Kip O. Findley scite author profile

Extensive research efforts are underway globally to develop new steel microstructure concepts for high-strength sheet products, driven largely by the need for lightweight automotive structures in support of designs to enhance occupant safety and energy efficiency. One promising approach, involving the quenching and partitioning (Q&P) process, was introduced in the predecessor to this paper series, Austenite Formation and Decomposition, 2003.[1] Development of the Q&P process has continued through to the present, and the current status is highlighted in this article, along with some alternative approaches that are also receiving attention. Special emphasis is placed on the synthesis and interpretation of the fundamental phase transformation responses, perspectives related to alloying and processing, and the resulting microstructure and properties. Key mechanistic issues are discussed, including carbide formation and suppression, migration of the martensite/austenite interface, carbon partitioning, and partitioning kinetics.

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Thermal and mechanical stability of retained austenite surrounded by martensite with different degrees of tempering

Hidalgo

Findley

Santofimia

2017

Materials Science and Engineering: A

173

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Quantitative assessment of the effects of microstructure on the stability of retained austenite in TRIP steels

2013

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Modeling the fatigue crack growth of X100 pipeline steel in gaseous hydrogen

Amaro¹,

Rustagi²,

Findley³

et al. 2014

International Journal of Fatigue

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Mechanisms for improving tensile properties at elevated temperature in fire-resistant steel with Mo and Nb

Shin

Moon

et al. 2020

Materials & Design

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Kip O. Findley

Analysis of Microstructure Evolution in Quenching and Partitioning Automotive Sheet Steel

Thermal and mechanical stability of retained austenite surrounded by martensite with different degrees of tempering

Quantitative assessment of the effects of microstructure on the stability of retained austenite in TRIP steels

Modeling the fatigue crack growth of X100 pipeline steel in gaseous hydrogen

Mechanisms for improving tensile properties at elevated temperature in fire-resistant steel with Mo and Nb

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