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Young s modulus of bulk and layered group 4 transition metal nitrides.

Young s modulus of carbon fibers Ks Length changes for 700 filament tows of 1.5 denier Courtelle PAN fiber in air at 220 C. Heat treated to 2500 C. Source

Young s modulus of CNF PEI nanoeomposites as a function of CNF concentration without and with ultrasonic treatment at various ultrasonic amplitudes at 60 rpm and after ball milling.

Young s modulus of cold-drawn polyethylene as a function of the post-necking molecular draw ratio. The molecular draw ratio precisely after necking is close to 8. Drawn after data from Sadler and Barham .

Young s modulus of composites consisting of different concentrations of micron- or nanosized bioactive glass particles in poly compared to the neat polymer ,

Young s modulus of craze versus temperature at zero strain

Young s modulus of epoxy reinforced with silane-coated glass microspheres vs. volume fraction of filler. Adapted, by permission, from Lekatou A, Faidi S E, Lyon S B, Newman R C, J. Mat. Res., 11, No.5, 1996,1293-304.

Young s modulus of ESX samples normalized by its initial venue measured at 24 C as a function of time following a thermal

Young s modulus of graphite as a function of orientation angle 9 .

Young s modulus of graphite crystal as a function of angle with c axis. PI

Young s modulus of Kevlar 149 niicrooonposites as a function of

Young s modulus of many of the elements as a function of position in the periodic table .

Young s modulus of PHA copolymers

Young s modulus of polycrystalline cerium during cooling and heating. Below about 80 K the heating and cooling data lie on the same curve. Rosen .

Young s modulus of PP EPDM blends plotted against EPDM content

Young s modulus of rubbers containing MT carbon black filler as a function of filler concentration. The solid curve is predicted by equation reproduced by permission of Wiley from L. Mullins and N. R. Tobin, J. Appl. Polym. ScLy

Young s modulus of several epoxy resins versus temperature .

Young s modulus of short fiber reinforced PVDF as a function of fiber loading

Young s modulus of silicon nitride vs. temperature.

Young s modulus of Styrolution Luran 378 P G7 and Luran 378 P as a function of temperature .

Young s modulus of the lyocell-PLA composites with lignin treatment reinforced with 20 and 40 mass .

Young s modulus of TIN as a function of temperature for a

Young s modulus of titanium-niobium alloys. Both pulse-echo and resonance results are represented. The maximum is due to -phase.

Young s modulus of WC as a function of temperature of various authors compiled by . Reprinted by permission of The American Ceramic Society.

Young s modulus ofnonporous and porous blends ofPLLA and PCL as a function of weight fraction of PLLA XpiuO in blends 1401. Reproduced with permission from ref. 1401. Copyright 2006 Society of Chemical



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