Multivariate Quadratic Nonlinear Regression Model of the Ultimate Pull-Out Load of Electrohydraulic Expansion Joints Based on Response Surface Methodology

Abstract: Electrohydraulic expansion joining has great potential for joining the light weight and high strength thin-walled pipes due to its high strain rate. Based on the central composite design (CCD) of response surface methodology, multiple experiments of electrohydraulic expansion joining process were performed. The multivariate quadratic nonlinear regression model between process parameters (discharge voltage, wire length, and wire diameter) and the ultimate pull-out load of the joints was established. The results… Show more

“…However, the joining of parts in different materials is a challenging task. Some conventional joining techniques are not suitable for making high-quality joints [4][5][6]. As a result, many researchers have focused on searching for new methods.…”

A Novel Method for Joining Steel/Al Tube Parts Based on Electromagnetic Force by Flat Coil

“…However, the joining of parts in different materials is a challenging task. Some conventional joining techniques are not suitable for making high-quality joints [4][5][6]. As a result, many researchers have focused on searching for new methods.…”

A Novel Method for Joining Steel/Al Tube Parts Based on Electromagnetic Force by Flat Coil

Quantifying corrosion inhibition on mild steel surface using run length statistics-based texture analysis