Mechanical Characteristics of 26H2MF and St12T Steels Under Torsion at Elevated Temperatures
Waldemar Dudda

TL;DR
This study examines how two heat-resistant steels behave under torsion at high temperatures, helping improve the design of power turbine components.
Contribution
The paper introduces new torsion test data for St12T and 26H2MF steels at elevated temperatures, enabling better yield surface modeling for turbine design.
Findings
St12T steel showed higher resistance to high temperatures than 26H2MF based on torsion tests.
Yield stress and torsional strength values were determined for both steels at various temperatures.
Combined test data allowed modeling of yield surfaces using multiple criteria, including Burzyński and Drucker-Prager.
Abstract
The concept of “material effort” appears in continuum mechanics wherever the response of a material to the currently existing state of loads and boundary conditions loses its previous, predictable character. However, within the material, which still descriptively remains a continuous medium, new physical structures appear and new previously unused physical features of the continuum are activated. The literature is dominated by a simplified way of thinking, which assumes that all these states can be characterized and described by one and the same measure of effort—for metals it is the Huber–Mises–Hencky equivalent stress. Quantitatively, perhaps 90% of the literature is dedicated to this equivalent stress. The remaining authors, as well as the author of this paper, assume that there is no single universal measure of effort that would “fit” all operating conditions of materials. Each…
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Taxonomy
TopicsMicrostructure and Mechanical Properties of Steels · High Temperature Alloys and Creep · Material Properties and Failure Mechanisms
