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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Results 1-3 of 61
Page 101
... Percentage of a = Percentage of L = - 8.3 3 × 100 = 74.6 g of a 8.3 1.2 31.2 - 8.3 1.2 X 100 = 25.4 g of L These are the weight percentages of the phases , and are the same as those obtained by the algebraic method . 4.6 Phase fraction ...
... Percentage of a = Percentage of L = - 8.3 3 × 100 = 74.6 g of a 8.3 1.2 31.2 - 8.3 1.2 X 100 = 25.4 g of L These are the weight percentages of the phases , and are the same as those obtained by the algebraic method . 4.6 Phase fraction ...
Page 134
... percentage , carbon Fig . 4.32 Unlabeled portion of the iron - iron carbide phase diagram ( Prob . 4.15 ) . Cr 10 90 650 ° C 20 € 80 30 70 60 Weight percentage , iron 70 бо 40 Weight percentage , chromium 50 40 30 20 80 90 10 Fe 10 20 ...
... percentage , carbon Fig . 4.32 Unlabeled portion of the iron - iron carbide phase diagram ( Prob . 4.15 ) . Cr 10 90 650 ° C 20 € 80 30 70 60 Weight percentage , iron 70 бо 40 Weight percentage , chromium 50 40 30 20 80 90 10 Fe 10 20 ...
Page 147
... percentage , iron Atomic percentage , silicon ? 3 660.37 ° T L 1200 600 α 1.65 577 ° 1000 400 α + β 800 600 200 ΑΙ 1 2 3 4 ( c ) 800 Weight percentage , silicon Atomic percentage , manganese 2 3 4 5 1.95 L 4.1 700660.37 ° 710 ° LY1400 ...
... percentage , iron Atomic percentage , silicon ? 3 660.37 ° T L 1200 600 α 1.65 577 ° 1000 400 α + β 800 600 200 ΑΙ 1 2 3 4 ( c ) 800 Weight percentage , silicon Atomic percentage , manganese 2 3 4 5 1.95 L 4.1 700660.37 ° 710 ° LY1400 ...
Contents
Preface | 9 |
A General View of the Problems | 9 |
Plastics High Polymers | 9 |
Copyright | |
23 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 - 1986 |
Common terms and phrases
alloys aluminum amount Annealed applied atoms austenite bonds Calculate called carbide cast ceramics Chap cold common completely composition consider contains cooling copper corrosion crystal curve density developed diffusion direction discussed ductility effect electrons elements elongation engineering eutectoid example ferrite field given gives glass grain grain boundaries graphite hardening hardness heat higher important increases ions iron lead liquid load lower magnesium martensite material melt metal MN/m² nickel Note obtain pearlite percent carbon percentage phase phase diagram plane plastic polymer position precipitate present produced properties quenched range reaction resistance result shape shown in Fig shows silicon slip solid solid solution specifications steel strain strength stress structure surface Table temper temperature transformation typical unit cell volume Weight yield strength