|
Acetyl
|
Thermal
Conductivity
|
0.23
|
W/m*°C
|
|
Acrylic
|
Density
|
1400
|
kg/m3
|
|
Acrylic
|
Thermal
Conductivity
|
0.14
|
W/m*°C
|
|
Air
|
Heat
capacity
|
1006
|
J/kg*°C
|
|
Air
(0°C,101 kPa)
|
Viscosity
|
1.71E-05
|
N*s/m2
|
|
Air
(101 kPa)
|
Kinematic
viscosity
|
1.80E-05
|
m2/s
|
|
Air
(2800 m)
|
Density
|
0.98
|
kg/m3
|
|
Air
(STP)
|
Density
|
1.293
|
kg/m3
|
|
Air
v = 0 m/s
|
Heat
transfer coef.
|
5.6
|
W/°C*m2
|
|
Air
v = 3.4 m/s
|
Heat
transfer coef.
|
18.9
|
W/°C*m2
|
|
Air
v = 6.7 m/s
|
Heat
transfer coef.
|
38
|
W/°C*m2
|
|
Aluminum
2017
|
Electrical
resistivity
|
4.00E-08
|
ohm*m
|
|
Aluminum
2024-T3
|
Density
|
2770
|
kg/m3
|
|
Elastic
modulus
|
7.31E+10
|
Pa
|
|
Heat
capacity
|
963
|
J/kg*°C
|
|
Poisson's
ratio
|
0.33
|
|
|
Thermal
Conductivity
|
190.4
|
W/m*°C
|
|
Thermal
expansion coefficient
|
22.68
|
µm/m*°C
|
|
Aluminum
3003
|
Density
|
2700
|
kg/m3
|
|
Electrical
resistivity
|
4.00E-08
|
ohm*m
|
|
Thermal
Conductivity
|
233.64
|
W/m*°C
|
|
Aluminum
6061-T6
|
Density
|
2700
|
kg/m3
|
|
Elastic
modulus
|
7.31E+10
|
Pa
|
|
Heat
capacity
|
963
|
J/kg*°C
|
|
Poisson's
ratio
|
0.33
|
|
|
Thermal
Conductivity
|
155.8
|
W/m*°C
|
|
Thermal
expansion coefficient
|
24.3
|
µm/m*°C
|
|
Aluminum
7079-T6
|
Poisson's
ratio
|
0.33
|
|
|
Density
|
2740
|
kg/m3
|
|
Elastic
modulus
|
7.17E+10
|
Pa
|
|
Heat
capacity
|
963
|
J/kg*°C
|
|
Thermal
Conductivity
|
121.1
|
W/m*°C
|
|
Thermal
expansion coefficient
|
24.66
|
µm/m*°C
|
|
Aluminum
99.996%
|
Electrical
resistivity
|
2.66E-08
|
ohm*m
|
|
Ammonia
|
Heat
of vaporization
|
1368
|
kJ/kg
|
|
Ammonia
- liquid
|
Density
|
682.1
|
kg/m3
|
|
Argon
|
Heat
of vaporization
|
162.76
|
kJ/kg
|
|
Argon
- liquid
|
Density
|
1390
|
kg/m3
|
|
Benzene
(0°C)
|
Viscosity
|
9.12E-04
|
N*s/m2
|
|
Beryllium
QMV
|
Density
|
1850
|
kg/m3
|
|
Elastic
modulus
|
2.90E+11
|
Pa
|
|
Heat
capacity
|
1884
|
J/kg*°C
|
|
Poisson's
ratio
|
0.03
|
|
|
Thermal
Conductivity
|
147.1
|
W/m*°C
|
|
Thermal
expansion coefficient
|
14.94
|
µm/m*°C
|
|
Borosilicate
E6 -30 to +70C
|
Thermal
expansion coefficient
|
2.8
|
µm/m*°C
|
|
Borosilicate
glass
|
Heat
capacity
|
710
|
J/kg*°C
|
|
Thermal
Conductivity
|
1.13
|
W/m*°C
|
|
Borosilicate
Ohara E6
|
Density
|
2180
|
kg/m3
|
|
Elastic
modulus
|
5.74E+10
|
Pa
|
|
Poisson's
ratio
|
0.195
|
|
|
