there must still be 3 g of silicon present in these phases , so that the amount of silicon in a plus the ...
Contents
A General View of the Problems | 3 |
Summary | 14 |
Summary | 45 |
Copyright | |
19 other sections not shown
Other editions - View all
Engineering Materials and Their Applications Richard Aloysius Flinn,Paul K. Trojan Snippet view - 1986 |
Engineering Materials and Their Applications Richard Aloysius Flinn,Paul K. Trojan Snippet view - 1975 |
Engineering Materials and Their Applications Richard Aloysius Flinn,Paul K. Trojan Snippet view - 1975 |
Common terms and phrases
0.8 percent carbon 10-3 to obtain alloys aluminum Annealed atoms austenite bainite bonds brittle Calculate carbon content cast iron ceramics Chap chemical chromium cold-worked composition cooling rate copper corrosion covalent crystal density diffusion discussed ductile iron effect electrons elements engineering eutectoid example Fe2+ ferrite fibers fracture glass grain graphite gray iron H H H hardening hardness heat treatment important ions iron carbide liquid load magnesium martensite material matrix melt metal microstructure mold molecules Multiply psi nickel obtain kg/mm² obtain MN/m² oxide oxygen pearlite Percent Elongation percent silicon phase diagram plane plastic polyethylene polymer precipitate produce properties quenched reaction resistance room temperature shown in Fig silica single-phase slip solid solution specimen strain stress structure surface Table tempered tensile strength thermoplastic thermosetting titanium transformation two-phase typical unit cell Weight percentage yield strength zinc