GTBL042-App-B GTBL042-Callister-v3 September 21, 2007 20:24
804 • Appendix B / Properties of Selected Engineering MaterialsTable B.1 (Continued)
Density
Material g/cm^3 lbm/in.^3- Ultrahigh molecular weight
(UHMWPE)
0.94 0.0339Poly(ethylene terephthalate) (PET) 1.35 0.0487
Poly(methyl methacrylate) (PMMA) 1.19 0.0430
Polypropylene (PP) 0.905 0.0327
Polystyrene (PS) 1.05 0.0379
Polytetrafluoroethylene (PTFE) 2.17 0.0783
Poly(vinyl chloride) (PVC) 1.30–1.58 0.047–0.057
FIBER MATERIALS
Aramid (Kevlar 49) 1.44 0.0520
Carbon (PAN precursor)- Standard modulus 1.78 0.0643
- Intermediate modulus 1.78 0.0643
- High modulus 1.81 0.0653
E-glass 2.58 0.0931
COMPOSITE MATERIALS
Aramid fibers-epoxy matrix
(Vf=0.60)
1.4 0.050High-modulus carbon fibers-epoxy
matrix (Vf=0.60)1.7 0.061E-glass fibers-epoxy matrix
(Vf=0.60)2.1 0.075Wood- Douglas fir (12% moisture) 0.46–0.50 0.017–0.018
- Red oak (12% moisture) 0.61–0.67 0.022–0.024
Sources:ASM Handbooks,Volumes 1 and 2, Engineered Materials
Handbook,Volume 4, Metals Handbook: Properties and Selection:
Nonferrous Alloys and Pure Metals, Vol. 2, 9th edition, andAdvanced
Materials & Processes, Vol. 146, No. 4, ASM International, Materials Park,
OH;Modern Plastics Encyclopedia ’96,The McGraw-Hill Companies,
New York, NY; R. F. Floral and S. T. Peters, “Composite Structures and
Technologies,” tutorial notes, 1989; and manufacturers’ technical data sheets.
Table B.2 Room-Temperature Modulus of Elasticity Values
for Various Engineering MaterialsModulus of Elasticity
Material GPa 106 psi
METALS AND METAL ALLOYS
Plain Carbon and Low Alloy Steels
Steel alloy A36 207 30
Steel alloy 1020 207 30
Steel alloy 1040 207 30
Steel alloy 4140 207 30
Steel alloy 4340 207 30
Stainless Steels
Stainless alloy 304 193 28
Stainless alloy 316 193 28