Borosilicate
glass (Tempax)
|
Thermal
Conductivity
|
1.13
|
W/m*°C
|
|
Density
|
2230
|
kg/m3
|
|
Elastic
modulus
|
6.20E+10
|
Pa
|
|
Poisson's
ratio
|
0.22
|
|
|
Carbon
dioxide (0°C,101 kPa)
|
Viscosity
|
1.39E-05
|
N*s/m2
|
|
Carbon
tetrachloride (0°C)
|
Viscosity
|
1.35E-03
|
N*s/m2
|
|
Concrete
|
Density
|
2242
|
kg/m3
|
|
Heat
capacity
|
1000
|
J/kg*°C
|
|
Concrete
(sand & gravel)
|
Thermal
Conductivity
|
1.8
|
W/m*°C
|
|
Copper
|
Electrical
resistivity
|
1.67E-08
|
ohm*m
|
|
Copper
- pure
|
Density
|
8900
|
kg/m3
|
|
Elastic
modulus
|
1.17E+11
|
Pa
|
|
Heat
capacity
|
385
|
J/kg*°C
|
|
Poisson's
ratio
|
|
|
|
Thermal
Conductivity
|
392.9
|
W/m*°C
|
|
Thermal
expansion coefficient
|
16.56
|
µm/m*°C
|
|
Diamond
|
Thermal
Conductivity
|
550
|
W/m*°C
|
|
Douglas
fir
|
Thermal
Conductivity
|
0.11
|
W/m*°C
|
|
Dow
Corning 200 (350 cST)
|
Heat
capacity
|
1465
|
J/kg*°C
|
|
Density
|
968
|
kg/m3
|
|
Kinematic
viscosity
|
1.12E-07
|
m2/s
|
|
Thermal
Conductivity
|
0.159
|
W/m*°C
|
|
Dow
Corning 739
|
Thermal
Conductivity
|
0.19
|
W/m*°C
|
|
Dow
Corning 93-500
|
Thermal
Conductivity
|
0.15
|
W/m*°C
|
|
Dow
Corning Q3-6605
|
Thermal
Conductivity
|
0.84
|
W/m*°C
|
|
Epoxy
(Epotek 353ND)
|
Thermal
Conductivity
|
0.049
|
W/m*°C
|
|
Epoxy
(Masterbond 11A0)
|
Thermal
Conductivity
|
1.44
|
W/m*°C
|
|
Ethanol
(25°C)
|
Heat
capacity
|
2453
|
J/kg*°C
|
|
Fused
silica
|
Density
|
2200
|
kg/m3
|
|
Glass
wool
|
Density
|
64
|
kg/m3
|
|
Thermal
Conductivity
|
0.04
|
W/m*°C
|
|
Glycerin
(0°C)
|
Viscosity
|
12.07
|
N*s/m2
|
|
Gold
- pure
|
Density
|
1.93E+04
|
kg/m3
|
|
Elastic
modulus
|
7.45E+10
|
Pa
|
|
Heat
capacity
|
130
|
J/kg*°C
|
|
Poisson's
ratio
|
0.42
|
|
|
Thermal
Conductivity
|
297.7
|
W/m*°C
|
|
Thermal
expansion coefficient
|
4.39
|
µm/m*°C
|
|
Helium
|
Heat
of vaporization
|
23.93
|
kJ/kg
|
|
Thermal
Conductivity
|
2.77
|
W/m*°C
|
|
Helium
(0°C,101 kPa)
|
Viscosity
|
1.86E-05
|
N*s/m2
|
|
Helium
- liquid
|
Density
|
125
|
kg/m3
|
|
Hydrogen
|
Heat
of vaporization
|
451.9
|
kJ/kg
|
|
Hydrogen
(0°C,101 kPa)
|
Viscosity
|
8.35E-06
|
N*s/m2
|
|
Hydrogen
- liquid
|
Density
|
70
|
kg/m3
|
|
Ice
|
Heat
capacity
|
2093
|
J/kg*°C
|
|
Thermal
Conductivity
|
2.2
|
W/m*°C
|
|
Iron
|
Density
|
7830
|
kg/m3
|
|
Heat
capacity
|
440
|
J/kg*°C
|
|
Thermal
Conductivity
|
83.5
|
W/m*°C
|
