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8. TIME DEPENDENT BEHAVIOUR: CREEP

8. TIME DEPENDENT BEHAVIOUR: CREEPIn general, the mechanical properties and performance of materials change withincreasing temperatures . Some properties and performance, such as elastic modulusand strength decrease with increasing temperature. Others, such as ductility, increasewith increasing is important to note that atomic mobility is related to diffusion which can bedescribed using Ficks Law:D=DOexp QRT ( )where D is the diffusion rate, Do is a constant , Q is the activation energy for atomic motion,R is the universal gas constant ( K) and T is the absolute temperature. Thus,diffusion-controlled mechanisms will have significant effect on high temperaturemechanical properties and performances. For example, dislocation climb, concentrationof vacancies, new slip systems, and grain boundary sliding all are diffusion-controlled andwill affect the behaviour of materials at high temperatures .

effect of temperature in the model of Eq. 8.6 such that: ε ˙ ss = ε ˙ min = Aσ n exp − Q RT (8.7) where n is the stress exponent, Q is the activation energy for creep, R is the universal gas constant and T is the absolute temperature. To determine the various constants in Eq. 8.7 a series of isothermal and iso stress tests are required.

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