Search Results for compression strength

Fig. 33 Correlation between tensile strength, compression strength, and Brinell hardness. (a) Tensile strength-compression strength correlation. Source: Ref 24 . (b) Brinell hardness-compression strength correlation. Source: Ref 47 More

Fig. 13 Compression strength of a series of Al-12Si (open circles) and Zn-4Cu (solid circles) alloys. Test specimens were 30 by 30 by 40 mm (1.2 by 1.2 by 1.6 in.). Testing was performed at 5 mm/min (0.2 in./min). Because the transition from the initial linear increase of stress to the plateau More

Fig. 14 Compression strength of a series of Al-12Si and Zn-4Cu alloys. Test specimens were 30 × 30 × 40 mm (1.2 ×1.2 × 1.6 in.). Testing was performed at 5 mm/min (0.2 in./min). Because the transition from the initial linear increase of stress to the plateau regime is not defined unambiguously More

Fig. 7 Green compression strength of green sand bonded with (a) Southern bentonite, (b) Western bentonite, and (c) kaolinite, versus the amount of tempering water. Source: Ref 14 More

Fig. 2 Elevated temperature wet compression strength (ksi) as a function of cure cycle final dwell time and temperature (120 °C, or 250 °F, cure glass/epoxy) More

Fig. 19 Effect of shear-compression stress ratio on the compressive strength and deformability of titanium alloy Ti-62222Si with initial strain rate of about 2 × 10 2 s −1 More

Fig. 20 PBI compressive strength versus temperature using ASTM D 695 compressive specimens (25 × 13 mm diam, or 1 × 0.5 in. diam) with dwell time of 15 to 30 min More

Fig. 11 Typical compressive strength for C83600 More

Fig. 18 Typical compressive strength of C86500 More

Fig. 31 Compressive strength of C92200 More

Fig. 38 Variation of compressive strength with temperature for C93700 More

Fig. 3 Compressive strength versus defect size for AS4/3501-6 wing skin laminate More

Fig. 4 Effect of manufactured wrinkle on compressive strength More

Fig. 8 Postimpact compressive strengths for [45/0/−45/90] 6s IM7/8551-7 and AS4/3501-6 laminates with 12.7 mm diam indenter More

Fig. 13 Postimpact tensile and compressive strengths for [45/0/−45/90] ns AS4/3501-6 uniweave (RFI) and a 12.7 mm diam tup More

Fig. 14 Postimpact tensile and compressive strengths versus dent depth for [45/0/−45/90] ns AS4/3501-6 uniweave (RFI) and a 12.7 mm diam More

Fig. 21 Postimpact compressive strength versus impacter kinetic energy for 6.3 mm thick AS4/3501-6 coupons and panels with three bolted spars More

Fig. 17 Compressive strength of pearlitic and martensitic malleable irons More

Fig. 10 Compressive strength of engineering plastics. PA, polyamide; PET, polyethylene terephthalate; PBT, polybutylene terephthalate; PPO, polyphenylene oxide; PC, polycarbonate; ABS, acrylonitrile-butadiene-styrene More

Fig. 47 Compressive strength of engineering plastics More