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Meeting	2020 TMS Annual Meeting & Exhibition
Symposium	Advanced High Strength Steels IV
Presentation Title	Effect of High Temperature Processes on Dual Phase Steel Manufacture
Author(s)	Bharath Bandi, Joost van Krevel, Sukalpan Nandi, Prakash Srirangam
On-Site Speaker (Planned)	Bharath Bandi
Abstract Scope	This research work demonstrates the interplay between ferrite recrystallization, grain growth, and austenite formation processes during Dual-Phase steel manufacture of hot rolled (HR) and cold reduced steels (CR). Heat treatments were carried out at inter-critical temperatures using varying heating rates. Hardness results show that the ferrite grain growth is dominating process for both CR and HR steel at lower inter-critical temperature (715-730 0C) and lower heating rates (0.2 0C/s). With increasing heating rates (~50.5 0C/s) for the same inter-critical temperatures, ferrite grain growth became less progressive, but ferrite recrystallization and austenite formation occurred simultaneously for CR steels, while in HR steels, only austenite formation was observed. However, at higher temperatures and higher holding times (>100s) austenite formation became the dominating process for both the steels. For higher heating rates, hardness values of CR steels were found to be decreasing first and then increasing with increase in holding times.
Proceedings Inclusion?	Planned: Supplemental Proceedings volume

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Crystal Plasticity Finite Element Simulations of the Planar Anisotropy of Q&P Steels

Development of Hot-rolled TRIP Steel

Development of Quenching and Partitioning Plate Steel Intended For Wear and Toughness Applications

Effect of Composition on Properties of Age-hardenable Fe-Mn-Al-C Alloys

Effect of High Temperature Processes on Dual Phase Steel Manufacture

Effect of Pre-straining on High Cycle Fatigue and Fatigue Crack Propagation Behaviors of CP (Complex Phase) Steel

Effect of Si on Microstructure and Mechanical Properties of FeMnAlC Lightweight Steels

Effect of Strain Path on the Deformation Characteristics of Austenite-containing Advanced High Strength Steels

Effect of Strain Rate on Thinning and Failure Behavior of 22MnB5 Steel During Hot Stamping Condition

Effects of Prior Austenite Grain Size on Microstructure of Bainite and Retained Austenite in TRIP Steel

End to End Simulation and Genetic Optimization for the Design of Medium Mn Steels

Examination of Cementite+Austenite+Ferrite Multiphase Steel Produced by ART Annealing

Flash Stamping by Using Multistep Partitioning

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Impact of Cr and Mn on the Hydrogen-carbide Interaction in High-strength Steels

Improvement of Hydrogen Induced Cracking Resistance by Tempering of an X65 Pipeline Steel for Sour Service

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Increased Damage in Dual Phase Steels under Dynamic Strain Aging Conditions

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J-4: Producing a 1200 MPa Complex-phase Advanced High Strength Steel

J-5: Solutions to Hydrogen Embrittlement of Ultra-high Strength Press-hardened Steel for Automotive Application

J-6: The effect of alloy elements on the peritectic range of Fe-C-Mn-Si steels

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Low-Density Steels: Microstructure Evolution and Tensile Behavior in Novel FE-MN-AL-C Steels

Measurement and Prediction of the Transformation Strain in High Strength Steels

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Microscale Insight into Deformation and Fracture of Ultra-high Strength Martensitic Steels

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