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Residual stresses reside in a structure even after removing the original stress inducer. This phenomenon often arises from varied plastic deformations across different parts of a structure. Consider a rod stretched beyond its yield point. It will not regain its original length due to permanent deformation. Even after load removal, the rod does not entirely lose stress because of uneven plastic deformations, resulting in residual stresses. The computation of these stresses in structures is intricate. Factors like temperature changes during welding can cause plastic deformations, leading to a reduction in elasticity and the generation of residual stresses.

For instance, a plug welded to a plate heats significantly during the process, reducing its stress. As it cools post-welding, its elasticity increases, causing yielding at a constant stress level. This results in residual stress close to the steel's yield strength. Residual stresses also occur during the cooling of metals after casting or hot rolling. The outer layers cool faster than the inner core, regaining stiffness quicker and leading to tensile residual stresses in the core and compressive in the outer layers. These stresses can be significant, sometimes requiring removal through specimen reheating and slow cooling. Understanding and managing residual stresses is crucial in engineering design and manufacturing processes, ensuring the reliability and durability of structures and components.

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Residual StressesPlastic DeformationsStress InducerYield PointPermanent DeformationTemperature ChangesWeldingElasticity ReductionTensile StressesCompressive StressesSpecimen ReheatingEngineering DesignManufacturing ProcessesReliabilityDurability

Du chapitre 18:

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18.20 : Residual Stresses

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18.1 : Normal Strain under Axial Loading

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18.2 : Stress-Strain Diagram

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18.3 : Stress-Strain Diagram - Ductile Materials

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18.4 : Stress-Strain Diagram - Brittle Materials

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18.5 : True Stress and True Strain

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18.6 : Hooke's Law

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18.7 : Plastic Behavior

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18.8 : Fatigue

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18.9 : Deformation of Member under Multiple Loadings

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18.10 : Statically Indeterminate Problem Solving

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18.11 : Thermal Strain

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18.12 : Temperature Dependent Deformation

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18.13 : Poisson's Ratio

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18.14 : Generalized Hooke's Law

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