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Philosophical Magazine B Volume 42, 1980 - Issue 4
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Correspondence

Electronic effects of sulphur in nickel

A model for grain boundary embrittlement

C. L. Briant General Electric Company, Corporate Research and Development, Schenectady, New York, 12301, U.S.A
&
R. P. Messmer General Electric Company, Corporate Research and Development, Schenectady, New York, 12301, U.S.A
Pages 569-576 | Received 20 Dec 1979, Accepted 31 Mar 1980, Published online: 20 Aug 2006

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S. A. David & S. C. Deevi. (2017) Welding of unique and advanced ductile intermetallic alloys for high-temperature applications. Science and Technology of Welding and Joining 22:8, pages 681-705.
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Wang Kai, Xu TingDong, Wang YanQing & Du JinHui. (2009) Intermediate-temperature embrittlement induced by non-equilibrium grain-boundary segregation of sulfur in Ni–Cr–Fe alloy. Philosophical Magazine Letters 89:11, pages 725-733.
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Kuiying Chen, L. R. Zhao & John S. Tse. (2003) Alloying effects on sulphur embrittlement of the γ-γ′ interface of nickel-based single-crystal superalloys. Philosophical Magazine Letters 83:3, pages 177-189.
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N. H. Heo & J. K. Lee. (2011) Grain Boundary Segregation of Phosphorus and Columnar Grain Growth during Decarburization in Plain Carbon Steels. MATERIALS TRANSACTIONS 52:2, pages 219-223.
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J. C. Chang, N. H. Heo & C. H. Lee. (2010) Intergranular cracking susceptibility of 2.25Cr1.3W and 9Cr1MoVNb weld metals at elevated temperatures. Metals and Materials International 16:6, pages 981-985.
Crossref
Motohiro Yuasa & Mamoru Mabuchi. (2010) Bond mobility mechanism in grain boundary embrittlement: First-principles tensile tests of Fe with a P-segregated grain boundary . Physical Review B 82:9.
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Li-Hua Liu, Ying Zhang, Xue-Lan Hu & Guang-Hong Lu. (2009) Formation of a coplanar O–Al bonding cluster: the effect of O impurity on a Σ = 5 NiAl grain boundary from first-principles. Journal of Physics: Condensed Matter 21:1, pages 015002.
Crossref
Abhinav Bhandari, Sean J. Hearne, Brian W. Sheldon & Sumit K. Soni. (2009) Microstructural Origins of Saccharin-Induced Stress Reduction in Electrodeposited Ni. Journal of The Electrochemical Society 156:8, pages D279.
Crossref
O. V. Kasparova & Yu. V. Baldokhin. (2007) New concept of the mechanism of intergranular corrosion of stainless steels. Protection of Metals 43:3, pages 235-240.
Crossref
Ying Zhang, Guang-Hong Lu, Shenghua Deng, Tianmin Wang, Huibin Xu, Masanori Kohyama & Ryoichi Yamamoto. (2007) Weakening of an aluminum grain boundary induced by sulfur segregation: A first-principles computational tensile test. Physical Review B 75:17.
Crossref
S. B. GESARI, B. L. IRIGOYEN & A. JUAN. (2012) BINDING ENERGY OF HYDROGEN TO MIXED AND SCREW DISLOCATION. Surface Review and Letters 12:02, pages 227-232.
Crossref
S.X. McFadden & A.K. Mukherjee. (2005) Sulfur and superplasticity in electrodeposited ultrafine-grained Ni. Materials Science and Engineering: A 395:1-2, pages 265-268.
Crossref
K. Chen, L.R. Zhao & J.S. Tse. (2003) Sulfur embrittlement on γ/γ′ interface of Ni-base single crystal superalloys. Acta Materialia 51:4, pages 1079-1086.
Crossref
Guang-Hong Lu, Akira Suzuki, Akira Ito, Masanori Kohyama & Ryoichi Yamamoto. (2003) Effects of Impurities on an Al Grain Boundary. MATERIALS TRANSACTIONS 44:3, pages 337-343.
Crossref
K. Horikawa, S. Kuramoto & M. Kanno. (2001) Intergranular fracture caused by trace impurities in an Al–5.5 mol% Mg alloy. Acta Materialia 49:19, pages 3981-3989.
Crossref
Guang-Hong Lu, Masanori Kohyama & Ryoichi Yamamoto. (2001) <I>Ab initio</I> Studies on the Effects of Si and S Impurities on Al Grain Boundary. MATERIALS TRANSACTIONS 42:11, pages 2238-2241.
