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Young modulus versus porosity for specimens after II and III pressing and sintering, measured at temperatures T 113K, 303K and 473K.

Young modulus, E, versus temperature, T, for PM S fiber Log deformation rate , - 3 8

Young representatives of four major living groups of actinopterygian fishes

Young s .

Young s and Shear moduh of UN with 95 TD as function of temperature.

Young s contact angle 0

Young s force balance giving the equlilibrium contact angle

Young s moduius vs. PS content for Styroiution Styrolux SBC resins .

Young s moduli

Young s moduli E of the polymers A, B, C, D in the rubbery state against absolute temperature T . Entropic elasticity is indicated by the proportionality of E to T

Young s moduli Ec from experiments at T 500 K are plotted against the calculated moduli ER . The agreement is good, although apparently more crosslinks are formed than expected from the calculated crosslink density. Solid line

Young s moduli Efle, as determined by flexural tests on small samples after thermal treatment are plotted against the densities of those samples. The dots are situated along a single line since the annealed samples are denser and more rigid than the quenched samples prepared from the same polymer

Young s moduli for fresh and aged silicone elastomer containing ZnO. Adapted, by permission, from Yang ACM, Polymer, 35, o.l5, 1994, 3206-11.

Young s moduli for fresh and aged siticone elastomer containing ZnO. Adapted, by permission, from Yang ACM, Polymer, 35, No. 15, 1994,3206-11.

Young s moduli of dysprosium computed from the single crystal constants shown in fig. 8.74.

Young s moduli of erbium computed from the single crystal constants in fig. 8.80.

Young s moduli of four nickel steels. The irregular behavior at low temperatures for two of the steels is believed to represent a magnetic transition in the retained austenite phase.

Young s moduli of gadolinium. Computed from single crystal constants shown in fig. 8.67. Breaks in the curves indicate that data for Cn, used in the computation, were taken in a magnetic field at temperatures below the break.

Young s moduli of holmium computed from the single crystal constants in fig. 8.77.

Young s moduli of injection molded PC Vectra A blends as functions of the weight percent of Vectra A.

Young s moduli of neodymium computed from the single crystal data in flg. 8.60.

Young s moduli of pure LHM and starch blends versus degradation time at ambient conditions

Young s moduli of stoiochiometric Epon resin DD5 networks as a function of test temperature

Young s moduli of the CNT epoxy composite for different combination of interphases, SWCNTs . Designation of the combination of interphases with letters A-E one letter refers to SWCNTs, two letters to DWCNTs, the first letter stands for the epoxy CNT interphase and the second letter for the interwall phase. Shear stiffness of the interphases

Young s moduli of the GPTMS-boehmite nanocomposite and the hybrid gel derived from GPTMS-A1



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