TABLE 2.8 Thermophysical Properties of Solid Elements Continued Titanium Ti Tungsten W Uranium U Vanadium V... Those at temperatures higher than 273 K are calculated from the formulation
Trang 1TABLE 2.8 Thermophysical Properties of Solid Elements (Continued)
Titanium (Ti)
Tungsten (W)
Uranium (U)
Vanadium (V)
Trang 2Zinc (Zn)
a T , temperature (K); ρ, density (kg/m3 );c p, heat capacity (J/kg · K); λ, thermal conductivity (W/m · K); αD, thermal diffusivity (10− 6 m 2 /s) The heat capacities are from Liley et al (1997) The densities are calculated from the formulations of thermal linear expansion by Touloukian et al (1975, 1977) Those at temperatures higher than
273 K are calculated from the formulations compiled by Liley et al (1997) The uncertainties of these formulations are about 2% for most elements listed.
Trang 3TABLE 2.9 Thermophysical Properties of Metallic Alloys
Aluminum
Copper
Iron
Chrome-nickel steel
Trang 4Nickel-chrome steel
Magnesium
Manganese
Nickel
Source: Bejan (1993), with permission.
Trang 5TABLE 2.10 Thermophysical Properties of Nonmetallic Solids
Asbestos
Brick
Carbon
Trang 6Cork
Earth
Glass
(continued)
Trang 7TABLE 2.10 Thermophysical Properties of Nonmetallic Solids (Continued)
Glass (Continued)
Meat
Chicken
Trang 8Fish
Pork
Sausage
Turkey
(continued)
Trang 9TABLE 2.10 Thermophysical Properties of Nonmetallic Solids (Continued)
Rubber
Sand
Trang 10Slate
Soil (see also Earth)
Wood, perpendicular to grain
Wool
Source: Bejan (1993), with permission.