CV
QR


Farshid Ahmadi

Farshid Ahmadi

Assistant Professor

College: Faculty of Mechanical Engineering

Department: Mechanical Engineering - Manufacturing and Production

Degree: Ph.D

CV
QR
Farshid Ahmadi

Assistant Professor Farshid Ahmadi

College: Faculty of Mechanical Engineering - Department: Mechanical Engineering - Manufacturing and Production Degree: Ph.D |

Dr. Farshid Ahmadi is a Faculty Member in the Department of Mechanical Engineering, University of Kashan. He is also an Engineering and Research Consultant. Dr. Ahmadi's research is multi-disciplinary and revolves around Metal forming, Ultrasonic assisted manufacturing, FEM,  Bio-Mechanics and Nano structured materials. 

He received his PhD in Mechanical Engineering from Isfahan University  of Technology (with the highest honor), as the first Ph.D. graduate of the department .

He has received numerous academic award, including 3th person among 7850 people in Mechanical Engineering Master Degree entering Exam award and Fellowship of National Elite Foundation. 

نمایش بیشتر

Optimization of Pipe induction bending process by FEM

Authorsفرشید احمدی
Conference Title4th International congress of Electrical, computer and Mechanical engineering
Holding Date of Conference2020-07-10 - 2020-07-10
Event Place1 - تهران
Presented byدبیرخانه دائمی کنفرانس
PresentationSPEECH
Conference LevelInternational Conferences

Abstract

In this article, induction pipe bending process has been studied and by considering major affecting parameters, the forming conditions are optimized. First, a simple analytical solution is presented to predict forming conditions such as strains, stresses, pipe geometry, forces and moments. The results are also compared with FEM simulations obtained by ABAQUS software. According to analytical and computer simulation results, an appropriate reverse moment should be applied to the bending arm to keep the wall thinning and the ovality within an acceptable and required standard values. The results are also compared with available experimental data. The results of analytical and FEM simulations are very well in agreement with experimental observations.

Paper URL