Further comments on “An investigation of the precipitation-hardening process in aluminum alloy 2219 by means of sound wave velocity and ultrasonic attenuation”
- 31 December 1983
- journal article
- other
- Published by Elsevier in Materials Science and Engineering
- Vol. 61 (3) , 283-285
- https://doi.org/10.1016/0025-5416(83)90111-8
Abstract
No abstract availableKeywords
This publication has 14 references indexed in Scilit:
- Reply to comments on “An investigation of the precipitation-hardening process in aluminum alloy 2219 by means of sound wave velocity and ultrasonic attenuation”Materials Science and Engineering, 1983
- Comments on “An investigation of the precipitation-hardening process in aluminum alloy 2219 by means of sound wave velocity and ultrasonic attenuation”Materials Science and Engineering, 1983
- An investigation of the precipitation-hardening process in aluminum alloy 2219 by means of sound wave velocity and ultrasonic attenuationMaterials Science and Engineering, 1982
- Experimental and theoretical determinations of the yield stress of an alloy containing plate-like precipitates: θ′ phase in an Al-4wt.%Cu alloyMaterials Science and Engineering, 1981
- The elastic accommodation of semicoherent θ′ in Al4wt.%Cu alloyActa Metallurgica, 1978
- Interfacial structure of platelike precipitatesPhilosophical Magazine, 1974
- Slip in aluminum crystals containing strong, plate-like particlesActa Metallurgica, 1970
- Antiphase domain boundaries in ordered θ' (CuAl2) precipitates in an Al-4% Cu alloyActa Metallurgica, 1970
- The Effect of θ' Phase on the Plastic Deformation of an Age-Hardenable Al–Cu 4% AlloyJournal of the Physics Society Japan, 1960
- Direct observation of the strain field produced by coherent precipitated particles in an age-hardened alloyPhilosophical Magazine, 1958