Citations (34)
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Read on this site (7)
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G. Eggeler & W. Blum. (1981) Coarsening of the dislocation structure after stress reduction during creep of NaCl single crystals. Philosophical Magazine A 44:5, pages 1065-1084.
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Articles from other publishers (27)
Xiazi Xiao, Shilin Li & Long Yu. (2022) A general steady-state creep model incorporating dislocation static recovery for pure metallic materials. International Journal of Plasticity 157, pages 103394.
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L. Shi & D.O. Northwood. (1994) Strain-hardening and recovery during the creep of pure polycrystalline magnesium. Acta Metallurgica et Materialia 42:3, pages 871-877.
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Longquan Shi & D. O. Northwood. (2004) Dislocation network models for recovery creep deformation. Journal of Materials Science 28:22, pages 5963-5974.
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Taira Suzuki, Shin Takeuchi & Hideo YoshinagaTaira Suzuki, Shin Takeuchi & Hideo Yoshinaga. 1991. Dislocation Dynamics and Plasticity. Dislocation Dynamics and Plasticity
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J. D. Whittenberger & R. V. Krishnan. (1984) A simple application of the Bailey-Orowan creep model to Fe-39.8 at % AI and γ/γ′-α. Journal of Materials Science 19:2, pages 509-517.
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J. D. Whittenberger & R. V. Krishnan. (1984) A simple application of the Bailey-Orowan creep model to Fe-39.8 at % AI and ?/??-?. Journal of Materials Science 19:2, pages 509-517.
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Olawunmi Ajaja. (1981) High-temperature deformation and internal stress. Scripta Metallurgica 15:9, pages 975-979.
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Robert A. Ayres. (1979) Alloying aluminum with magnesium for ductility at warm temperatures (25 to 250°C). Metallurgical Transactions A 10:7, pages 849-854.
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Thomas H. Alden. (1977) Strain hardening and recovery in lead during primary creep. Metallurgical Transactions A 8:12, pages 1857-1862.
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S. Takeuchi & A. S. Argon. (1976) Steady-state creep of single-phase crystalline matter at high temperature. Journal of Materials Science 11:8, pages 1542-1566.
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W. Blum, J. Hausselt & G. König. (1976) Transient creep and recovery after stress reduction during steady state creep of AlZn. Acta Metallurgica 24:4, pages 293-297.
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R. G. Stang, W. D. Nix & C. R. Barrett. (1975) The influence of subgrain boundaries on the rate controlling creep processes in Fe-3 Pct Si. Metallurgical Transactions A 6:11, pages 2065-2071.
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W.J. Evans & G.F. Harrison. (1975) Stress changes during anelastic recovery in nimonic 90. Scripta Metallurgica 9:5, pages 479-483.
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C.B. Coutinho, D.K. Matlock & W.L. Bradley. (1975) Cyclic creep of Al-4.6% Mg at moderate temperatures. Materials Science and Engineering 21, pages 239-247.
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G.J Lloyd & R.J McElroy. (1974) On the anelastic contribution to creep. Acta Metallurgica 22:3, pages 339-348.
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J. W. Pugh. (1973) On the short time creep rupture. Metallurgical Transactions 4:2, pages 533-538.
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T. V. Nordstrom & C. R. Barrett. (1972) Recovery of high temperature deformed Ni-Al alloys. Journal of Materials Science 7:9, pages 1052-1060.
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C.R. Barrett. (1972) Recovery — Work hardening creep. Scripta Metallurgica 6:6, pages 529-534.
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D.K Matlock, W.C HarriganJr.Jr. & W.D Nix. (1972) On the importance of including recovery in phenomenological theories of plastic flow in metals. Acta Metallurgica 20:5, pages 661-668.
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M Boček & D Preininger. (1972) Investigations of the mean internal stress during stress relaxation at hightemperatures. Materials Science and Engineering 9, pages 301-311.
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Jan HultL. Rohlin & G. Aldén. 1972. Creep in Structures 1970. Creep in Structures 1970
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R. Gasca-Neri & W.D. Nix. (1971) On the high temperature “friction stress” in metals. Scripta Metallurgica 5:10, pages 871-874.
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R. Gasca-Neri, C.R. Barrett & W.D. Nix. (1971) A note on the recovery - work hardening theory of creep. Scripta Metallurgica 5:9, pages 733-739.
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