Materials Science and Engineering Handbook Part 4 doc

3, CRC Press, Boca Raton, Florida and Engineered Materials Handbook,Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988... 3, CRC Press, Boca Raton, Florida and Engin

Source: from Bolz, R E and Tuve, G L., Eds., Handbook of Tables for Applied Engineering

Science, 2nd ed., CRC Press, Cleveland, 1973, 251.

Silicon (Si) (Con’t) B 1.0x10+1 3.7 950–1200

a Values obtained at the low concentration limit.

* The diffusion coefficient D at a temperature T(K) is given by the following:

D=Doe-∆ E/kT

For D o in m 2 /s, multiply values in cm 2 /s by 10 –4

Zinc ferrate (III)

Source: from Bolz, R E and Tuve, G L., Eds., Handbook of Tables for Applied Engineering

Science, 2nd ed., CRC Press, Cleveland, 1973, 251.

List of Tables Specific Heat & Heat Capacity

Specific Heat of the Elements at 25 ˚C Heat Capacity of Ceramics

Specific Heat of Polymers Specific Heat of Fiberglass Reinforced Plastics

Thermal Conductivity

Thermal Conductivity of Metals (Part 1) Thermal Conductivity of Metals (Part 2) Thermal Conductivity of Metals (Part 3) Thermal Conductivity of Metals (Part 4) Thermal Conductivity of Alloy Cast Irons Thermal Conductivity of Iron and Iron Alloys Thermal Conductivity of Aluminum and aluminum alloys Thermal Conductivity of Copper and Copper Alloys Thermal Conductivity of Magnesium

and Magnesium Alloys Thermal Conductivity of Nickel and Nickel Alloys Thermal Conductivity of Lead and Lead Alloys Thermal Conductivity of Tin, Titanium, Zinc and their Alloys

Thermal Conductivity of Pure Metals

Thermal Conductivity of SiC-Whisker-Reinforced Ceramics Thermal Conductivity of Polymers

Thermal Conductivity of Fiberglass Reinforced Plastics

Thermal Expansion

Thermal Expansion of Wrought Stainless Steels Thermal Expansion of Wrought Titanium Alloys Thermal Expansion of Graphite Magnesium Castings Linear Thermal Expansion of Metals and Alloys Thermal Expansion of Ceramics

Thermal Expansion of SiC-Whisker-Reinforced Ceramics Thermal Expansion of Glasses

Thermal Expansion of Polymers Thermal Expansion Coefficients of Materials for Integrated Circuits Thermal Expansion of Silicon Carbide SCS–2–Al

Tempering & Softening

ASTM B 601 Temper Designation Codes for Copper and Copper Alloys

Temper Designation System for Aluminum Alloys Tool Steel Softening After 100 Hours

Thermoplastic Polyester Softening with Temperature Heat-Deflection Temperature of Carbon- and Glass-Reinforced Engineering Thermoplastics

Source: data from Weast, R C., Ed., Handbook of Chemistry and Physics, 55thed., CRC Press, Cleveland, 1974, D-144., Kelly, K K., Bulletin 592, Bureau ofMines, Washington, D C., 1961.and Hultgren, R., Orr, R L., Anderson, P D., andKelly, K K., Selected Values of Thermodynamic Properties of Metals and Alloys,John Wiley & Sons, New York, (1963).

Nitrides Aluminum Nitride (AlN) 0.1961 cal/g/˚C ; 0-100˚C

0.2277 cal/g/˚C ; 0-420˚C0.2399 cal/g/˚C ; 0-598˚CTrisilicon tetranitride (Si3N4) 0.17 cal/g/˚C

Oxides Cerium Dioxide (CeO2) 14.24T + 5.62x10-3T 491-1140K

Silicides Molybdenum Disilicide (MoSi2) 10-14 cal/g/˚C; 425-1000˚C

Tungsten Disilicide (WSi2) 8 cal/g/˚C; 425-1450˚C

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, PlenumPress, New York, (1964); SmithellsBrandes, ed., in association with Fulmer ResearchInstitute Ltd 6th ed London, Butterworths, Boston, (1983); and Ceramic Source,American Ceramic Society (1986-1991)

