A phenomenological structural approach to high-temperature creep

Autor:	B. A. Movchan, E. V. Dabizha, L. M. Nerodenko, O. G. Kasatkin
Rok vydání:	1974
Předmět:	Materials science technology industry and agriculture Sigma Thermodynamics chemistry.chemical_element Kinetic energy Exponential function Nickel Creep chemistry Mechanics of Materials Solid mechanics Forensic engineering Hardening (metallurgy) Deformation (engineering)
Zdroj:	Strength of Materials. 6:1041-1046
ISSN:	1573-9325 0039-2316
DOI:	10.1007/bf01528260
Popis:	1. Relationships have been derived within a structural phenomenological approach to describe high-temperature plastic deformation; examples have been taken for pure nickel, nickel-iron alloys, and chromium-nickel steel to confirm the model and the method of calculation. 2. High-temperature plastic deformation at constant stress is determined by the following: a) the kinetic coefficients\(\bar t\) and\(\bar \tau \), which characterize the rates of hardening and recovery together with the exponential dependence on stress and temperature; b) the deformation capacity of the material e1 in the absence of recovery. 3. Methods have been proposed for calculating the true activation energies of hardening and recovery, as well as the microscopic elastic limit\(\bar \sigma \).
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::9646240004d02d76877a319efe99183d https://doi.org/10.1007/bf01528260 Zobrazit plný text záznamu Full text from SpringerLink