plastic-yield criterion - definição. O que é plastic-yield criterion. Significado, conceito
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O que (quem) é plastic-yield criterion - definição

Brestler-Pister; Willam-Warnke; Prandtl Rauss; Tresca yield criterion
  • Surfaces on which the invariants <math>I_1</math>, <math>J_2</math>, <math>J_3</math> are constant. Plotted in principal stress space.
  • Surfaces on which the invariants <math>\xi</math>, <math>\rho</math>, <math>\theta</math> are constant. Plotted in principal stress space.
  • The Yld2000-2D yield loci for a AA6022 T4 sheet.

Bigoni–Piccolroaz yield criterion         
  • Deviatoric sections of a BP yield surface.
  • Meridian sections of a BP yield surface.
  • Representation of coordinates <math>p, q </math> and <math>\theta</math> of the BP yield surface in Haigh Westergaard stress space.
  • The hardening process during hydrostatic powder compaction described with the Bigoni & Piccolroaz yield surface.
  • Bigoni-Piccolroaz yield surface in the 3D space of principal stresses
YIELD CRITERION
Draft:Bigoni–Piccolroaz yield criterion; Bigoni-Piccolroaz yield criterion
The Bigoni–Piccolroaz yield criterion is a yielding model, based on a phenomenological approach, capable of describing the mechanical behavior of a broad class of pressure-sensitive granular materials such as soil, concrete, porous metals and ceramics.
Yield (multithreading)         
BASIC OPERATION IN CONCURRENT COMPUTING
Yield method
In computer science, yield is an action that occurs in a computer program during multithreading, of forcing a processor to relinquish control of the current running thread, and sending it to the end of the running queue, of the same scheduling priority.
Yield (chemistry)         
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ANY OF SEVERAL RELATIVE AND ABSOLUTE MEASURES OF THE AMOUNT OF DESIRED PRODUCT OBTAINED IN A CHEMICAL REACTION
Percent yield; Reaction yield; Theoretical yield; Molar yield; Chemical yield; Yield (chemical); Percentage Yield; Relative yield; Experimental yield; % yield; Percentage yield; Actual yield
In chemistry, yield, also referred to as reaction yield, is a measure of the quantity of moles of a product formed in relation to the reactant consumed, obtained in a chemical reaction, usually expressed as a percentage. Yield is one of the primary factors that scientists must consider in organic and inorganic chemical synthesis processes.

Wikipédia

Yield surface

A yield surface is a five-dimensional surface in the six-dimensional space of stresses. The yield surface is usually convex and the state of stress of inside the yield surface is elastic. When the stress state lies on the surface the material is said to have reached its yield point and the material is said to have become plastic. Further deformation of the material causes the stress state to remain on the yield surface, even though the shape and size of the surface may change as the plastic deformation evolves. This is because stress states that lie outside the yield surface are non-permissible in rate-independent plasticity, though not in some models of viscoplasticity.

The yield surface is usually expressed in terms of (and visualized in) a three-dimensional principal stress space ( σ 1 , σ 2 , σ 3 {\displaystyle \sigma _{1},\sigma _{2},\sigma _{3}} ), a two- or three-dimensional space spanned by stress invariants ( I 1 , J 2 , J 3 {\displaystyle I_{1},J_{2},J_{3}} ) or a version of the three-dimensional Haigh–Westergaard stress space. Thus we may write the equation of the yield surface (that is, the yield function) in the forms:

  • f ( σ 1 , σ 2 , σ 3 ) = 0 {\displaystyle f(\sigma _{1},\sigma _{2},\sigma _{3})=0\,} where σ i {\displaystyle \sigma _{i}} are the principal stresses.
  • f ( I 1 , J 2 , J 3 ) = 0 {\displaystyle f(I_{1},J_{2},J_{3})=0\,} where I 1 {\displaystyle I_{1}} is the first principal invariant of the Cauchy stress and J 2 , J 3 {\displaystyle J_{2},J_{3}} are the second and third principal invariants of the deviatoric part of the Cauchy stress.
  • f ( p , q , r ) = 0 {\displaystyle f(p,q,r)=0\,} where p , q {\displaystyle p,q} are scaled versions of I 1 {\displaystyle I_{1}} and J 2 {\displaystyle J_{2}} and r {\displaystyle r} is a function of J 2 , J 3 {\displaystyle J_{2},J_{3}} .
  • f ( ξ , ρ , θ ) = 0 {\displaystyle f(\xi ,\rho ,\theta )=0\,} where ξ , ρ {\displaystyle \xi ,\rho } are scaled versions of I 1 {\displaystyle I_{1}} and J 2 {\displaystyle J_{2}} , and θ {\displaystyle \theta } is the stress angle or Lode angle