What question did this study set out to answer?

This research aims to investigate how aging temperature affects the microstructure and properties of maraging steels.

January 20, 2026

The role of aging temperature in Co-containing and Co-free maraging steels

Key Points

This research aims to investigate how aging temperature affects the microstructure and properties of maraging steels.
Systematic comparison of aging response at 450, 500, and 550 °C
Evaluation of aging effects on Co-containing vs. Co-free Mo-modified grades
Mechanical testing to determine optimal aging temperature
Co significantly enhances precipitation kinetics and refines precipitate distribution
Co-containing alloys showed higher strength compared to Co-free alloys
Mechanical testing identified 500 °C as the optimum aging temperature

Abstract

Maraging steels are ultra-high-strength alloys whose microstructure and mechanical properties are predominantly determined by aging temperature. This study systematically compares the aging response (at 450, 500, 550 °C) of Co-containing and Co-free Mo-modified grades. Results reveal that Co significantly enhances precipitation kinetics and refines precipitate distribution, while effectively suppressing the formation of reverted austenite. This alters the strength–toughness balance, with Co-containing alloys achieving higher strength and Co-free alloys exhibiting superior ductility. Mechanical testing identified 500 °C as the optimum aging temperature. Strengthening mechanism analysis confirmed that Co promotes a synergistic combination of matrix and precipitation strengthening. This work elucidates Co’s governing role in precipitation and phase transformation, providing a foundation for designing high-performance maraging steels.

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The role of aging temperature in Co-containing and Co-free maraging steels

Key Points

Abstract

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