|
Kerosene
(0°C)
|
Viscosity
|
2.96E-03
|
N*s/m2
|
|
Lead
- pure
|
Density
|
1.13E+04
|
kg/m3
|
|
Elastic
modulus
|
1.38E+10
|
Pa
|
|
Heat
capacity
|
130
|
J/kg*°C
|
|
Poisson's
ratio
|
0.42
|
|
|
Thermal
Conductivity
|
37.04
|
W/m*°C
|
|
Thermal
expansion coefficient
|
52.74
|
µm/m*°C
|
|
Limestone
|
Thermal
Conductivity
|
0.5
|
W/m*°C
|
|
Magnesium
AZ31B-H24
|
Density
|
1770
|
kg/m3
|
|
Elastic
modulus
|
4.48E+10
|
Pa
|
|
Heat
capacity
|
1047
|
J/kg*°C
|
|
Poisson's
ratio
|
0.35
|
|
|
Thermal
Conductivity
|
95.19
|
W/m*°C
|
|
Thermal
expansion coefficient
|
26.1
|
µm/m*°C
|
|
Magnesium
HK31A-H24
|
Density
|
1790
|
kg/m3
|
|
Magnesium
HK31A-H24
|
Elastic
modulus
|
4.41E+10
|
Pa
|
|
Magnesium
HK31A-H24
|
Heat
capacity
|
544
|
J/kg*°C
|
|
Magnesium
HK31A-H24
|
Poisson's
ratio
|
0.35
|
|
|
Magnesium
HK31A-H24
|
Thermal
Conductivity
|
114.2
|
W/m*°C
|
|
Magnesium
HK31A-H24
|
Thermal
expansion coefficient
|
25.2
|
µm/m*°C
|
|
Mercury
(0°C)
|
Viscosity
|
1.69E-03
|
N*s/m2
|
|
Methane
|
Heat
of combustion
|
55.7
|
MJ/kg
|
|
Methane
|
Heat
of vaporization
|
577.4
|
kJ/kg
|
|
Methane
|
Thermal
Conductivity
|
0.303
|
W/m*°C
|
|
Methane
(0°C,101 kPa)
|
Viscosity
|
1.03E-05
|
N*s/m2
|
|
Methane
- liquid
|
Density
|
424
|
kg/m3
|
|
Methanol
(25°C)
|
Heat
capacity
|
2547
|
J/kg*°C
|
|
Molybdenum
- wrought
|
Density
|
1.03E+04
|
kg/m3
|
|
Molybdenum
- wrought
|
Elastic
modulus
|
2.76E+11
|
Pa
|
|
Molybdenum
- wrought
|
Heat
capacity
|
293
|
J/kg*°C
|
|
Molybdenum
- wrought
|
Poisson's
ratio
|
0.32
|
|
|
Molybdenum
- wrought
|
Thermal
Conductivity
|
143.6
|
W/m*°C
|
|
Molybvdenum
- wrought
|
Thermal
expansion coefficient
|
5.4
|
µm/m*°C
|
|
Neon
|
Heat
of vaporization
|
87.03
|
kJ/kg
|
|
Neon
- liquid
|
Density
|
1200
|
kg/m3
|
|
Nickel
- pure
|
Density
|
8900
|
kg/m3
|
|
Nickel
- pure
|
Elastic
modulus
|
2.21E+11
|
Pa
|
|
Nickel
- pure
|
Heat
capacity
|
461
|
J/kg*°C
|
|
Nickel
- pure
|
Poisson's
ratio
|
|
|
|
Nickel
- pure
|
Thermal
Conductivity
|
91.73
|
W/m*°C
|
|
Nickel
- pure
|
Thermal
expansion coefficient
|
12.96
|
µm/m*°C
|
|
Nickel
ASTM B160
|
Electrical
resistivity
|
1.00E-07
|
ohm*m
|
|
Nitrogen
|
Heat
of fusion
|
25.5
|
kJ/kg
|
|
Nitrogen
|
Heat
of vaporization
|
199.2
|
kJ/kg
|
|
Nitrogen
|
Thermal
Conductivity
|
0.146
|
W/m*°C
|
|
Nitrogen
(0°C,101 kPa)
|
