Method for determining laser peening forming process parameter of complex curved-surface-shaped workpiece

Abstract

The invention provides a method for determining a laser peening forming process parameter of a complex curved-surface-shaped workpiece. The method comprises the following steps: according to a curved surface parameter equation of the workpiece, carrying out geometrical characteristic analysis on the curved surface of the workpiece to calculate a main strain direction so as to obtain a laser pulse scanning direction in laser peening forming; establishing a workpiece bending deformation finite element model which takes depth-direction inherent strain distribution as a deformation source, and optimizing an inherent strain field to obtain the inherent strain distribution of different positions of the workpiece along the depth direction, wherein an inherent strain direction is the main strain direction; and according to inherent strain response surface models under different laser peening forming process parameters and the inherent strain of different positions of the workpiece along the depth direction, optimizing the laser peening forming process parameters, and obtaining an optimal laser peening forming process parameter corresponding to different inherent strain fields on the surface of the workpiece. A non-elastic deformation problem can be converted into an elastic deformation problem to improve the efficiency and the precision of finite element simulation.

Description

technical field [0001] The invention relates to mechanical engineering technology, in particular to a method for determining technological parameters of laser shot-peening forming of workpieces with complex curved surfaces. Background technique [0002] The laser shot peening process has broad application prospects in the forming of complex curved surface workpieces of large structures such as aircraft wings, fuselages, and launch vehicle fuel tanks. Because the process uses laser as the energy source, the process parameters are highly controllable, which makes it easier to realize the precise forming of large workpieces. However, since the laser peening forming process is a moldless forming process, the forming of workpieces such as integral wall panels is realized by controlling the parameters and paths of laser peening on the forming surface. Since there is no definite mold to ensure the target shape is obtained, it brings great difficulties to the control of process par...

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Problems solved by technology

Since there is no determined mold to ensure the target shape is obtained, it brings great difficulties to the control of process parameters and shot blasting path

[0003] The invention with the application number 200510040116.9 discloses a method of laser peening forming of medium-thick plates. According to the curved surface shape of the processed parts, the required stress field distribution shape is simulated by the computer control system, and the shock wave pressure acting on the surface of the plate is optimized. And the distribution of shot peening trajectory, but this method does not pay attention to the root cause of surface deformation - inherent strain, does not provide a method for obtaining process parameters, and does not realize the optimization of process parameters. It is very difficult to form panels with complex curvatures; in addition , the invention of which the application number is 201310384814.5 discloses a digital shot peening method for integral wall panels. After analyzing the geometric information and material characteri

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