Bake Hardening Properties of Ultra-Rapid Annealed Ultra-Low Carbon Bake Hardening Steel

De Chao Xu; Jun Li; Yan Dong Liu; Xiang Wei Kong

doi:10.4028/www.scientific.net/AMR.941-944.127

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Low Temperature Superplasticity of 5083 Aluminum Alloy
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Prediction of TCP Phases in Nickel-Base Superalloys
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Bake Hardening Properties of Ultra-Rapid Annealed Ultra-Low Carbon Bake Hardening Steel
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Study on Microstructure and Properties of X80 Pipeline Steel
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Study on Microstructure and Property in Heat-Affected Zone of X80 Pipeline Steel
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Thermal Simulation Study of CGHAZ Austenite Grain Growth Behavior of X80 Pipeline Steel
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Bake Hardening Properties of Ultra-Rapid Annealed Ultra-Low Carbon Bake Hardening Steel

Abstract:

Ultra-rapid annealing (URA) experiments were carried out to study the effect of heating rate on the recrystallization kinetics, grain size and Bake-hardening (BH) properties of Ultra-low carbon Bake Hardening Steel annealing with different heating rates followed by gas cooling (about 100°C/s) with variation of soaking times. It was shown that the degree of grain refinement is controlled by the parameters of heating rates and soaking time of the Ultra-rapid annealing cycles. For the steels investigated, the final grain size decreases with increasing heating rate and increases with increasing soaking time. The effects of dislocation density, varied by means of non-temper rolling reduction and a temper rolling reduction of 1% on the Bake-hardening properties were investigated within an aging temperature of 170°C for 20 min.