Author
G. Kuppuswamy
Bio: G. Kuppuswamy is an academic researcher from Indian Institute of Technology Madras. The author has contributed to research in topics: Finite element method & Heat transfer coefficient. The author has an hindex of 1, co-authored 1 publications receiving 23 citations.
Papers
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TL;DR: In this article, a steady state 2D and 3D finite element analysis has been carried out for heat transfer analysis in machining of isotropic materials, and the effect of the convective heat transfer coefficient on machining performance has been highlighted.
23 citations
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TL;DR: In this paper, a bibliographical review of the finite element methods applied to the analysis and simulation of welding processes is given, which are classified in the following categories: modelling of welding process in general; modelling of specific welding processes; influence of geometrical parameters; heat transfer and fluid flow in welds; residual stresses and deformations in weld, fracture mechanics and welding; fatigue of welded structures; destructive and non-destructive evaluation of weldments and cracks; welded tubular joints, pipes and pressure vessels/components; welds in plates and other
Abstract: This paper gives a bibliographical review of the finite element methods applied to the analysis and simulation of welding processes The bibliography is an addendum to the finite element analysis and simulation of welding: a bibliography (1976–96) published in Modelling Simul Mater Sci Eng (1996) 4 501–33 The added bibliography at the end of this paper contains approximately 550 references to papers and conference proceedings on the subject that were published in 1996–2001 These are classified in the following categories: modelling of welding processes in general; modelling of specific welding processes; influence of geometrical parameters; heat transfer and fluid flow in welds; residual stresses and deformations in welds; fracture mechanics and welding; fatigue of welded structures; destructive and non-destructive evaluation of weldments and cracks; welded tubular joints, pipes and pressure vessels/components; welds in plates and other structures/components
128 citations
TL;DR: In this article, a finite element modeling (FEM) model was used to evaluate the effect of tool coatings, cutting environment and chip formation on cutting forces and temperatures, etc.
97 citations
TL;DR: In this paper, the authors further developed the finite element (FE) model of ultrasonically assisted turning discussed in Mitrofanov et al. This model is used to study the effect of cutting parameters (such as the cutting speed, depth of cut and feed rate) and influence of lubrication on various features of two turning techniques, including cutting forces and chip shapes.
82 citations
TL;DR: Mitrofanov et al. as mentioned in this paper presented a recently developed 3D model of UAT as an extension to their initial 2D model, which allows studying various 3D effects in turning, such as oblique chip formation, as well as to analyse the influence of tool geometry on process parameters, e.g. cutting forces and stresses generated in the workpiece material.
75 citations
TL;DR: In this paper, a thermal analysis model is developed to determine temperature distribution in orthogonal metal cutting using finite elements method, which calculates the temperature distribution as a function of heat generation.
68 citations