Novel Physical Simulation Technique Development for Multistage Metal Plastic Deformation Processing

Anton A. Naumov; Yuriy A. Bezobrazov; N.G. Kolbasnikov; Evgenii V. Chernikov

doi:10.4028/www.scientific.net/MSF.762.62

Paper Titles

Formation of an Ultrafine-Grained Austenite-Containing Microstructure from a Cold-Rolled Medium-Manganese Steel Processed Using Intercritical Annealing
p.31

The Thermomechanical Controlled Processing of High-Strength Steel Plate: A New View of Toughness Based on Modern Metallography
p.38

Comparison of Material Properties and Creep Behavior of 20MnCr5 and S275JR Steels
p.47

Control of Microstructure by MaxStrain Device
p.55

Novel Physical Simulation Technique Development for Multistage Metal Plastic Deformation Processing
p.62

Physical Simulation of Hot Rolling Steel Plate and Coil Production for Pipeline Applications
p.70

Physical Simulation of Thermomechanical Processing of Multiphase Mn-Al Steels with Retained Austenite
p.76

Designing a Novel DQ&P Process through Physical Simulation Studies
p.83

Achieving High Tensile Properties in a C-Mn-Si Structural Steel by Simulating Hot Rolling and Heat Treatment Schedules
p.89

HomeMaterials Science ForumMaterials Science Forum Vol. 762Novel Physical Simulation Technique Development...

Novel Physical Simulation Technique Development for Multistage Metal Plastic Deformation Processing

Abstract:

There are numbers of metal plastic deformation processes such as multistage hot rolling, rotational forging etc. where huge amount of strain is reached. To provide physical simulation of these processes, new tension-compression technique for Gleeble Systems was developed. All standard methods used in physical simulation with the help of Gleeble are described and compared with new technique. Several experiments are made and described in present work to show the difference between standard and developed techniques.

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Physical and Numerical Simulation of Materials Processing VII

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Periodical:

Materials Science Forum (Volume 762)

Pages:

62-69

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.762.62

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Online since:

July 2013

Authors:

Anton A. Naumov, Yuriy A. Bezobrazov, N.G. Kolbasnikov, Evgenii V. Chernikov

Keywords:

Automobile Steels, Gleeble Testing, Physical Simulation, Pipeline Steel, Plastic Deformation

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References

[1] A.I. Rudskoy, in: Nanotechnologies in metalurgy, edited by Y.S. Vasilyev/ Science, St.Petersburg (2007)

Google Scholar

[2] A.I. Rudskoy: Ultrafine and nanoscale grain structure receiving using hot and warm deformation (Science and technical journal of SPbSPU #2, St. Petersburg 2011)

Google Scholar

[3] N.G. Kolbasnikov, O.G. Zotov, I.S. Martyashov, R.V. Sulyagin: Baushinger effect research, microalloyed steels mechanical properties behaviour physical simulation during pipeline production (Steel Journal #8, St. Petersburg 2012)

DOI: 10.3103/s0967091212080049

Google Scholar

[4] N.G. Kolbasnikov, A.I. Rudskoy, A.A. Nemtinov, V.A. Lunev, D.S. Savin, A.A. Naumov: Adaptation of computer program HOT STRIP MILL MODEL (HSMM) in rolling manufacturing for structure and mechanical properties of rolling metal prediction (Science and technical journal of SPbSPU #3, St. Petersburg 2007)

Google Scholar

[5] Y.A. Bezobrazov, N.G. Kolbasnikov, A.A. Naumov: High Strength Dual-Phase Steel Structure Evolution During Hot Rolling (Materials Science & Technology 2012 Conference & Exhibition (MS&T'12), Thermal and Thermomechanical Processing Session, Pittsburgh, PA, USA 2012)

DOI: 10.3103/s0967091213070085

Google Scholar

[6] Y.A. Bezobrazov, A.A. Naumov: High Strength Dual-Phase Steel Structure Evolution During Hot Rolling (Materials of 6th international science and application conference "Innovative technologies for metalurgy and mechanical industry", Ekaterinburg 2012)

Google Scholar

[7] G.A. Thomas, J.G. Speer, and D.K. Matlock: Quenched and Partitioned Microstructures Produced via Gleeble Simulations of Hot-Strip Mill Cooling Practices in Metallurgical and Materials Transactions A, V 42, Issue 12, (2011)

DOI: 10.1007/s11661-011-0648-5

Google Scholar

[8] Y.A. Bezobrazov, N.G. Kolbasnikov: Austenite grain size behaviour of pipeline steel Х90 under static and dynamic recristallization conditions (XL Science week in SPbSPU: Part VI, St.Petersburg 2011)

Google Scholar