THE INFLUENCE OF DISLOCATIONS ON THE LATENT TECHNOLOGICAL ENERGY OF MACHINE PARTS
Keywords:
Residual micro- and macrostresses, dislocation, dislocation density, plastic deformation, structural elements, structural-energy model, latent energy, strain hardening, stress intensity, saw blade, abrasive blasting.Abstract
A dislocation model for the formation of technological residual stresses is presented, and its intensity is evaluated through an energy criterion of the surface layer quality of machine parts – the latent (stored) deformation energy. Abrasive blasting of the side surfaces of the teeth of saw blades of a cotton processing machine with black silicon carbide particles is proposed. The required processing quality is achieved by forming an effective microrelief on the treated surface.
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2025-12-20
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How to Cite
THE INFLUENCE OF DISLOCATIONS ON THE LATENT TECHNOLOGICAL ENERGY OF MACHINE PARTS. (2025). Modern American Journal of Engineering, Technology, and Innovation, 1(9), 136-146. https://usajournals.org/index.php/2/article/view/1643
