Materials Science and Engineering Handbook CRC 2009 Part 5 pdf

Shaffer, Plenum Press, New York, 1964; Smithells Metals Reference Book, Eric A.. Shaffer, Plenum Press, New York, 1964; Smithells Metals Reference Book, Eric A.. Shaffer, Plenum Press, N

3.01 x 10–6 for 0 to –173˚C4.39 x 10–6 for 0 to –73˚C5.31 x 10–6 for 0 to 27˚C6.26 x 10–6 for 0 to 127˚C

6.86 x 10–6 for 0 to 227˚C7.31 x 10–6 for 0 to 327˚C7.68 x 10–6 for 0 to 427˚C7.96 x 10–6 for 0 to 527˚C

8.19 x 10–6 for 0 to 627˚C8.38 x 10–6 for 0 to 727˚C8.52 x 10–6 for 0 to 827˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 9 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 457 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Aluminum Oxide (Al2O3) parallel to c axis (Con’t) 8.65 x 10–6 for 0 to 927˚C

8.75 x 10–6 for 0 to 1027˚C8.84 x 10–6 for 0 to 1127˚C8.92 x 10–6 for 0 to 1227˚C8.98 x 10–6 for 0 to 1327˚C

9.02 x 10–6 for 0 to 1427˚C9.08 x 10–6 for 0 to 1527˚C9.13 x 10–6 for 0 to 1627˚C

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)

2.55 x 10–6 for 0 to –173˚C3.75 x 10–6 for 0 to –73˚C4.78 x 10–6 for 0 to 27˚C5.51 x 10–6 for 0 to 127˚C

6.10 x 10–6 for 0 to 227˚C6.52 x 10–6 for 0 to 327˚C6.88 x 10–6 for 0 to 427˚C7.15 x 10–6 for 0 to 527˚C

7.35 x 10–6 for 0 to 627˚C7.53 x 10–6 for 0 to 727˚C7.67 x 10–6 for 0 to 827˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 11 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 459 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Aluminum Oxide (Al2O3) (single crystal) (Con’t) 7.80 x 10–6 for 0 to 927˚C

7.96 x 10–6 for 0 to 1127˚C8.05 x 10–6 for 0 to 1227˚C8.12 x 10–6 for 0 to 1327˚C

8.16 x 10–6 for 0 to 1427˚C8.20 x 10–6 for 0 to 1527˚C8.26 x 10–6 for 0 to 1627˚C

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)

6.55 x 10–6 for 0 to 227˚C6.93 x 10–6 for 0 to 327˚C7.24 x 10–6 for 0 to 427˚C7.50 x 10–6 for 0 to 527˚C

7.69 x 10–6 for 0 to 627˚C7.83 x 10–6 for 0 to 727˚C7.97 x 10–6 for 0 to 827˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 13 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 461 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Aluminum Oxide (Al2O3) (Con’t) 8.08 x 10–6 for 0 to 927˚C

8.25 x 10–6 for 0 to 1127˚C8.32 x 10–6 for 0 to 1227˚C8.39 x 10–6 for 0 to 1327˚C

8.45 x 10–6 for 0 to 1427˚C8.49 x 10–6 for 0 to 1527˚C8.53 x 10–6 for 0 to 1627˚C

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)

8.9 x 10–6 for 28 to 1132˚CBeryllium Oxide (BeO) (single crystal)

7.8 x 10–6 for 28 to 474˚C8.5 x 10–6 for 28 to 749˚C

9.2 x 10–6 for 28 to 872˚C9.9 x 10–6 for 28 to 1132˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 15 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 463 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Beryllium Oxide (BeO) (single crystal) 6.83 x 10–6 for 28 to 252˚C

8.27 x 10–6 for 28 to 749˚C

8.87 x 10–6 for 28 to 872˚C9.57 x 10–6 for 28 to 1132˚C

6.3–6.4 x 10–6 for 25–300˚C7.59 x 10–6 for 25–500˚C8.4–8.5 x 10–6 for 25–800˚C

9.03 x 10–6 for 25–1000˚C9.18 x 10–6 for 25–1250˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 16 OF 34)

Thermal Expansion (˚C –1)

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)

11.1 x 10–6 for 25–2000˚C9.40 x 10–6 for 500–1200˚C

8.92 x 10–6 for 25–1000˚C8.5 + 0.54T for 0–1000˚C

8.62 x 10–6 for 25–1000˚C8.82 x 10–6 for 25–1500˚C9.55 x 10–6 for 20–1400˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 17 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 465 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Hafnium Dioxide (HfO2) (monoclinic single crystal) 6.8x10–6 for 28–262˚C

