Many recent FEM investigations on the formulation of plain isotropic metal plates have been undertaken. In terms of structural safety and system stability, stress analysis is critical. For designing and manufacturing high-quality items, stress and distortion estimate is particularly useful. Residual stress and plastic strain dictate a structure's fatigue life in most cases, but they also play a role in design and material selection. A crack forms as the size of the load increases, reducing the work load and residual stress, and thereby reducing metal damage. The manufacturing process is an important factor in the process and the formation of any system. Complex things like hot development, material characteristics, and other predictions based on plastic strain and residual stress transition are involved in machining operations. The complexity of the finite element research is influenced by the decrease of residual stress. The focus of this research is on manufacturing techniques with lower residual stress and strain. For the simulation of metal removal processes, an arbitrary LagrangianEulerian (ALE) formulation has been devised in this article. The results show that by employing the ALE method in machining, we may minimise the strain on the work piece and hence increase its life type. Cutting tool wear and efficiency are also investigated because they are an important machine component in fabrication technology. The ABAQUS platform was used to solve the machining operation.
Author(s) Details:
Jayaprakash Venugopal,
School of Mechanical, Sathyabama Institute of Science and Technology,
Chennai, India.
Anish Mariadhas,
School of Mechanical, Sathyabama Institute of Science and Technology, Chennai,
India.
Please see the link here: https://stm.bookpi.org/RTCAMS-V7/article/view/6103
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