Search Documents
Search Again
Search Again
Refine Search
Refine Search
- Relevance
- Most Recent
- Alphabetically
Sort by
- Relevance
- Most Recent
- Alphabetically
-
Technical Papers and Discussions - Steelmaking - Role of Thermochemical Factors in Basic Open Hearth Production Rate (Metals Tech., October 1948 T.P. 2451)By B. M. Larsen, T. E. Brower
Introduction and Summary By "thermochemical factors" we refer to those variables which affect the net heat which must be put into the bath in order to make a heat of steel from any given set of charge
Jan 1, 1949
-
Technical Papers and Discussions - Steelmaking - Structure, Segregation and Solidification of Semikilled Steel Ingots (Metals Tech., September 1947, T.P. 2273) (with discussion)By Michael Tenenbaum
The importance of semikilled steel as a high tonnage grade has long been recognized. The increasing severity of the applications for which semikilled steel is used makes it desirable to obtain further
Jan 1, 1949
-
Technical Papers and Discussions - Steelmaking - Structure, Segregation and Solidification of Semikilled Steel Ingots (Metals Tech., September 1947, T.P. 2273) (with discussion)By Michael Tenenbaum
The importance of semikilled steel as a high tonnage grade has long been recognized. The increasing severity of the applications for which semikilled steel is used makes it desirable to obtain further
Jan 1, 1949
-
Technical Papers and Discussions - Steelmaking - The Mechanism of the Carbon-oxygen Reaction in Steelmaking (Metals Tech., Jan. 1947, T. P. 2129, with discussion)By C. E. Sims
The carbon-oxygen reaction without doubt is the basic reaction in steelmaking. It is important on several counts: In the first place, carbon is the element that distinguishes steel from iron. It is th
Jan 1, 1948
-
Technical Papers and Discussions - Steelmaking - The Mechanism of the Carbon-oxygen Reaction in Steelmaking (Metals Tech., Jan. 1947, T. P. 2129, with discussion)By C. E. Sims
The carbon-oxygen reaction without doubt is the basic reaction in steelmaking. It is important on several counts: In the first place, carbon is the element that distinguishes steel from iron. It is th
Jan 1, 1948
-
Technical Papers and Discussions - Steelmaking - Training of Metallurgical Engineers in the Steel Industry Metals Tech., Sept. 1946, T. P. 2051)By E. C. Wright
The following article is based on observation of college graduates entering the steel industry in technical work made during the Past 25 Years, the first five of which were spent as a college instruct
Jan 1, 1948
-
Technical Papers and Discussions - Steelmaking - Training of Metallurgical Engineers in the Steel Industry Metals Tech., Sept. 1946, T. P. 2051)By E. C. Wright
The following article is based on observation of college graduates entering the steel industry in technical work made during the Past 25 Years, the first five of which were spent as a college instruct
Jan 1, 1948
-
Technical Papers and Discussions - Sulphur in Ironmaking - Kinetics of the Transfer of Sulphur across a Slag-metal Interface (Metals Tech., June 1948, T.P. 2367) (with discussion)By Lo-Ching Chang, K. M. Goldman
The kinetics and mechanism of transfer of a constituent across a slag-metal interface are fundamentally important because many metallurgical processes involve the existence of a slag phase and a metal
Jan 1, 1949
-
Technical Papers and Discussions - Sulphur in Ironmaking - Kinetics of the Transfer of Sulphur across a Slag-metal Interface (Metals Tech., June 1948, T.P. 2367) (with discussion)By K. M. Goldman, Lo-Ching Chang
The kinetics and mechanism of transfer of a constituent across a slag-metal interface are fundamentally important because many metallurgical processes involve the existence of a slag phase and a metal
Jan 1, 1949
-
-
-
Technical Papers and Discussions - Transformation of Austenite - Anisothermal Decomposition of Austenite (Metals Tech., Aug. 1946, T. P 2008, with discussion)By J. H. Hollomon, L. D. Jaffe, M. R. Norton
In the practical heat-treatment of steel the decomposition of austenite usually occurs during cooling rather than at constant temperature. Nevertheless, the course of this decomposition has generally
Jan 1, 1947
-
Technical Papers and Discussions - Transformation of Austenite - Anisothermal Decomposition of Austenite (Metals Tech., Aug. 1946, T. P 2008, with discussion)By L. D. Jaffe, M. R. Norton, J. H. Hollomon
In the practical heat-treatment of steel the decomposition of austenite usually occurs during cooling rather than at constant temperature. Nevertheless, the course of this decomposition has generally
Jan 1, 1947
-
Technical Papers and Discussions - Transformation of Austenite - Anisothermal Formation of Rainite and Proeutectoid Constituents in Steels (Metals Tech., December 1947, T.P. 2290) (with discussionBy Leonard D. Jaffe
In recent years, the advantages of tempered martensite as a microstructure for steel parts have been well established. For parts that must not fracture brittlely when loaded at high rates, at low temp
Jan 1, 1949
-
Technical Papers and Discussions - Transformation of Austenite - Anisothermal Formation of Rainite and Proeutectoid Constituents in Steels (Metals Tech., December 1947, T.P. 2290) (with discussionBy Leonard D. Jaffe
In recent years, the advantages of tempered martensite as a microstructure for steel parts have been well established. For parts that must not fracture brittlely when loaded at high rates, at low temp
Jan 1, 1949
-
Technical Papers and Discussions - Transformation of Austenite - Austenite Transformation Above and Within the Martensite Range (Metals Tech., September 1947, T.P. 2283) (with discussion)By M. Cohen, R. T. Howard
The purpose of this paper is to direct attention to the lower part of the austenite transformation diagram, or TTT curves, where considerable uncertainty still exists as to the blending of the bainite
Jan 1, 1949
-
Technical Papers and Discussions - Transformation of Austenite - Austenite Transformation Above and Within the Martensite Range (Metals Tech., September 1947, T.P. 2283) (with discussion)By M. Cohen, R. T. Howard
The purpose of this paper is to direct attention to the lower part of the austenite transformation diagram, or TTT curves, where considerable uncertainty still exists as to the blending of the bainite
Jan 1, 1949
-
Technical Papers and Discussions - Transformation of Austenite - Equilibrium Relations in Medium-alloy Steels (Metals Tech., Jan. 1946, T. P. 1856, with discussion)By Clarence Zener
The heat-treatment of steels will not pass from the stage of an art into that of a science until the mechanism of the phase transformations associated therewith is thoroughly understood. Such an under
Jan 1, 1947
-
Technical Papers and Discussions - Transformation of Austenite - Equilibrium Relations in Medium-alloy Steels (Metals Tech., Jan. 1946, T. P. 1856, with discussion)By Clarence Zener
The heat-treatment of steels will not pass from the stage of an art into that of a science until the mechanism of the phase transformations associated therewith is thoroughly understood. Such an under
Jan 1, 1947
-
Technical Papers and Discussions - Transformation of Austenite - Some Factors Affecting Edgewise Growth of Pearlite (Metals Tech., Dec. 1945, T. P. 1857, with discussion)By W. H. Brandt
ThEre has been much progress in the last two decades in understanding the hardenability of steel. Roughly, the progress has been along two lines, which may be designated as empirical and fundamental.
Jan 1, 1947