6.7x10–6 for 28–697˚C

7.5x10–6 for 28–903˚C7.9x10–6 for 28–1098˚C

0.9x10–6 for 28–494˚C1.3x10–6 for 28–697˚C

1.4x10–6 for 28–903˚C2.1x10–6 for 28–1098˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 18 OF 34)

Thermal Expansion (˚C –1)

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)

10.8x10–6 for 28–697˚C

11.9x10–6 for 28–903˚C12.1x10–6 for 28–1098˚C

5.8 x 10–6 for 25–1300˚C

6.30 x 10–6 for 25–1500˚C6.45 x 10–6 for 20–1700˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 19 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 467 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Hafnium Dioxide (HfO2) 1.31 x 10–6 for 25–1700˚C

13.63 x 10–6 for 25–1000˚C15.11 x 10–6 for 25–1500˚C15.89 x 10–6 for 25–1800˚C

14.0 x 10–6 for 20–1400˚C14.2–14.9 x 10–6 for 20–1700˚C13.3 x 10–6 for 20–1700˚C

13.90 x 10–6 for 0–1000˚C14.46 x 10–6 for 0–1200˚C15.06 x 10–6 for 0–1400˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 20 OF 34)

Thermal Expansion (˚C –1)

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)

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 21 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 469 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Silicon Dioxide (SiO2) (Con’t)

0.527 x 10–6 for 25–500˚C

Vitreous

0.564 x 10–6 for 25–1000˚C0.5 x 10–6 for 20–1250˚C

5.32 x 10–6 for 0 to –173˚C6.47 x 10–6 for 0 to –73˚C8.10 x 10–6 for 0 to 27˚C8.06 x 10–6 for 0 to 127˚C

8.31 x 10–6 for 0 to 227˚C8.53 x 10–6 for 0 to 327˚C8.71 x 10–6 for 0 to 427˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 22 OF 34)

Thermal Expansion (˚C –1)

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)

9.42 x 10–6 for 0 to 1027˚C9.53 x 10–6 for 0 to 1127˚C9.60 x 10–6 for 0 to 1227˚C9.68 x 10–6 for 0 to 1327˚C

9.76 x 10–6 for 0 to 1427˚C9.83 x 10–6 for 0 to 1527˚C9.91 x 10–6 for 0 to 1627˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 23 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 471 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Thorium Dioxide (ThO2) (Con’t) 9.97 x 10–6 for 0 to 1727˚C

8.63 x 10–6 for 25 to 500˚C9.44 x 10–6 for 25 to 1000˚C10.17 x 10–6 for 25 to 1500˚C10.43 x 10–6 for 25 to 1700˚C

9.55 x 10–6 for 20 to 800˚C9.55 x 10–6 for 20 to 1400˚C7.8 x 10–6 for 27 to 223˚C8.7 x 10–6 for 27 to 498˚C

8.9 x 10–6 for 27 to 755˚C9.2 x 10–6 for 27 to 994˚C9.1 x 10–6 for 27 to 1087˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 24 OF 34)

Thermal Expansion (˚C –1)

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)

αl (linear expansion coefficient) 0.6216x10–5 +3.541x10–9T–0.1124T–2

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)

7.08 Thermal L Page 473 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Titanium Oxide (TiO2) (polycrystalline) (Con’t) 9.50 x 10–6 for 25–1500˚C

7.8 x 10–6 for 20–600˚C8.98 x 10–6 for 0–1000˚C

parallel to c axis

10.5 x 10–6 for 26 to 455˚C

10.6 x 10–6 for 26 to 670˚C

10.5 x 10–6 for 26 to 940˚C10.8 x 10–6 for 26 to 1110˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 26 OF 34)

Thermal Expansion (˚C –1)

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)

8.3 x 10–6 for 26 to 1110˚CTitanium Oxide (TiO2) (single crystal))

8.97 x 10–6 for 26 to 455˚C8.93 x 10–6 for 26 to 670˚C

8.97 x 10–6 for 26 to 940˚C9.13 x 10–6 for 26 to 1110˚C

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)

7.08 Thermal L Page 475 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Uranium Dioxide (UO2) (Con’t) 12.19 x 10–6 for 25 to 1200˚C

11.15 x 10–6 for 25 to 1750˚C9.18 x 10–6 for 27 to 400˚C

11.1 x 10–6 for 400 to 800˚C13.0 x 10–6 for 800 to 1200˚C

10.8 x 10–6 for 400 to 800˚C10.8 x 10–6 for 400 to 800˚C12.6 x 10–6 for 800 to 1250˚C12.9 x 10–6 for 800 to 1200˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 28 OF 34)

Thermal Expansion (˚C –1)

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)

