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In structural engineering, the plastic moment (Mp) is a property of a structural section. It is defined as the moment at which the entire cross section has reached its
yield stress In materials science and engineering, the yield point is the point on a stress-strain curve that indicates the limit of elastic behavior and the beginning of plastic behavior. Below the yield point, a material will deform elastically and wi ...
. This is theoretically the maximum bending moment that the section can resist – when this point is reached a
plastic hinge In the structural engineering beam theory, the term "plastic hinge" is used to describe the deformation of a section of a beam where plastic bending occurs. In earthquake engineering plastic hinge is also a type of energy damping device allowing ...
is formed and any load beyond this point will result in theoretically infinite plastic deformation.{{Cite book, title=STRUCTURAL AND STRESS ANALYSIS, author=MEGSON, T. H. G., date=2019, publisher=BUTTERWORTH-HEINEMANN LTD, isbn=0081025866, pages=236, oclc=1048935955 In practice most materials are work-hardened resulting in increased stiffness and moment resistance until the material fails. This is of little significance in
structural mechanics Structural mechanics or Mechanics of structures is the computation of deformations, deflections, and internal forces or stresses (''stress equivalents'') within structures, either for design or for performance evaluation of existing structures. It ...
as the deflection prior to this occurring is considered to be an earlier failure point in the member. In general, the method to calculate M_p first requires calculation of the plastic section modulus Z_P and then to substitute this into the following formula: : M_p=Z_P \sigma_y For example, the plastic moment for a rectangular section can be calculated with the following formula: : M_p= (bh^2 / 4 )\sigma_y where : b is the width : h is the height : \sigma_y is the yield stress The plastic moment for a given section will always be larger than the yield moment (the bending moment at which the first part of the sections reaches the yield stress).


See also

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Structural engineering theory Structural engineering depends upon a detailed knowledge of loads, physics and materials to understand and predict how structures support and resist self-weight and imposed loads. To apply the knowledge successfully structural engineers will need ...
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Plasticity (physics) In physics and materials science, plasticity, also known as plastic deformation, is the ability of a solid material to undergo permanent Deformation (engineering), deformation, a non-reversible change of shape in response to applied forces. F ...


References

Building engineering