Crossref
Guang-Hong Lu, Tomoyuki Tamura, Masao Kamiko, Masanori Kohyama & Ryoichi Yamamoto. (2011) An ab initio Investigation on the Effects of Impurity in Aluminum Grain Boundary . MRS Proceedings 699.
Crossref
Yan-Quan Fen & Chong-Yu Wang. (2001) Electronic effects of nitrogen and phosphorus on iron grain boundary cohesion. Computational Materials Science 20:1, pages 48-56.
Crossref
Guang-Hong Lu, Akira Suzuki, Akira Ito, Masanori Kohyama & Ryoichi Yamamoto. (2000) Comparison of effects of sodium and silicon impurities on aluminium grain boundaries by first-principles calculation. Modelling and Simulation in Materials Science and Engineering 8:5, pages 727-736.
Crossref
Guang-Hong Lu, Masanori Kohyama & Rayoichi Yamamoto. (2011) Al Grain Boundary Embrittlement Promoted by Na Impurity: An ab initio Study. MRS Proceedings 653.
Crossref
Guang-Hong Lu, Masanori Kohyama & Rayoichi Yamamoto. (2011) Al Grain Boundary Embrittlement Promoted by Na Impurity: An ab initio Study . MRS Proceedings 653.
Crossref
X.X Yao. (1999) On the grain boundary hardening in a B-bearing 304 austenitic stainless steel. Materials Science and Engineering: A 271:1-2, pages 353-359.
Crossref
Akira Suzuki, Guang Hong Lu, Akira Itoh, Masanori Kohyama & Ryoichi Yamamoto. (1999) <I>Ab-initio</I> Calculations of Sodium Segregation in Aluminum Grain Boundaries. Materials Transactions, JIM 40:11, pages 1193-1197.
Crossref
L.G. Wang & C.Y. Wang. (1998) Effect of boron and sulphur on the electronic structure of grain boundaries in Ni. Computational Materials Science 11:4, pages 261-269.
Crossref
Y. Liu, K. Y.J. H. Zhang, G. Lu & Z. Q. Hu. (2011) First-principles investigation on environmental embrittlement of TiAl. Journal of Materials Research 13:2, pages 290-301.
Crossref
Yi Liu, Kuiying Chen, Jinghua Zhang, Zhuangqi Hu, Gang Lu & Nicholas Kioussis. (1997) Electronic effects of oxygen and vanadium impurities in TiAl. Journal of Physics: Condensed Matter 9:45, pages 9829-9843.
Crossref
A. N. Gubbi, E. P. George, E. K. Ohriner & R. H. Zee. (1997) Influence of cerium additions on high-temperature-impact ductility and fracture behavior of iridium alloys. Metallurgical and Materials Transactions A 28:10, pages 2049-2057.
Crossref
L.G. Wang & C.Y. Wang. (1997) First-principles calculations of energies of impurities and doping effects at grain boundaries in nickel. Materials Science and Engineering: A 234-236, pages 521-524.
Crossref
Y. Liu, K.Y. Chen, G. Lu, J.H. Zhang & Z.Q. Hu. (1997) Impurity effects on the NiNi3Al interface cohesion. Acta Materialia 45:5, pages 1837-1849.
Crossref
V. V. Tikhonovich, V. V. Gorskii, B. E. Endrzhievskii, M. V. Aleshina, B. S. Shapoval & V. P. Temnenko. (1997) The role of active elements of lubricants in the formation of mechanical properties of iron after rolling. Materials Science 33:2, pages 195-201.
Crossref
A. J. Freeman, Ruqian Wu, Lujun Chen & Lieping Zhong. (2011) Magnetic Effects at Surfaces and Interfaces (Including Grain Boundaries). MRS Proceedings 492.
Crossref
G. Lu, J.T. Guo, K.Y. Chen & Z.Q. Hu. (1996) A first principles investigation of environmental embrittlement of Co3Ti alloy. Acta Materialia 44:10, pages 4019-4026.
Crossref
Yoshio Itsumi & D.E. Ellis. (2011) Electronic bonding characteristics of hydrogen in bcc iron: Part II. Grain boundaries. Journal of Materials Research 11:9, pages 2214-2219.
Crossref
Wang Fuhe, Wang Chongyu & Yang Jinlong. (1996) The effect of boron on the electronic structure of grain boundaries in. Journal of Physics: Condensed Matter 8:30, pages 5527-5534.
Crossref
Nam-Hoe Heo. (1996) Theory of nonequilibrium segregation in an FeMnNi ternary alloy and a ductile-brittle-ductile transition. Acta Materialia 44:7, pages 3015-3023.
