Experimental Study on Conduction Heating of Ultra-High Strength Boron Steel

Wei Kang Liang; Ming Lin Zhou; Hui Qiang Liu; Yi Sheng Zhang

doi:10.4028/www.scientific.net/AMR.898.185

Paper Titles

Microstructures in Solidification Simulation of Electron Beam Scanning with MC in Molten Pool
p.168

Fabrication of Hexagonal Ni Micro/Nano Plates by a Facile Hydrothermal Reduction Route
p.173

Preparation of Epoxy Grafted Acrylate Composite Latex and its Film Property
p.177

Study on the Corrosion Resistance of Slag α-Sialon Ceramics to NaOH and HNO₃
p.181

Experimental Study on Conduction Heating of Ultra-High Strength Boron Steel
p.185

The Uniform Elongation Experiment of Web and Flange of H-Beam
p.189

H-Beam Cross Sectional Microstructure Influence on its Mechanical Properties
p.193

The Rolling Deformation Characteristics of Rail with Corrugated Web
p.197

The Influence of Rolling Parameters on Metal Flow Law of H-Beam
p.201

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 898Experimental Study on Conduction Heating of...

Experimental Study on Conduction Heating of Ultra-High Strength Boron Steel

Abstract:

Conduction heating overcomes the shortage of the furnace, due to rapid heating and high energy efficiency. The heating experiment of ultra-high strength boron steel (LG1500HS) of a rectangular blank was implemented on the conduction heating system. The variations of the average temperature rising rate, uniform temperature region and energy efficiency were investigated under the non-heating-retaining condition. The results show that the average temperature rising rate, uniform temperature region and energy efficiency are 44.5°C/s, 225 mm and 71.6%, respectively.