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General Properties Tab: My
initial data dump from
eFunda.com
Elastic
Modulus
Poisson'
s Ratio
Yield
Stress
Ultimate
Stress Elongation Density
Melting
Point
Boiling
Point CTE
Thermal
Conducti
vity
Material: (GPa) (MPa) (MPa) (%)
(×1000
kg/m3) (ºC) (ºC) (×10-6/ºC) (W/m·K)
Aluminum [Al] 70 0.33 20 70 60.00 2.71 660.3 2519 23 237
Aluminum Alloy70 - 79 0.33 35 - 500 100 - 550 1 - 45 2.64 - 2.8
565.0 -
660.0 - 23 -
Brass 96 - 110 0.34 70 - 550 200 - 620 4 - 60 8.4 - 8.75 930 - 19.1 - 21.2 -
Brass; Noval 100 0.34 170 - 410 410 - 590 15 - 50 8.4 - - 21.1 -
Brass; Red (80% Cu, 20%
Zn)100 0.34 90 - 470 300 - 590 4 - 50 8.75 1000 - 19.1 -
Brick (Compression) 10 - 24 - - 7.0 - 70 - 1.8 - 2.4 - - 5.00 - 7.00 -
Bronze; Regular 96 - 120 0.34 82 - 690 200 - 830 5 - 60 7.8 - 8.8 1050 - 18.0 - 21.0 -
Bronze; Manganese 100 0.34 170 - 450 450 - 620 10 - 35 8.3 - - 20 -
Carbon [C] 6.9 - 2.25 4492 3642
Ceramic 300 - 400 - 2 - 3 3870 -
Concrete 18 - 30 0.1 - 0.2 - 10-70 - 2.3 - 2.4 - - 7.00 - 14.0 -
Copper [Cu] 110 - 120 0.33 - 0.36 55 - 330 230 - 380 10 - 50 8.94 1085 2562 16.6 - 17.6 410
Copper Alloy 120 - 760 830 4.00 8.23 925 - 17 -
Cork - 0 0.15 - 0.2 - -
Glass 48 - 83 0.2 - 0.27 - 30 - 1000 - 2.4 - 2.8 - - 5.00 - 11.0 -
Gold [Au] 83 0.44 19.32 1064 2856 - 317
Iron [Fe] 7.87 1538 2861 - 80.2
Iron (Cast) 83 - 170 0.2 - 0.3 120 - 290 69 - 480 0 - 1 7 - 7.4 - - 9.90 - 12.0 -
Iron (Wrought) 190 0.3 210 340 35.00 7.4 - 7.8 - - 12 -
Lead [Pb] 11.3 327.5 1749 - 35.3
Magnesium [Mg] 41 0.35 20 - 70 100 - 170 5 - 15 1.74 650 1090 25.2 156
Magnesium Alloy 45 0.35 80 - 280 140 - 340 2 -20 1.77 1246 2061 26.1 - 28.8 -
Monel (67% Ni, 30% Cu)170 0.32 170 - 1100 450 - 1200 2 - 50 8.84 1330 - 14 -
Nickel [Ni] 210 0.31 140 - 620 310 - 760 2 - 50 8.89 1455 2913 13 90.7
Nylon; Polyamide 2.1 - 2.8 0.4 - 40 - 70 50.00 1.1 - - 75.0 - 100 -
Platinum [Pt] 145 0.38 21.4 1768 3825 - 71.6
General Properties Tab: My
initial data dump from
eFunda.com
Elastic
Modulus
Poisson'
s Ratio
Yield
Stress
Ultimate
Stress Elongation Density
Melting
Point
Boiling
Point CTE
Thermal
Conducti
vity
Material: (GPa) (MPa) (MPa) (%)
(×1000
kg/m3) (ºC) (ºC) (×10-6/ºC) (W/m·K)
Rubber
7.0 × 10-4 -
4.0 × 10-3 0.45 - 0.5 1.0 - 7.0 7.0 - 20 100 - 800 0.96 - 1.3 - - 130 - 200 -
Silicon [Si] 2.33 1382 - - 148
Silver [Ag] 76 - 10.49 961.8 2162 - 429
Solder; Tin-Lead 18 - 35 - - 12 - 54 55 - 30 8.17 - 11.34 215 - - 30.0 - 49.8
Steel 190 - 210 0.27 - 0.3 280 - 1600 340 - 1900 3 - 40 7.85 1425 - 10.0 - 18.0 -
Stone; Granite
(Compression)40 - 70 0.2 - 0.3 - 70 - 280 - 2.6 - -
Stone; Limestone
(Compression)20 - 70 0.2 - 0.3 - 20 - 200 - 2 - 2.9 - -
Stone; Marble
(Compression)50 - 100 0.2 - 0.3 - 50 - 180 - 2.6 - 2.9 - -
2.6 - -
Tin [Sn] 42 0.36 7.3 231.9 2602 - 66.6
Titanium [Ti] 110 0.33 - 500 25.00 4.54 1668 3287 - 21.9
Titanium Alloy 110 - 120 0.33 - 900 - 970 10.00 4.51 - - 8.00 - 10.0 -
Tungsten [W] - 1400 - 4000 0 - 4 19.3 3422 5555 4.3 174
Wood; Ash (Bending) 10 - 11 - 40 - 70 50 - 100 - 0.56 - 0.64 - -
Wood; Douglas Fir
(Bending)11 - 13 - 30 - 50 50 - 80 - 0.48 - 0.56 - -
Wood; Oak (Bending) 11 - 12 - 40 - 60 50 - 100 - 0.64 - 0.72 - -
Wood; Southern Pine
(Bending)11 - 14 - 40 - 60 50 - 100 - 0.55 - 0.64 - -
Zinc [Zn] - 0.25 7.14 419.5 907 30.2 116
