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2. Creep (deformation) - Wikipedia

   en.wikipedia.org/wiki/Creep_(deformation)

   In the secondary, or steady-state, creep, dislocation structure and grain size have reached equilibrium, and therefore strain rate is constant. Equations that yield a strain rate refer to the steady-state strain rate. Stress dependence of this rate depends on the creep mechanism. In tertiary creep, the strain rate exponentially increases with ...

3. Larson–Miller relation - Wikipedia

   en.wikipedia.org/wiki/Larson–Miller_relation

   F.R. Larson and J. Miller proposed that creep rate could adequately be described by the Arrhenius type equation: = / Where r is the creep process rate, A is a constant, R is the universal gas constant, T is the absolute temperature, and is the activation energy for the creep process.

4. Viscoelasticity - Wikipedia

   en.wikipedia.org/wiki/Viscoelasticity

   When subjected to a step constant stress, viscoelastic materials experience a time-dependent increase in strain. This phenomenon is known as viscoelastic creep. At time , a viscoelastic material is loaded with a constant stress that is maintained for a sufficiently long time period. The material responds to the stress with a strain that ...

5. Creep-testing machine - Wikipedia

   en.wikipedia.org/wiki/Creep-testing_machine

   Creep is dependent on time so the curve that the machine generates is a time vs. strain graph. The slope of a creep curve is the creep rate dε/dt [citation needed] The trend of the curve is an upward slope. The graphs are important to learn the trends of the alloys or materials used and by the production of the creep-time graph, it is easier ...

6. Thermomechanical analysis - Wikipedia

   en.wikipedia.org/wiki/Thermomechanical_analysis

   The recovery measurement time should be four times the creep time, so in this example the recovery time should be 4 h. Upon removal of the force the elastic component results in an immediate contraction. The viscoelastic recovery is exponential as the material slowly recovers some of the previously imparted creep strain. After recovery there is ...

7. Zener–Hollomon parameter - Wikipedia

   en.wikipedia.org/wiki/Zener–Hollomon_parameter

   In materials science, the Zener–Hollomon parameter, typically denoted as Z, is used to relate changes in temperature or strain-rate to the stress-strain behavior of a material. It has been most extensively applied to the forming of steels at increased temperature, when creep is active. [1] It is given by

8. Viscoplasticity - Wikipedia

   en.wikipedia.org/wiki/Viscoplasticity

   The classical creep curve represents the evolution of strain as a function of time in a material subjected to uniaxial stress at a constant temperature. The creep test, for instance, is performed by applying a constant force/stress and analyzing the strain response of the system.

9. Creep and shrinkage of concrete - Wikipedia

   en.wikipedia.org/wiki/Creep_and_shrinkage_of...

   To separate shrinkage from creep, the compliance function (, ′), defined as the stress-produced strain (i.e., the total strain minus shrinkage) caused at time t by a unit sustained uniaxial stress = applied at age ′, is measured as the strain difference between the loaded and load-free specimens. The multi-year creep evolves logarithmically ...