The use of the fully dynamic rate theory to predict void growth in metals
- 1 January 1979
- journal article
- research article
- Published by Taylor & Francis in Radiation Effects
- Vol. 41 (2) , 81-89
- https://doi.org/10.1080/00337577908236951
Abstract
A Fully Dynamic Rate Theory (FDRT) has been used in the computer code TRANSWELL to analyze the response of metals during steady-state and pulsed irradiations. This paper correlates the FDRT with experimental data on void growth in metals. It is shown that the theory is successful in predicting the swelling behavior of different metals over a wide range of temperatures, dose rates, bombarding particles and irradiation time structures. Swelling of 316 stainless steel, Aluminum and Nickel bombarded with heavy ions, neutrons, and electrons at dose rates varying from 10−6 to 10−1 dpa/second is studied for both steady-state and pulsed irradiations.Keywords
This publication has 8 references indexed in Scilit:
- Swelling of metals during pulsed irradiationJournal of Nuclear Materials, 1978
- A rate theory approach to time dependent microstructural development during irradiationRadiation Effects, 1978
- Cascade damage effects on the swelling of irradiated materialsProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1975
- The temperature dependence of nickel-ion damage in nickelJournal of Nuclear Materials, 1974
- The rate theory of swelling due to void growth in irradiated metalsJournal of Nuclear Materials, 1972
- Fluence and flux dependence of void formation in pure aluminumJournal of Nuclear Materials, 1971
- The dose dependence of swelling in electron irradiated nickelPhysica Status Solidi (a), 1971
- The growth of voids in nickel in a high-voltage electron microscopePhilosophical Magazine, 1971