Viscosity
|
1.66E-05
|
N*s/m2
|
|
Nitrogen
- liquid
|
Density
|
804
|
kg/m3
|
|
Nylon
|
Density
|
1700
|
kg/m3
|
|
Nylon
|
Thermal
Conductivity
|
0.24
|
W/m*°C
|
|
Octane
|
Heat
of combustion
|
47.7
|
MJ/kg
|
|
Oil
- light machine (0°C)
|
Viscosity
|
0.3534
|
N*s/m2
|
|
Oxygen
(0°C,101 kPa)
|
Viscosity
|
1.92E-05
|
N*s/m2
|
|
Platinum
|
Density
|
2.15E+04
|
kg/m3
|
|
Platinum
|
Elastic
modulus
|
1.47E+11
|
Pa
|
|
Platinum
|
Heat
capacity
|
130
|
J/kg*°C
|
|
Platinum
|
Poisson's
ratio
|
0.39
|
|
|
Platinum
|
Thermal
Conductivity
|
69.23
|
W/m*°C
|
|
Platinum
|
Thermal
expansion coefficient
|
9
|
µm/m*°C
|
|
Polycarbonate
|
Density
|
1300
|
kg/m3
|
|
Polycarbonate
|
Thermal
Conductivity
|
0.2
|
W/m*°C
|
|
Polyethylene
|
Density
|
2300
|
kg/m3
|
|
Polypropylene
|
Thermal
Conductivity
|
0.4
|
W/m*°C
|
|
Polystyrene
foam
|
Thermal
Conductivity
|
0.36
|
W/m*°C
|
|
Polyurethane
foam
|
Thermal
Conductivity
|
0.026
|
W/m*°C
|
|
PTFE
|
Density
|
1200
|
kg/m3
|
|
PTFE
|
Thermal
Conductivity
|
0.24
|
W/m*°C
|
|
Quartz
|
Thermal
Conductivity
|
1.32
|
W/m*°C
|
|
SiC
Alpha
|
Density
|
2975
|
kg/m3
|
|
SiC
Alpha
|
Elastic
modulus
|
4.76E+11
|
Pa
|
|
SiC
Alpha
|
Heat
capacity
|
1300
|
J/kg*°C
|
|
SiC
Alpha
|
Thermal
Conductivity
|
77.5
|
W/m*°C
|
|
SiC
Alpha
|
Thermal
expansion coefficient
|
4
|
µm/m*°C
|
|
SiC
sintered KT
|
Density
|
2975
|
kg/m3
|
|
SiC
sintered KT
|
Elastic
modulus
|
3.32E+11
|
Pa
|
|
SiC
sintered KT
|
Heat
capacity
|
1340
|
J/kg*°C
|
|
SiC
sintered KT
|
Thermal
Conductivity
|
80
|
W/m*°C
|
|
SiC
sintered KT
|
Thermal
expansion coefficient
|
5
|
µm/m*°C
|
|
Silastic
E
|
Thermal
Conductivity
|
0.18
|
W/m*°C
|
|
Silastic
L
|
Thermal
Conductivity
|
0.28
|
W/m*°C
|
|
Silica
(0°C)
|
Heat
capacity
|
937
|
J/kg*°C
|
|
Silicone
foam (Poron)
|
Thermal
Conductivity
|
0.06
|
W/m*°C
|
|
Silver
- pure
|
Density
|
1.05E+04
|
kg/m3
|
|
Silver
- pure
|
Elastic
modulus
|
7.24E+10
|
Pa
|
|
Silver
- pure
|
Heat
capacity
|
235
|
J/kg*°C
|
|
Silver
- pure
|
Poisson's
ratio
|
0.37
|
|
|
Silver
- pure
|
Thermal
Conductivity
|
417.1
|
W/m*°C
|
|
Silver
- pure
|
Thermal
expansion coefficient
|
19.8
|
µm/m*°C
|
|
Snow
(light)
|
Thermal
Conductivity
|
0.6
|
W/m*°C
|
|
Snow
(packed)
|
Thermal
Conductivity
|
2.2
|
W/m*°C
|
|
Soil
(coarse)
|
Thermal
Conductivity
|
0.52
|
W/m*°C
|
|
Soil
