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Metal Science Volume 8, 1974 - Issue 1
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Articles

The Effect of Particle Size and Spacing on Creep of Two-Phase Copper–Cobalt Alloys

P. L. Threadgill
&
B. Wilshire
Pages 117-124 | Published online: 18 Jul 2013

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W. Chen & M. C. Chaturvedi. (1993) Grain Boundary Dependent Creep Behaviour of Inconel 718. Canadian Metallurgical Quarterly 32:4, pages 363-367.
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D. A. Miller, W. J. Plumbridge & R. A. Bartlett. (1981) Creep deformation of low-alloy 1 Cr–Mo–V steel at 565°C. Metal Science 15:9, pages 413-420.
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G. Knowles. (1977) The creep strength of a 20%Cr-25%Ni-Nb steel containing controlled particle dispersions. Metal Science 11:4, pages 117-122.
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J.D. Parker & B. Wilshire. (1976) On the subgrain size dependence of creep. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 34:3, pages 485-489.
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R. Lagneborg & B. Bergman. (1976) The stress/creep rate behaviour of precipitation-hardened alloys. Metal Science 10:1, pages 20-28.
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Josh Wimpenny, Gary R. Eppich, Naomi Marks, Frederick Ryerson & Kim B. Knight. (2022) Characterizing major and trace element compositions in fallout melt glass from a near-surface nuclear test. Journal of Environmental Radioactivity 243, pages 106796.
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Mehmet Emin Çetin, Gökhan Polat, Mustafa Tekin, Ahmet Burçin Batibay & Hasan Kotan. (2021) Effect of Y addition on the structural transformation and thermal stability of Ti-22Al-25Nb alloy produced by mechanical alloying. Materials Testing 63:7, pages 599-605.
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D.T.S. Lewis, R.G. Ding, M.T. Whittaker, P.M. Mignanelli & M.C. Hardy. (2020) The effect of oxidising thermal exposures on the fatigue properties of a polycrystalline powder metallurgy nickel-based superalloy. Materials & Design 189, pages 108529.
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Sergei Zhevnenko. (2019) Ordering of cobalt surface particles by moving grain boundaries in copper. Applied Surface Science 481, pages 1133-1138.
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Fangfei Sui & Rolf Sandström. (2018) Creep strength contribution due to precipitation hardening in copper–cobalt alloys. Journal of Materials Science 54:2, pages 1819-1830.
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S. Latha, M.D. Mathew, P. Parameswaran, K. Bhanu Sankara Rao & S.L. Mannan. (2010) Creep behaviour of 14Cr–15Ni–Ti stainless steel at 923K. Materials Science and Engineering: A 527:20, pages 5167-5174.
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P. B. Trivedi, S. N. Patankar, F. H. Froes, E. G. Baburaj, A. Genç & L. Ovecoglu. (2002) Grain-size control in Ti-48Al-2Cr-2Nb with yttrium additions. Metallurgical and Materials Transactions A 33:8, pages 2729-2736.
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Yun Soo Lim, Joung Soo Kim & Hyuk Sang Kwon. (2001) Particle formation in the rapidly solidified zone of alloy 600 surface melted by a CO2 laser beam. Metallurgical and Materials Transactions A 32:5, pages 1248-1251.
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Jean-Loup STRUDEL. 1996. Physical Metallurgy. Physical Metallurgy 2105 2206 .
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Hideharu NAKASHIMA & Hideo YOSHINAGA. (1991) Threshold Stress in Dispersion Strengthened Alloys at High Temperatures. Tetsu-to-Hagane 77:9, pages 1399-1406.
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Ying-Hwa Yeh, Masakazu Miyachi, Hideharu Nakashima, Hiroaki Kurishita, Shoji Goto & Hideo Yoshinaga. (1990) Absence of Threshold Stress for High-Temperature Creep of Dispersion- and Solution-Hardened Al-3.1 at% Mg-1.3 vol% Be Alloy. Materials Transactions, JIM 31:9, pages 778-785.
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Ying-Hwa Yeh, Hideharu Nakashima, Hiroaki Kurishita, Shoji Goto & Hideo Yoshinaga. (1990) Threshold Stress for High-Temperature Creep in Particle Strengthened Al-1.5 vol%Be Alloys. Materials Transactions, JIM 31:4, pages 284-292.
