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Metallurgical Design of High Strength/High Toughness Steels
Materials Science Forum, 2012The proper balance between yield strength, YS, and ductile to brittle transition temperature, DBTT, has been the main concern during development of high strength engineering steels and the effect of microstructure on impact toughness has attracted a great attention during the last decades.
DI SCHINO, ANDREA, M. Guagnelli
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Dynamic Strength Estimates for a High Strength, Experimental Steel
Volume 4: Fluid Structure Interaction, 2005For several years, the Air Force has been engaged in the development of high velocity air to surface missiles. The objective is to replace larger, high mass weapons with smaller, more versatile projectiles that can achieve the same goals. The reduction of mass requires that the impact velocity be increased to meet the performance requirements. This has
K. L. Torres +4 more
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2013
Abstract This chapter provides an overview of the nomenclature, generations, and thermomechanical processing of advanced high-strength steels (AHSS) and provides information on the development of microstructure. It also presents a review of the mechanical property trends of AHSS.
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Abstract This chapter provides an overview of the nomenclature, generations, and thermomechanical processing of advanced high-strength steels (AHSS) and provides information on the development of microstructure. It also presents a review of the mechanical property trends of AHSS.
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Metal Science and Heat Treatment, 1968
Abstract : Reviews fracture, mechanical properties, stress corrosion and composition relations for maraging steel.
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Abstract : Reviews fracture, mechanical properties, stress corrosion and composition relations for maraging steel.
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Structural strength of high-strength steel Kh5MSFA
Metal Science and Heat Treatment, 19911. The operating capacity of high-strength steel 38Kh5MSFA in structures with the same ultimate breaking strength depends markedly on the structural state. A high and stable structural strength (σbre/σf ≥ 1.0) with ductile breaking of model vessels is achieved after quenching and tempering at 300°C.
V. P. Il'ina, R. I. �ntin
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Abstract This chapter presents the nomenclature, generations, thermomechanical processing, microstructure development, and mechanical properties of advanced high-strength steels.
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High-Strength Structural and High-Strength Low-Alloy Steels
1990Abstract This article considers four types of high-strength structural steels: heat-treated low-alloy steels, as-rolled carbon-manganese steels, heat-treated (normalized or quenched and tempered) carbon steels, and as-rolled high-strength low-alloy (HSLA) steels (which are also known as microalloyed steels).
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High-Strength Structural and High-Strength Low-Alloy Steels
1998Abstract This article describes the types of steels, including high-strength structural carbon steels and high-strength low-alloy steels (HSLA), available in all standard wrought forms such as sheet, strip, plate, structural shapes, bars, bar-size shapes.
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2013
Growth kinetics of Widmanstatten austenite in ferrite in high-strength low-alloy steel is based on a model that describes diffusion controlled growth of precipitates with shapes approximating to needles or plates, where all the factors that may influence the precipitate growth, i.e.
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Growth kinetics of Widmanstatten austenite in ferrite in high-strength low-alloy steel is based on a model that describes diffusion controlled growth of precipitates with shapes approximating to needles or plates, where all the factors that may influence the precipitate growth, i.e.
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