A. Querales scite author profile

Abstract-Many thermomechanical treatments (TMT) have been applied in the past to alloys in order to improve the balance between various static mechanical properties. The current research has applied a given type of T M T to the improvement of fatigue behavior in eutectoid steel. The TMT involved the cold rolling of annealed eutectoid steel to a reduction in thickness of 75% followed by rapid heating in liquid lead to a temperature just above the A , temperature for a short time period and an air cool to room temperature. This type of TMT produces very oriented cementite in recrystallized ferrite. Plane bending cantilever fatigue tests with constant maximum load were run at 30 Hz and zero mean stress (R = -1.0). In terms of S-N fatigue curves the annealed condition is inferior to both the TMT and cold rolled conditions, however, there is no apparent advantage of the TMT over the &Id rolled condition. There is, however, a considerable advantage in the TMT which becomes evident with normalization of all S-N curves with respect to the ultimate tensile strength. One thus finds that the TMT is quite superior, on an equivalent strength basis, to both the cold rolled and annealed conditions. The same was true on a basis of hardness normalization. This means that by TMT one can produce fatigue properties in a material of much higher formability which are equivalent to or better than those in a cold rolled material. Samples oriented in the cross-roll direction had total fatigue lives longer than for those oriented in the roll direction. This is explained in terms of mechanical fibering of pearlite colonies and inclusions, and by a crystallographic texturing of the ferrite matrix.TMT strength is a result of austenite grain size refinement, reduction of interlamellar spacing, fiber strengthening and both solid solution and precipitate hardening.

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Thermomechanically treated eutectoid steel an in situ composite material

Querales

Byrne

1979

Scripta Metallurgica

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Textural Studies of Thermomechanically Treated Eutectoid Steel

Querales

Byrne

1979

Texture, Stress, and Microstructure

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Abstract" The important class of metallurgical treatments known as thermomechanical treatment (TMT) is especially appropriate for textural studies because the crystallographic disposition of the matrix largely determines the final properties of the material. The current work utilized regular and inverse pole figure measurements of the ferrite matrix in TMT eutectoid steel to monitor the effects of various processing steps such as degree of cold rolling and the temperature and time of rapid annealing. Textural results provided the key to under, standing fatigue life differences between longitudinally and transversely oriented sheet samples. The most favored ferrite slip system was not well oriented to act in the transverse samples. This in turn retarded the slip which nucleates fatigue cracking and hence extended the total fatigue life of transverse samples.i.

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A. Querales

Effects of thermomechanical treatments on the mechanical behavior of eutectoid steel

Improvement of Fatigue Life of 1080 Steel by Thermomechanical Processing

Thermomechanically treated eutectoid steel an in situ composite material

Textural Studies of Thermomechanically Treated Eutectoid Steel

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