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Jae Kon Lee & Soo Woo Nam. (1988) The effects of precipitation particles on the static and cyclic creep behaviors of Cu-Co alloy. Scripta Metallurgica 22:10, pages 1599-1602.
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R. E. Hummel, W. M. Goho & V. Gerold. (1988) The influence of precipitation on the optical properties and electronic structure of copper-cobalt alloys. Physica Status Solidi (a) 106:2, pages 641-649.
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K. S. Ramesh, Eiichi Yasuda & Shiushichi Kimura. (1986) Negative creep and recovery during high-temperature creep of MgO single crystals at low stresses. Journal of Materials Science 21:9, pages 3147-3152.
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Jürgen Peterseim & Gerhard Sauthoff. (1986) The effect of fine precipitate particles on the creep behaviour of ferritic model steels - III. Model calculations. Steel Research 57:2, pages 77-81.
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Guo Jianting, D. Ranucci, E. Picco & P. M. Strocchi. (1983) An investigation on the creep and fracture behavior of cast nickel-base superalloy IN738LC. Metallurgical Transactions A 14:11, pages 2329-2335.
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M. V. Nathal, R. D. Maier & L. J. Ebert. (1982) The influence of cobalt on the tensile and stress-rupture properties of the nickel-base superalloy mar-m247. Metallurgical Transactions A 13:10, pages 1767-1774.
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K.R. Williams & B. Wilshire. (1981) Microstructural instability of 0.5Cr0.5Mo0.25V creep-resistant steel during service at elevated temperatures. Materials Science and Engineering 47:2, pages 151-160.
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B. Wilshire. 1981. Creep in Structures. Creep in Structures 72 89 .
K.R. Williams & B.J. Cane. (1979) Creep behaviour of steel at engineering stresses. Materials Science and Engineering 38:3, pages 199-210.
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R.A. Stevens & P.E.J. Flewitt. (1979) The effects of ?? precipitate coarsening during isothermal aging and creep of the nickel-base superalloy IN-738. Materials Science and Engineering 37:3, pages 237-247.
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P. K. Wright. (1978) The high temperature creep behavior of doped tungsten wire. Metallurgical Transactions A 9:7, pages 955-963.
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C Carry & J.L Strudel. (1978) Apparent and effective creep parameters in single crystals of a nickel base superalloy—II. Secondary creep. Acta Metallurgica 26:5, pages 859-870.
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J.P. Dennison, P.D. Holmes & B. Wilshire. (1978) The creep and fracture behaviour of the cast, nickel-based superalloy, IN100. Materials Science and Engineering 33:1, pages 35-47.
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J.D. Parker & B. Wilshire. (1977) A surface measurement study of grain-boundary sliding during creep of a two-phase, copper-cobalt alloy. Materials Science and Engineering 29:3, pages 219-225.
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Oleg D. Sherby, Rodney H. Klundt & Alan K. Miller. (1977) Flow stress, subgrain size, and subgrain stability at elevated temperature. Metallurgical Transactions A 8:6, pages 843-850.
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K.R. Williams & B. Wilshire. (1977) Effects of microstructural instability on the creep and fracture behaviour of ferritic steels. Materials Science and Engineering 28:2, pages 289-296.
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D. Side. (1976) The high temperature creep and fracture behavior of a 1-pct CrMoV rotor steel. Metallurgical Transactions A 7:11, pages 1785-1791.
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V. I. Kumanin & B. �. Shkol'nikova. (1976) Effect of structural factors on failure of steel 1Kh12V2MF. Metal Science and Heat Treatment 18:7, pages 576-578.
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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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