(dry w/stones)
|
Thermal
Conductivity
|
0.52
|
W/m*°C
|
|
Soil
(dry)
|
Thermal
Conductivity
|
0.23
|
W/m*°C
|
|
Soil
(w/42% water)
|
Thermal
Conductivity
|
1.1
|
W/m*°C
|
|
Steel
AISI 304
|
Density
|
8030
|
kg/m3
|
|
Steel
AISI 304
|
Elastic
modulus
|
1.93E+11
|
Pa
|
|
Steel
AISI 304
|
Electrical
resistivity
|
7.20E-07
|
ohm*m
|
|
Steel
AISI 304
|
Heat
capacity
|
503
|
J/kg*°C
|
|
Steel
AISI 304
|
Poisson's
ratio
|
0.29
|
|
|
Steel
AISI 304
|
Thermal
Conductivity
|
16.27
|
W/m*°C
|
|
Steel
AISI 304
|
Thermal
expansion coefficient
|
17.82
|
µm/m*°C
|
|
Steel
AISI C1020
|
Density
|
7850
|
kg/m3
|
|
Steel
AISI C1020
|
Elastic
modulus
|
2.03E+11
|
Pa
|
|
Steel
AISI C1020
|
Electrical
resistivity
|
1.00E-07
|
ohm*m
|
|
Steel
AISI C1020
|
Heat
capacity
|
419
|
J/kg*°C
|
|
Steel
AISI C1020
|
Poisson's
ratio
|
0.29
|
|
|
Steel
AISI C1020
|
Thermal
Conductivity
|
46.73
|
W/m*°C
|
|
Steel
AISI C1020
|
Thermal
expansion coefficient
|
11.34
|
µm/m*°C
|
|
Tantalum
|
Density
|
1.66E+04
|
kg/m3
|
|
Tantalum
|
Elastic
modulus
|
1.86E+11
|
Pa
|
|
Tantalum
|
Heat
capacity
|
126
|
J/kg*°C
|
|
Tantalum
|
Poisson's
ratio
|
0.35
|
|
|
Tantalum
|
Thermal
Conductivity
|
53.65
|
W/m*°C
|
|
Tantalum
|
Thermal
expansion coefficient
|
6.48
|
µm/m*°C
|
|
Titanium
B 120VCA
|
Density
|
4850
|
kg/m3
|
|
Titanium
B 120VCA
|
Elastic
modulus
|
1.02E+11
|
Pa
|
|
Titanium
B 120VCA
|
Heat
capacity
|
544
|
J/kg*°C
|
|
Titanium
B 120VCA
|
Poisson's
ratio
|
0.3
|
|
|
Titanium
B 120VCA
|
Thermal
Conductivity
|
7.442
|
W/m*°C
|
|
Titanium
B 120VCA
|
Thermal
expansion coefficient
|
9.36
|
µm/m*°C
|
|
Tungsten
|
Density
|
1.93E+04
|
kg/m3
|
|
Tungsten
|
Elastic
modulus
|
3.45E+11
|
Pa
|
|
Tungsten
|
Heat
capacity
|
138
|
J/kg*°C
|
|
Tungsten
|
Poisson's
ratio
|
0.28
|
|
|
Tungsten
|
Thermal
Conductivity
|
164.4
|
W/m*°C
|
|
Tungsten
|
Thermal
expansion coefficient
|
4.5
|
µm/m*°C
|
|
Water
|
Heat
capacity
|
4216
|
J/kg*°C
|
|
Water
|
Heat
of fusion
|
334
|
kJ/kg
|
|
Water
|
Thermal
Conductivity
|
0.603
|
W/m*°C
|
|
Water
(0°C)
|
Kinematic
viscosity
|
1.75E-06
|
m2/s
|
|
Water
(0°C)
|
Viscosity
|
1.75E-03
|
N*s/m2
|
|
Water
(100°C)
|
Heat
of vaporization
|
2258
|
kJ/kg
|
|
Water
(4 C)
|
Density
|
999.97
|
kg/m3
|
|
White
pine
|
Density
|
513
|
kg/m3
|
|
White
pine
|
Thermal
Conductivity
|
0.11
|
W/m*°C
|