Chlorinated polyvinyl chloride Chlorinated polyvinyl chloride 0.3

Fluorocarbons; Molded,Extruded Polytrifluoro chloroethylene (PTFCE) 0.22

Polytetrafluoroethylene (PTFE) 0.25Fluorinated ethylene

Filament wound composite 0.24Nylons; Molded, Extruded Type 6

Nylons; Molded, Extruded 6/6 Nylon

General purpose molding 0.3—0.5General purpose extrusion 0.3—0.56/10 Nylon

Source: data compiled by J.S Park from Charles T Lynch, CRC Handbook of MaterialsScience, Vol 3, CRC Press, Boca Raton, Florida and Engineered Materials Handbook,Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988

Phenolics; Molded Type and filler:

General: woodflour and flock 0.35—0.40Shock: paper, flock, or pulp —High shock: chopped fabric or

Very high shock: glass fiber 0.28—0.32

Reinforced polyester moldings

High strength (glass fibers) 0.25—0.35Sheet molding compounds,

Source: data compiled by J.S Park from Charles T Lynch, CRC Handbook of Materials

Science, Vol 3, CRC Press, Boca Raton, Florida and Engineered Materials Handbook,

Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988

Polyethylenes; Molded, Extruded Type I—lower density (0.910—0.925)

Copolymers; Molded, Extruded Vinylidene chloride 0.32Silicones; Molded, Laminated Woven glass fabric/ silicone laminate 0.246

Source: data compiled by J.S Park from Charles T Lynch, CRC Handbook of MaterialsScience, Vol 3, CRC Press, Boca Raton, Florida and Engineered Materials Handbook,Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988

Values are in watt • cm -1 • K -1.

Note: Values in parentheses are for liquid state

These data apply only to metals of purity of at least 99.9%

The third significant figure may not be accurate

Source: data from Ho, C Y., Powell, R W., and Liley, P E., Thermal Conductictivity of

Selected Materials, NSRDS–NBS–8 and NSRD-NBS-16, Part 2 , National Standard

Reference Data System–National Bureau of Standards, Part 1, 1966; Part 2, 1968

Values are in watt • cm -1 • K -1.

Note: Values in parentheses are for liquid state

These data apply only to metals of purity of at least 99.9%

The third significant figure may not be accurate

Values are in watt • cm -1 • K -1.

Note: Values in parentheses are for liquid state

These data apply only to metals of purity of at least 99.9%

The third significant figure may not be accurate

Values are in watt • cm -1 • K -1.

Note: Values in parentheses are for liquid state

These data apply only to metals of purity of at least 99.9%

The third significant figure may not be accurate

Casting alloys A13 0.29

Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM

International, Materials Park, OH, p156, (1993)

Manganese bronze, 110 ksi 9.05% of Cu

Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM

International, Materials Park, OH, p156, (1993)

Casting alloys

Aluminum bronze, Alloy 9B 16% of CuAluminum bronze, Alloy 9C 18% of CuAluminum bronze, Alloy 9D 12% of Cu

Nickel silver, 12% Ni 7% of CuNickel silver, 16% Ni 7% of CuNickel silver, 20% Ni 6% of CuNickel silver 25% Ni 6.5% of Cu

Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM

International, Materials Park, OH, p156, (1993)

(cubic, CVD) 0.289 at 127oC

0.049-0.080 at 600oC0.061 at 800oC0.051 at 1000oC0.0059 at 1250oC0.0827 at 1327oC 0.0032 at 1530oCTantalum Monocarbide (TaC) 0.053 at room temp

Titanium Monocarbide (TiC) 0.041-0.074 at room temp

0.0135 at 1000 oCTrichromium Dicarbide (Cr3C2) 0.454 Tungsten Monocarbide (WC) 0.201 at 20 oC

Zirconium Monocarbide (ZrC) 0.049 at room temp

0.098 at 50oC0.069 at 150oC0.065 at 188oC

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum

Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association

with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); and

Ceramic Source, American Ceramic Society (1986-1991)

0.061 at 288oC0.080 at 600oC0.083 at 800oC0.086 at 1000oC0.089 at 1200oC0.092 at 1400oC0.096 at 1600oC0.099 at 1800oC0.103 at 2000oC0.105 at 2200oCNitrides Aluminum Nitride (AlN) 0.072 at 25oC

