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Properties of Materials "those characteristics that help identify and distinguish one material from another” (p. 140) Page numbers are in reference to: Jacobs, James A. and Thomas F. Kilduff. (2005). Engineering materials technology, 5 th Edition. Englewood Cliffs, NJ: Prentice-Hall, Inc.
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Physical Properties properties that "result from the response of the material to some environmental variable." (p.140)
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Physical properties Density & Specific Gravity Porosity Color Other
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Mechanical Properties "a measure of a material's ability to carry or resist mechanical forces or stresses.” (p. 140)
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Stress "the resistance offered by a material to external forces or loads.” (p.141) sigma = F / A
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Strain "change in a physical dimension... Deformation.” (p.142) unit deformation. (p.142)
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Stress-Strain Diagrams (p.144) Elastic Region Plastic Region Yield Point Ultimate Strength Fracture
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FIGURE 4-4 Engineering symbols for the sides of the triangle shown in the elastic region of the curve, 2 (theta) is the slope angle, E is the Modulus of elasticity or Young’s Modulus and is computed: E = = tan and is the symbol that means “a measurable change in.” Stress–strain diagram. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Modulus of Elasticity "the ratio of the stress to the strain in the elastic region of the stress-strain diagram." (p.145) AKA: Young’s Modulus, MOE, E
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FIGURE 4-4 Engineering symbols for the sides of the triangle shown in the elastic region of the curve, 2 (theta) is the slope angle, E is the Modulus of elasticity or Young’s Modulus and is computed: E = = tan and is the symbol that means “a measurable change in.” Stress–strain diagram. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-6 Typical stress-strain diagrams. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Strength tensile compressive shear torsion other
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Calculating Strength Strength = max. load / cross-sectional area (psi) pounds square inches (pascals) newtons square meters
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Tensile Strength or ultimate strength p. 146
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FIGURE 4-4 Engineering symbols for the sides of the triangle shown in the elastic region of the curve, 2 (theta) is the slope angle, E is the Modulus of elasticity or Young’s Modulus and is computed: E = = tan and is the symbol that means “a measurable change in.” Stress–strain diagram. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-3 (a) Rod under a tensile load. (b) Standard tensile test specimen or gage. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Yield Strength stress that produces 0.002 in/in strain p.146
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FIGURE 4-4 Engineering symbols for the sides of the triangle shown in the elastic region of the curve, 2 (theta) is the slope angle, E is the Modulus of elasticity or Young’s Modulus and is computed: E = = tan and is the symbol that means “a measurable change in.” Stress–strain diagram. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Resilience the amount of energy that a material can absorb without plastic deformation. p.147
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Ductility the ability to "undergo large plastic deformation without fracture.” (also, the ability to be drawn into a wire.) (p.149)
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FIGURE 4-10 Stress-strain curves for (a) ductile material. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-10 Stress-strain curves for (b) brittle material. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Toughness "the ability or capacity of a material to absorb energy during plastic deformation.” (p.152) Influenced by temperature
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Malleability, workability (p.156)
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Flexural or Bending Strength (p.157)
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Beam bending Compression, Tension, & Neutral axis
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FIGURE 4-18 A simple beam deflected by a cyclic, transverse load. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Fatigue Strength (p.158) Endurance
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FIGURE 4-21 s-N diagram for a typical fiberglass composite material. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-22 s-N diagram for a typical low-carbon steel. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Shear Strength Single or Double
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FIGURE 4-9 Shearing stress and strain. See Figure 4-10 for sheet metal shearing. (a) Before shear load. (b) After shear load. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Creep "a slow process of plastic deformation that takes place when a material is subjected to a constant condition of loading (stress) below its normal yield strength." (p.163) (cf. bookshelves)
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Torsion "the process of twisting." (p.164)
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FIGURE 4-27 (b) Torsional fracture. Torsional (twisting) loads produce spiral types of failure. Note the curved line from (A) to (C) is part of a helix. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Hardness "a measure of a material's resistance to penetration (local plastic deformation) or scratching." (p.167) Hardness testing instrumentation Hardness scales
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FIGURE 4-30 (a) Photograph of Tukon microhardness tester (Measurement Systems Div., Page Wilson Corp.) James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-30 (b) Photograph of Rockwell hardness tester. (Measurement Systems Div., Page Wilson Corp.) James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-30 (c) Photograph of Air-O-Brinell metal hardness tester with digital readout of Brinell values. (Tinius Olsen Testing Machine Co.) James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-30 (d) Microhardness penetrator (Knoop and Vickers) indentations. (Wilson Instrument Division of ACCO) James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-30 (e) Various standard loads for the Rockwell harness tester. (Wilson Instrument Division of ACCO) James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-30 (f) Brale sphero-conical diamond penatrator. (Wilson Instrument Division of ACCO) James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved. Hardness Scales (p. 168)
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Chemical Properties (p.176) oxidation corrosion resistance acid/alkali resistance behavior in chemical reactions other
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Oxidation "the interaction of oxygen with elements in a material to cause structural changed due to the movement of valence electrons in the atoms of the material. An oxidized material loses electrons from atoms or ions." (p.183) (The opposite of oxidation is reduction.)
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Corrosion Resistance "the ability to resist oxidation." (p.185)
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pH acid --> alkali 0 to 14 7 is neutral (pure water) H + or OH - ions H 2 SO 4, HCl, HNO 3 NaOH, Ca(OH) 2
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Other Properties Other Chemical Properties Thermal Properties (p.194) Specific heat Coefficient of linear thermal expansion Electrical Properties Magnetic Properties Optical Properties Other Properties
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James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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Materials Testing Purpose Type Destructive Non-destructive Standards ANSI and ASTM
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FIGURE 4-51 Potential weight savings trend for future structural materials. (NASA) James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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FIGURE 4-1 (a) Cryogenic processing coupled with coatings of engine parts in race cars has increased the life of high performance race cars three to five times. James A. Jacobs & Thomas F. Kilduff Engineering Materials Technology, Fourth Edition Copyright ©2001 by Prentice-Hall, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.
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