–11.11 x 10–6 for 25 to 1500˚C–9.53 x 10–6 for 25 to 1600˚C4.0 x 10–6 for 0 to 500˚C10.5 x 10–6 for 0 to 1000˚C

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)

7.08 Thermal L Page 477 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) Zirconium Oxide (ZrO2) (tetragonal) (Con’t) 11.0 x 10–6 for 0 to 1500˚C

5.5–5.58 x 10–6 for 20 to 1200˚C7.2 x 10–6 for –10 to 1000˚C8.64 x 10–6 for –20 to 600˚CZirconium Oxide (ZrO2) (tetragonal, single crystal) 8.4 x 10–6 for 27 to 264˚C

6.8 x 10–6 for 27 to 759˚C

7.8 x 10–6 for 27 to 964˚C8.7 x 10–6 for 27 to 1110˚CZirconium Oxide (ZrO2) (tetragonal, single crystal) 3 x 10–6 for 27 to 264˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 30 OF 34)

Thermal Expansion (˚C –1)

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)

11.9 x 10–6 for 27 to 759˚C

12.8 x 10–6 for 27 to 964˚C13.6 x 10–6 for 27 to 1110˚CCordierite (2MgO 2Al2O3 5SiO2)

(ρ=2.51g/cm3) 2.7 x 10–6 for 25 to 1100˚C(ρ=2.3g/cm3) 2.3 x 10–6 for 25 to 400˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 31 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 479 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Oxides (Con’t) (ρ=2.3g/cm3) 3.3 x 10–6 for 25 to 700˚C

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)

8.41 x 10–6 for 25 to 1000˚C9.17 x 10–6 for 25 to 1500˚C9.0 x 10–6 for 20 to 1250˚C

3.79 x 10–6 for 25 to 500˚C4.62 x 10–6 for 25 to 1000˚C5.63 x 10–6 for 20 to 1500˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 33 OF 34)

Thermal Expansion (˚C –1)

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)

7.08 Thermal L Page 481 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

Silicides Molybdenum Disilicide (MoSi2) 7.79 x 10–6 for 25–500˚C

9.00–9.18 x 10–6 for 25–1500˚C

8.41 x 10–6 for 0–1000˚C8.56 x 10–6 for 0–1400˚C

8.31 x 10–6 for 25–1000˚C8.21 x 10–6 for 0–1000˚C8.81 x 10–6 for 0–1400˚C

Table 116 THERMAL EXPANSION OF CERAMICS

(SHEET 34 OF 34)

Thermal Expansion (˚C –1)

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)

Shackelford & Alexander

Data from ASM Engineering Materials Reference Book, Second Edition, Michael Bauccio,

Ed., ASM International, Materials Park, OH, p173,(1994)

©2001 CRC Press LLC

Table 118 THERMAL EXPANSION OF GLASSES

(SHEET 1 OF 21)

Thermal Expansion

Source: data compiled by Jun 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

Temperature Range

of Validity

Source: data compiled by Jun 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

7.10 Thermal L Page 485 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

SiO2–B2O3 glass (Con’t) (72.7% mol B2O3 ) 87.0x10–7/K 0–100˚C

Temperature Range

of Validity

Source: data compiled by Jun 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

(3.1% mol Al2O3, water

(5.4% mol Al2O3, 1130˚C for 20 hr) 12.2x10–7/K 20–350˚C

Table 118 THERMAL EXPANSION OF GLASSES

(SHEET 4 OF 21)

Thermal Expansion

Temperature Range

of Validity

Source: data compiled by Jun 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

7.10 Thermal L Page 487 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

SiO2–Al2O3 glass (8.2% mol Al2O3, 1000˚C

Temperature Range

of Validity

Source: data compiled by Jun 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

Temperature Range

of Validity

Source: data compiled by Jun 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

7.10 Thermal L Page 489 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

SiO2–PbO glass (47.8% mol PbO) 83.03–87.03x10–7/K 20–170˚C

Temperature Range

of Validity

Source: data compiled by Jun 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

Temperature Range

of Validity

Source: data compiled by Jun 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

7.10 Thermal L Page 491 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

SiO2–Na2O glass (30% mol Na2O,

Table 118 THERMAL EXPANSION OF GLASSES

(SHEET 9 OF 21)

Thermal Expansion

Temperature Range

of Validity

Source: data compiled by Jun 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

Temperature Range

of Validity

Source: data compiled by Jun 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

7.10 Thermal L Page 493 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC

SiO2–Na2O glass (45% mol Na2O,

Temperature Range

of Validity

Source: data compiled by Jun 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

Temperature Range

of Validity

Source: data compiled by Jun 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

7.10 Thermal L Page 495 Wednesday, December 31, 1969 17:00

©2001 CRC Press LLC