Articles

type: Journal
Title DOI Date
Influence of ultrasonic vibrations on tube spinning process #
Numerical and Experimental Investigation of Inward Tube Electromagnetic forming- Electromagnetic Study #
Improving the Quality of Surface in Polishing Process with the Magnetic Abresive Powder Polishing (MAPP) by Use of Ultrasonic Oscillation of workpiece on a CNC Table #
Simulation of Super-Plastic Forming Based on a Micro-Structural Constitutive Model and Considering Grain Growth #
Simulation of Hot Sheet Metal Forming Processes Based on a Micro-Structural Constitutive Model #
Numerical prediction of damage evolution in sheet metal forming processes with nonlinear and complex strain paths #
Improving the quality of surface in the polishing process with the magnetic abrasive powder polishing using a high-frequency induction heating source on CNC table #
A new method for analysing large elasto-plastic deformation of a thin Cosserat shell #
Manufacture of Miniature Bulge Test Apparatus Suitable for Micro-Sheet Metal Forming #
A new method for analysing large elasto plastic deformation of a thin Cosserat shell #
A New Element For Analyzing Large Deformation Of Thin Naghdi Shell Model part1 elastic #
3-D Finite element simulation of pulsating free bulge hydroforming of tubes #
Finite element simulation of induction bending of large diameter pipes with a small bending radius #
Investigating geometric and friction conditions causing chevron cracks in wire drawing process using FEM #
Comparison of rupture modes in deep drawing and hydro-mechanical deep drawing processes using ductile damage model #
Prediction of springback of tube induction bending process by FE method and comparison with analytical results #
Manufacture of thin miniature parts using electro hydraulic forming and viscous pressure forming methods #
Analysis of blanking process using various damage criteria #
Optimization of working conditions during push bending of circular tubes #
Improvement of the flow formulation by recovery of the hydrostatic pressure using the finite point method #