Forming rate dependence of novel austenitising bending process for a high-strength quenched micro-alloyed steel: experiments and simulation
Date published
2025-02-06
Free to read from
2025-03-04
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Journal Title
Journal ISSN
Volume Title
Publisher
MDPI
Department
Type
Article
ISSN
2227-9717
Format
Citation
Lu Y, Wang J, Li Z, et al., (2025) Forming rate dependence of novel austenitising bending process for a high-strength quenched micro-alloyed steel: experiments and simulation. Processes, Volume 13, Issue 2, February 2025, Article number 441
Abstract
This austenitising bending investigation was carried out in a vacuum environment with the forming rates of 1, 10, and 100 mm/min under a certain bending temperature of 900 °C by a thermomechanical simulator. The enhanced strength at the accelerated forming rate and on the compression/tension zones throughout the thickness of the bent plates was discussed in detail in terms of dislocation pile-up, smaller prior austenite grain size, dynamic recrystallisation, smaller martensite packet, and stress-neutral layer. Since the simulation results were validated to match the experimental trend, this investigation could be applied as a valuable reference to simulate the practical manufacturing process of railway fasteners.
Description
This article belongs to the Special Issue Processing, Manufacturing and Properties of Metal and Alloys
Software Description
Software Language
Github
Keywords
4014 Manufacturing Engineering, 40 Engineering, 4004 Chemical engineering, Si–Cr micro-alloyed steel, austenitising bending, FE modelling, microstructure, mechanical properties, parent grain reconstruction
DOI
Rights
Attribution 4.0 International