Modelling of Titanium-Steel Bimetallic Composite Behaviour under Mechanical Cyclic Loading
p.460
p.460
Modelling the Magnetic Characteristics and Temperature Influence on Construction Steels
p.466
p.466
Numerical Modelling of Ploughshares Rolling Process from Scrapped Railway Rail
p.472
p.472
Numerical Modelling of the Cooling Ability of Device for the Plates Accelerated Cooling Process
p.478
p.478
Physical Simulations of the Controlled Rolling Process of Plate X100 with Accelerated Cooling
p.484
p.484
Research of Spheroidization Processes of W-Re Powders
p.490
p.490
Surfaces Modification of Al-Cu Alloys by Plasma-Assisted CVD
p.496
p.496
The Active Thermography Method as Used to Assess the Bearing of Temperature on Thermophysical Properties of Superalloy of a Gas-Turbine Blade
p.502
p.502
The Analysis of Al-Cu Bimetallic Bars Bond Layers Joined by the Explosive Method
p.508
p.508
Physical Simulations of the Controlled Rolling Process of Plate X100 with Accelerated Cooling
Abstract:
The research presented in the current paper was carried out for the experimental steel designed for plate which meets the requirements for grade X100 according to API5L. Physical modeling of the rolling process was carried out using the GLEEBLE 3800 simulator. The tested steel is fine-grained constructional steel for making tubes for gas pipelines with the working pressure higher than 15 MPa. The fine-grained structure guarantees excellent plastic properties as well as high impact toughness. After rolling the steel should obtain the minimal yield point of 690 MPa and tensile strength over 760 MPa.
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Info:
Periodical:
Solid State Phenomena (Volume 199)
Pages:
484-489
Citation:
Online since:
March 2013
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