Design and Key Process Simulation of a New Type of Pipe Bending Unit

Abstract: The pipe bending mechanism was analysed and a new unit was designed to solve problems of low efficiency and high incidence of defects in large-diameter products. Subsequently, the workflow of the unit was formed, and the finite element model of elbow formation was established. A pipe with D = 60.3 mm and t = 3.05 mm was used as an example to simulate the effects of key parameters on the forming quality and determine the optimization parameters. Results show that as clearance increases within in a small range, … Show more

“…In another investigation, Liu et al [47] conducted an experiment on the aluminium alloy 3A21 tubular pipe of a rectangular thin-walled cross-section and AM30 magnesium alloy tube to ascertain its cross-section distortion and the influence of production/bending die with vital factors affecting the distribution of wall thicknesses throughout the bending activity from numerical control bending. The bending of tubular sections to get an elbow can be described as a metal-plastic flow process which was carried out using similar process bending parameters [49][50][51][52][53][54]. Guo et al [55] conducted an investigation to examine the formability influence and increased axial tensions on equivalent curvature-diameter bending, excluding mandrels on 0Cr18Ni9 stainless steel tubes.…”

Numerical Study on Plastic Strain Distributions and Mechanical Behaviour of a Tube under Bending

“…In another investigation, Liu et al [47] conducted an experiment on the aluminium alloy 3A21 tubular pipe of a rectangular thin-walled cross-section and AM30 magnesium alloy tube to ascertain its cross-section distortion and the influence of production/bending die with vital factors affecting the distribution of wall thicknesses throughout the bending activity from numerical control bending. The bending of tubular sections to get an elbow can be described as a metal-plastic flow process which was carried out using similar process bending parameters [49][50][51][52][53][54]. Guo et al [55] conducted an investigation to examine the formability influence and increased axial tensions on equivalent curvature-diameter bending, excluding mandrels on 0Cr18Ni9 stainless steel tubes.…”

Numerical Study on Plastic Strain Distributions and Mechanical Behaviour of a Tube under Bending