| 21. | Inelastic characteristics must be considered as well, and shear modulus might even provide a better correlation with hardness than bulk modulus.
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| 22. | Where \ mu _ 0 is the shear modulus at T = 0K, and D and T _ 0 are material constants.
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| 23. | Where G is the shear modulus, b is the Burgers vector, and \ rho _ \ perp is the dislocation density.
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| 24. | Where G is the material's shear modulus, b is the Burgers vector, and r is the distance from the dislocation.
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| 25. | Therefore, we can think the ratio as the relation between the shear modulus for the cubic material and its ( isotropic ) equivalent:
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| 26. | In solids, the compression waves are analogous to those in fluids, depending on compressibility, density, and the additional factor of shear modulus.
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| 27. | The speed of shear waves, which can occur only in solids, is determined simply by the solid material's shear modulus and density.
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| 28. | Where \ mu > 0 is the shear modulus for infinitesimal strains and Jm > 0 is a stiffening parameter, associated with limiting chain extensibility.
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| 29. | The slope of the initial, nearly linear, portion of a plot of shear stress as a function of shear strain is called the shear modulus
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| 30. | It can be used to measure Young's modulus, Shear modulus, Poisson's ratio and damping coefficient in a non destructive way.
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