Technical Research of Alloy Bar’s Rolling with Cooling

Li Qun Wei; Yan Hui Guo

doi:10.4028/www.scientific.net/AMR.239-242.2058

Paper Titles

Preparation and Performance of Co₃O₄/Polyaniline Nano-Composite for Supercapacitor
p.2042

Electrochemical Determination of Nitrite Based on Gd Doped Nano Titanium Dioxide-Modified Gold Electrode
p.2046

Characteristics and Mechanism for Host–Guest Recognition of Isopropanol Vapor Based on Calixarene Supramolecules
p.2050

Calixarene Molecules Immobilized on Gold Substrates of QCM Sensors Based on Self-Assembled Monolayer Technology
p.2054

Technical Research of Alloy Bar’s Rolling with Cooling
p.2058

The Research on the Effect of Drilling Fluids Additives on Rate of Penetration(ROP)
p.2064

Room-Temperature Electrical Conductivity Property of TiN/O′-Sialon Multiphase Ceramics
p.2072

New Hypercrosslinked Polymer Adsorbents for Solid Phase Extraction of Polar Compounds
p.2076

Damage Analysis for Coal Lance in Blast Furnace
p.2080

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 239-242Technical Research of Alloy Bar’s Rolling with...

Technical Research of Alloy Bar’s Rolling with Cooling

Abstract:

The rolling force model and energy calculation equation for 20CrMnTi steel are constructed based on practically measured data and theoretical math model. In the practical production, the heating temperature of 20CrMnTi steel is lowered from 1150°C to 1050°C, and in consequence, the total energy consumption is reduced by 5.81%. Moreover, the mill and motor abilities are still met and the rolled goods’ properties and surface quality are still guaranteed. Thus, energy saving is successfully realized.