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The Embrittlement of Low-Carbon Steel

Proceedings of the Institution of Mechanical Engineers, 1934
The paper deals with those changes in the mechanical properties of steel having a low carbon content, which occur as a result of quenching from temperatures up to 900 deg. C. Attention is directed mainly to brittleness, especially to that resulting from ageing at atmospheric temperature, which the authors term “age embrittlement.” The range of ...
F. C. Lea, R. N. Arnold
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Corrosion of Carbon and Low Alloy Steels

2010
Due 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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Low-Carbon Steels

2015
This chapter discusses various alloying and processing approaches to increase the strength of low-carbon steels. It describes hot-rolled low-carbon steels, cold-rolled and annealed low-carbon steels, interstitial-free or ultra-low carbon steels, high-strength, low-alloy (HSLA) steels, dual-phase (DP) steels, transformation-induced plasticity (TRIP ...
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Reasons for the low ductility of low-carbon steel

Metal Science and Heat Treatment, 1972
The possible reasons for the low ductility of low-carbon killed steel are as follows: high contamination of the steel with nonmetallic inclusions. The average total concentration proved to be higher in samples with unsatisfactory results from cold bending tests (0.151% as opposed to 0.103%); uneven distribution of nonmetallic inclusions.
A. F. Belyakova   +6 more
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Low-temperature bainite in low-carbon steel

Materials Science and Engineering: A, 2014
Abstract The microstructures and the mechanical properties of 30MnSiCrAlNiMo low-carbon steel were systematically optimized by a series of heat-treatment processes, and the heat-treatment process of low-temperature bainite in low-carbon steel was explored.
X.Y. Long   +4 more
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A Comparative Investigation of Warm Rolled IF Steel and Low Carbon Steel

Materials Science Forum, 2002
X-ray and Electron metallography (SEM, OIM) has been used to examine the texture and substructure of warm rolled IF (Ti microalloyed Interstitial Free) steel and Low Carbon steel (LCS) after rolling reduction of 75% in a single pass at 700C. Although the rolling texture is similar for both the IF steel and LCS, the microstructure is very different ...
Quadir, MZ, Duggan, BJ
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Low-Carbon Irons and Steels

1999
Abstract This chapter discusses the composition and structure of low-carbon irons and steels, particularly those used in the production of hot-rolled strip. It describes the manufacturing process from the production of ingots to coiling, and it explains how finishing and coiling temperatures affect ferritic grain size and the ...
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Low-Carbon Structural Steels

1999
Abstract This chapter covers a broad range of low-carbon steels optimized for structural applications. Low-carbon structural steels are generally considered the highest-strength steels that can be welded without undue difficulty, even in the field.
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Fusion of Low Carbon Steel Scrap in the Middle Carbon Steel Melt

Kovine zlitine tehnologije, 1996
A quasi three-dimensional mathematical model of fusion of cylindrical steel scrap in converter melt was developed. The model was solved using the implicit altermating direction method. The obtained algorithm was programmed in ASCII FORTRAN for the computer SPERRY 1100/72.
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Blanking of Low-Carbon Steel

2006
Abstract This article discusses the production of blanks from low-carbon steel sheet and strip in dies in a mechanical or hydraulic press. It describes the cutting operations that are done by dies in presses to produce blanks. The applications of blanking methods are described with examples.
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