0.060 at 200oC 0.053 at 400oC 0.048 at 600oC 0.042 at 800oCBoron Nitride (BN)

parallel to c axis 0.0687 at 300oC

0.0646 at 700oC 0.0637 at 1000oC parallel to a axis 0.0362 at 300oC

0.0318 at 700oC 0.0295 at 1000oC

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association

with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); andCeramic Source, American Ceramic Society (1986-1991)

Titanium Mononitride (TiN) 0.069 at 25 oC

0.057 at 127 oC 0.040 at 200 oC 0.027 at 650 oC 0.020 at 1000 oC 0.162 at 1500 oC 0.136 at 2300 oC Trisilicon tetranitride (Si3N4)

(pressureless sintered) 0.072 at room temp

0.022-0.072 at 127 oC0.041 at 200-750 oC 0.036-0.042 at 500 oC (pressureless sintered) 0.038 at 1000 oC

0.033-0.034 at 1200 oC Zirconium Mononitride (ZrN) 0.040 at 200 oC

0.025 at 425 oC 0.018 at 650 oC 0.016 at 875 oC 0.015 at 1100 oC Oxides Aluminum Oxide (Al2O3) 0.06 at room temp.

0.04-0.069 at 100oC0.03-0.064 at 200oC0.037 at 315oC

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum

Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association

with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); and

Ceramic Source, American Ceramic Society (1986-1991)

0.02-0.031 at 400oC0.035 at 500oC0.021-0.022 at 600oC0.015-0.017 at 800oC0.014-0.016 at 1000oC0.013-0.015 at 1200oC0.013 at 1400oC0.014 at 1600oC0.017 at 1800oCAluminum Oxide (Al2O3) (single crystal) 0.103 at 20oC

0.047 at 300oC0.029 at 800oCBeryllium Oxide (BeO) 0.038-0.47 at 20oC

0.032-0.34 at 100oC0.14-0.16 at 400oC0.089-0.1137 at 600oC0.060-0.093 at 800oC0.043 at 1100oC0.041-0.054 at 1200oC0.038 at 1300oC

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association

with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); andCeramic Source, American Ceramic Society (1986-1991)

0.036 at 1400oC0.034 at 1500oC0.033-0.039 at 1600oC0.033 at 1700oC0.036 at 1800oC0.036 at 1900oC0.036 at 2000oCCalcium Oxide (CaO) 0.037 at 100oC

0.027 at 200oC0.022 at 400oC0.020 at 600oC0.019 at 800oC0.0186-0.019 at 1000oCCerium Dioxide (CeO2) 0.0229 at 400K

0.00287 at 1400KDichromium Trioxide (Cr2O3) 0.0239-0.0788 Hafnium Dioxide (HfO2) 0.0273 at 25-425oCMagnesium Oxide (MgO) 0.097 at room temp

0.078-0.082 at 100oC0.064-0.065 at 200oC0.038-0.045 at 400oC

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum

Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association

with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); and

Ceramic Source, American Ceramic Society (1986-1991)

0.0198-0.026 at 800oC0.016-0.020 at 1000oC0.0139-0.0148 at 1200oC0.012-0.014 at 1400oC0.0108-0.016 at 1600oC0.0096-0.0191 at 1800oCNickel monoxide (NiO)

(0% porosity) 0.007-0.0074 at 1000oC (0% porosity) 0.006-0.0076 at 1200oC

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum

Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association

with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); and

Ceramic Source, American Ceramic Society (1986-1991)

0.008 at 700oC0.006 at 1000oC0.006 at 1200oCZirconium Oxide (ZrO2)

(stabilized, 0% porosity) 0.005 at 100oC (stabilized, 0% porosity) 0.005 at 200oC (stabilized, 0% porosity) 0.005 at 400oC (stabilized, 0% porosity) 0.0055 at 800oC (stabilized, 0% porosity) 0.006 at 1200oC (stabilized, 0% porosity) 0.0065 at 1400oC

(stabilized) 0.0048-0.0055 at 1000oC (stabilized) 0.0049-0.0050 at 1200oC (MgO stabilized) 0.0076 at room temp

