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Effect of Sb on the Hot Ductility and Fracture Behavior of Low-Alloy Corrosion-Resistant Steel. [PDF]
Liu Z, Li W, Gao X, Du L, Wu H, Zhang R.
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Machine Learning-Based Composition Design of Functionally Graded Alloys. [PDF]
Yu Y, Wang Y, Zhao P, Zhang B, Huang Y.
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In-situ TEM observation of stacking-fault intersection-controlled partial dislocation dynamics in high-Mn austenitic steel. [PDF]
Kim SD.
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Evaluating Dermal Bioactivity of Metal Additive Manufacturing Powders Using Human <i>In Vitro</i> and <i>Ex Vivo</i> Skin Models. [PDF]
Persson A +9 more
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Metal Science and Heat Treatment, 1967
1. Low-carbon steel 10G2S1D is characterized by low stability of supercooled austenite and low hardenability. 2. The optimum heat treatment is quenching from 960–980°C, with soaking 1.5 min per mm of thickness, and tempering at 660–680°C, with soaking 4–5 min per mm of thickness, and cooling in water or in air.
A. E. Zakharov +5 more
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1. Low-carbon steel 10G2S1D is characterized by low stability of supercooled austenite and low hardenability. 2. The optimum heat treatment is quenching from 960–980°C, with soaking 1.5 min per mm of thickness, and tempering at 660–680°C, with soaking 4–5 min per mm of thickness, and cooling in water or in air.
A. E. Zakharov +5 more
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Overheating of low-alloy steels
International Metals Reviews, 1984AbstractWhen low-alloy steels are reheated to high temperatures for forging, a deterioration in the ambient-temperature mechanical properties after a full heat treatment may be observed. This is linked with the appearance of intergranular facets on the fracture surface.
G. E. Hale, J. Nutting
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High-Strength, Low-Alloy Steels
Science, 1980High-strength, low-alloy (HSLA) steels have nearly the same composition as plain carbon steels. However, they are up to twice as strong and their greater load-bearing capacity allows engineering use in lighter sections. Their high strength is derived from a combination of grain refinement; precipitation strengthening due to minor additions of vanadium,
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Corrosion of Carbon and Low Alloy Steels
2010Due to the breadth of the subject, it is impossible to cover comprehensively the whole range of corrosion applications and processes for carbon and low alloy steels. Indeed, for many topics of interest, other chapters elsewhere in this book will provide more detailed, and in-depth, treatments.
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Gas-Carburizing Kinetics of a Low-Alloy Steel
Metallurgical and Materials Transactions A, 2009Gas-carburizing kinetics of a low-alloy steel (Pyrowear 53) was investigated by thermogravimetric experiments. Kinetic curves were modeled by adapting the approximate integral method, and the diffusion coefficient of carbon as well as the rate constant of the surface reaction were estimated.
NOBILI, LUCA GIAMPAOLO +2 more
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