M. Gensamer scite author profile

M. Gensamer

5Publications

36Citation Statements Received

1Citation Statement Given

How they've been cited

112

How they cite others

Affiliations

Colorado School of Mines, Columbia University, Carnegie Institution for Science

Publications

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The Tensile Properties of Pearlite, Bainite, and Spheroidite

Gensamer¹,

Pearsall²,

Pellini³

et al. 2012

Metallogr. Microstruct. Anal.

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The tensile properties of four steels have been determined as a quantitative function of the measured dimensions of the aggregate structures pearlite and spheroidite, and of the austenite decomposition temperature for the structures pearlite and bainite. Studies of the recalescence effect have been performed in connection with the measurement of the reaction temperature. The strength indices (stress at corresponding strains, tensile strength, hardness) vary linearly with the reaction temperature and the logarithm of the dimensions of the aggregate. Mixtures of pearlite and bainite are intermediate in strength. The ductility indices are low for mixed structures, coarse pearlite and low temperature bainite; higher for bainite and pearlite in the middle of the reaction temperature range for each. It has been observed that spheroidized eutectoid specimens have a typical mild steel yield point; pearlitic specimens of the same tensile strength do not. The spacing of pearlite is shown to be proportional to the carbon diffusion coefficient in austenite, the logarithm of the spacing plotting as a straight line against the reciprocal of the absolute reaction temperature, with the same slope as a similar plot for the diffusion coefficient. Because of this it is concluded that a measurement of the spacing at one temperature permits its calculation at another, using the measured energy of activation for the diffusion of carbon in the steel. A rule of strength for aggregates is proposed, based on these studies, as follows: The resistance to deformation of a metallic aggregate consisting of a hard phase dispersed in a softer one is proportional to the logarithm of the mean straight path through the continuous phase. The rule works for a comparison of the properties of pearlite and spheroidite, as well as for pearlite alone over a wide range of spacings, and extrapolates to reasonable particle sizes for the finest spheroidites (tempered martensite). A simple explanation of the semilogarithmic character of the relationship is advanced.Keywords Microstructure Á Tensile properties Á Mechanical properties Á Pearlite Á Bainite This paper is the second of a series dealing with the quantitative correlation of the microstructures observed in metals and alloys with the mechanical properties of these structures. It deals with the mechanical properties of structures consisting of a hard phase dispersed in a soft one, and particularly with those aggregate structures in steel known as pearlite, spheroidite, and bainite. The structure of pearlite is lamellar; the particles in spheroidite are approximately spheroidal, while the fine structure of bainite is still uncertain. Work on the specific effect of various alloying elements in solution in ferrite is in progress, and work on the effect of grain size on the properties of ferrite will be reported in the near future. It is hoped that these studies will help in the development of a theory of the strength of metals and alloys, and perhaps be of use in their practical utilization.Two y...

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Strength and Ductility

Gensamer¹

2017

Metallogr. Microstruct. Anal.

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Lüders band motion in iron

Prewo

Gensamer

1972

Metall Trans

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Plastic deformation and Lüders band propagation in α-brass

Balasubramanian¹,

Li²,

Gensamer³

1974

Materials Science and Engineering

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The application of strain-rate cycling data to thermally activated deformation

Bernstein

Gensamer

1967

Acta Metallurgica

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M. Gensamer

The Tensile Properties of Pearlite, Bainite, and Spheroidite

Strength and Ductility

Lüders band motion in iron

Plastic deformation and Lüders band propagation in α-brass

The application of strain-rate cycling data to thermally activated deformation

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