(MgO stabilized) 0.0057 at 800oC (Y2O3 stabilized) 0.0055 at room temp

(Y2O3 stabilized) 0.0053 at 800oC (plasma sprayed) 0.0019-0.0031 at room temp

(plasma sprayed) 0.0019-0.0022 at 800oC (plasma sprayed and coated with Cr2O3) 0.0033 at room temp

(plasma sprayed and coated with Cr2O3) 0.0033 at 800oC

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association

with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); andCeramic Source, American Ceramic Society (1986-1991)

(5-10% CaO stabilized) 0.0045 at 400oC (5-10% CaO stabilized) 0.0049 at 800oC (5-10% CaO stabilized) 0.0057 at 1200oC Cordierite (2MgO 2Al2O3 5SiO2)

(ρ =2.3g/cm3) 0.0077 at 20oC (ρ =2.3g/cm3) 0.0062 at 300oC (ρ =2.3g/cm3) 0.0055 at 500oC (ρ =2.3g/cm3) 0.0055 at 800oC (ρ =2.1g/cm3) 0.0043 at 20oC (ρ =2.1g/cm3) 0.0041 at 300oC (ρ =2.1g/cm3) 0.0040 at 500oC (ρ =2.1g/cm3) 0.0038 at 800oC Mullite (3Al2O3 2SiO2)

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum

Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association

with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); and

Ceramic Source, American Ceramic Society (1986-1991)

Sillimanite (Al2O3 SiO2)

Silicides Molybdenum Disilicide (MoSi2) 0.129 at 150oC

0.074 at 425oC0.053 at 540oC0.057 at 650oC0.046 at 875oC0.041 at 1100oC

Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum

Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association

with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); and

Ceramic Source, American Ceramic Society (1986-1991)

SiO2-Na2O glass (22% mol Na2O) 0.70 kcal/m hr K 450˚C

Source: compiled by J.S Park from O V Mazurin, M V Streltsina and T P Shvaiko-Shvaikovskaya, Handbook of Glass Data, Part A and Part B,

Elsevier, New York, 1983

SiO2-Na2O glass (Con’t) (25% mol Na2O) 0.90 W/m K 280 K

Source: compiled by J.S Park from O V Mazurin, M V Streltsina and T P Shvaiko-Shvaikovskaya, Handbook of Glass Data, Part A and Part B,

SiO2-PbO glass (51.9% mol PbO) 0.00089 cal/cm s K -150˚C

Source: compiled by J.S Park from O V Mazurin, M V Streltsina and T P Shvaiko-Shvaikovskaya, Handbook of Glass Data, Part A and Part B,

Elsevier, New York, 1983

B2O3-Na2O glass (Con’t) (14% mol Na2O) 1.15 + 0.0020 (T-900) W/m K 1173-1373 K

Source: compiled by J.S Park from O V Mazurin, M V Streltsina and T P Shvaiko-Shvaikovskaya, Handbook of Glass Data, Part A and Part B,

Elsevier, New York, 1983

Alkyds; Molded Putty (encapsulating) 0.35—0.60

Glass reinforced (heavy duty parts) 0.20—0.30Cellulose Acetate; Molded, Extruded ASTM Grade:

Source: data compiled by J.S Park from Charles T Lynch, CRC Handbook of Materials Science, Vol 3, CRC Press, Boca Raton, Florida, 1975 and

Engineered Materials Handbook, Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988

Cellulose Acetate Butyrate;

Polycarbonate (40% glass fiber reinforced) 0.13

Source: data compiled by J.S Park from Charles T Lynch, CRC Handbook of Materials Science, Vol 3, CRC Press, Boca Raton, Florida, 1975 and

Engineered Materials Handbook, Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988

Fluorocarbons; Molded,Extruded Polytrifluoro chloroethylene (PTFCE) 0.145

Source: data compiled by J.S Park from Charles T Lynch, CRC Handbook of Materials Science, Vol 3, CRC Press, Boca Raton, Florida, 1975 and

Engineered Materials Handbook, Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988

Nylons; Molded, Extruded (Con’t) Type 11 1.5

6/6 Nylon

6/10 Nylon

Source: data compiled by J.S Park from Charles T Lynch, CRC Handbook of Materials Science, Vol 3, CRC Press, Boca Raton, Florida, 1975 and

Engineered Materials Handbook, Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988