A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Tube hydroforming process: A reference guide
Highlights ► In this paper, we presented an overall review of developments and investigations in the tube hydroforming study. ► Factors affecting the output of the process were addressed by many studies which were categorized and reviewed. ► Different optimization algorithms were outlined.
Abstract Tube hydroforming is one of the most popular unconventional metal forming processes which is widely used to form various tubular components. By this process, tubes are formed into different shapes using internal pressure and axial compressive loads simultaneously to force a tubular blank to conform to the shape of a given die cavity. In this paper, an overall review of developments in the tube hydroforming study is presented so that other researchers at different parts of the world can use it for further investigations in this area. Initially, analytical studies which predict the sufficient parameters in tube hydroforming process were summarized. Afterwards, a guideline for employing finite element modeling (FEM) in the process analysis was proposed. Factors affecting the output of the process were addressed by many studies which were categorized and reviewed in the present work. Moreover, common types of failure of the process were introduced and improvements to avoid them were mentioned. Furthermore, different optimization algorithms to choose the input parameters that would produce the desired hydroformed component were outlined.
Tube hydroforming process: A reference guide
Highlights ► In this paper, we presented an overall review of developments and investigations in the tube hydroforming study. ► Factors affecting the output of the process were addressed by many studies which were categorized and reviewed. ► Different optimization algorithms were outlined.
Abstract Tube hydroforming is one of the most popular unconventional metal forming processes which is widely used to form various tubular components. By this process, tubes are formed into different shapes using internal pressure and axial compressive loads simultaneously to force a tubular blank to conform to the shape of a given die cavity. In this paper, an overall review of developments in the tube hydroforming study is presented so that other researchers at different parts of the world can use it for further investigations in this area. Initially, analytical studies which predict the sufficient parameters in tube hydroforming process were summarized. Afterwards, a guideline for employing finite element modeling (FEM) in the process analysis was proposed. Factors affecting the output of the process were addressed by many studies which were categorized and reviewed in the present work. Moreover, common types of failure of the process were introduced and improvements to avoid them were mentioned. Furthermore, different optimization algorithms to choose the input parameters that would produce the desired hydroformed component were outlined.
Tube hydroforming process: A reference guide
Alaswad, A. (author) / Benyounis, K.Y. (author) / Olabi, A.G. (author)
2011-07-19
12 pages
Article (Journal)
Electronic Resource
English
Tube hydroforming process: A reference guideReview Article
| British Library Online Contents | 2012
Wrinkling Study in Tube Hydroforming Process
| British Library Online Contents | 2011
| British Library Online Contents | 2008
Additive Tooling for Tube Hydroforming
| British Library Online Contents | 2013
Analytical modelling of tube hydroforming
| Online Contents | 1999