Crossref
Ruqian Wu, A. J. Freeman & G. B. Olson. (1996) Effects of carbon on Fe-grain-boundary cohesion: First-principles determination. Physical Review B 53:11, pages 7504-7509.
Crossref
Geng Tu, Akira Itoh, Kentaro Kyuno & Ryoichi Yamamoto. (2011) Static Simulation of the Effect of Alkalline Metal Impurities on the Bonding of Al Atoms at the Grain Boundaries of Aluminum. MRS Proceedings 458.
Crossref
Hans J. Herrmann. 1996. Fractals and Disordered Systems. Fractals and Disordered Systems 201 232 .
Indranil Chattoraj. (1995) The effect of hydrogen induced cracking on the integrity of steel components. Sadhana 20:1, pages 199-211.
Crossref
John F Knott. 1994. Hydrogen Effects in Materials. Hydrogen Effects in Materials 385 408 .
Ruqian Wu, A. J. Freeman & G. B. Olson. (1994) Nature of phosphorus embrittlement of the Fe?3[11?0](111) grain boundary. Physical Review B 50:1, pages 75-81.
Crossref
T. Nakano & Y. Umakoshi. (1994) Effect of boron addition on the plastic behaviour of polysynthetically twinned crystals of TiAl. Intermetallics 2:3, pages 185-191.
Crossref
Yuan Zhexi, Song Shenhua, R.G. Faulkner & Xu Tingdong. (1994) Effect of cerium on temper embrittlement of P-doped Mn structural steels. Acta Metallurgica et Materialia 42:1, pages 127-132.
Crossref
Yuan Zhexi, Song Shenhua, Xi Tianhui, Zhang Xiju & Yu Zongsen. (1994) Influence of cerium on ductility of Ni3Al. Journal of Materials Science Letters 13:23, pages 1717-1719.
Crossref
T. Hong, J. R. Smith & D. J. Srolovitz. (1993) Impurity effects on adhesion: Nb, C, O, B, and S at a Mo/ interface . Physical Review B 47:20, pages 13615-13625.
Crossref
J. Kameda & A.J. Bevolo. (1993) High temperature brittle intergranular cracking in high strength nickel alloys undoped and doped with S, Zr, and/or B—II. Solute segregation analysis. Acta Metallurgica et Materialia 41:2, pages 527-537.
Crossref
V. V. Tikhonovich, V. V. Gorskii, L. M. Sheludchenko, A. V. Shevchenko, B. S. Shapoval, O. D. Smiyan, S. E. Antonov, V. P. Temnenko & A. A. Stulin. (1993) Effect of lubricating and cooling liquids on the chemical composition and physicomechanical properties of iron after rolling. Materials Science 29:1, pages 98-103.
Crossref
Ruqian Wu, A.J. Freeman & G.B. Olson. (2011) On the electronic basis of the phosphorus intergranular embrittlement of iron. Journal of Materials Research 7:9, pages 2403-2411.
Crossref
R.G. Hoagland & H.L. Heinisch. (2011) An atomic simulation of the influence of hydrogen on the fracture behavior of nickel. Journal of Materials Research 7:8, pages 2080-2088.
Crossref
S.E. Mohney & Y.A. Chang. (2011) Phase equilibria and ternary phase formation in the In–Ni–P system. Journal of Materials Research 7:4, pages 955-960.
Crossref
Masahiko Yamamoto, Akira Sugiyama, Hironori Matsushima, Ryuji Uemori & Hirofumi Morikawa. (1992) Ultra-fine structure of a boron-doped Ni4Mo alloy. Surface Science 266:1-3, pages 322-327.
Crossref
Akira Seki. (1992) A Mean-Field Approach to Segregation of Solute Atoms at [001] Large Angle Twist Grain Boundaries in Dilute Binary Alloys. Materials Transactions, JIM 33:11, pages 1020-1026.
Crossref
T. Takasugi & O. Izumi. 1992. Ordered Intermetallics — Physical Metallurgy and Mechanical Behaviour. Ordered Intermetallics — Physical Metallurgy and Mechanical Behaviour 391 411 .
C.J McMahonJr.Jr.. (1991) Mechanisms of intergranular fracture in alloy steels. Materials Characterization 26:4, pages 269-287.
Crossref
Takayuki Takasugi & Osamu Izumi. (1991) Electronic effect on grain boundary properties of ordered intermetallics. Scripta Metallurgica et Materialia 25:6, pages 1243-1248.
Crossref
Song Shenhua, Xu Tingdong, Yuan Zhexi & Yu Zongsen. (1991) Equilibrium grain-boundary segregation and the effect of boron in B-doped Fe−3wt%Ni austenitic alloy. Acta Metallurgica et Materialia 39:5, pages 909-914.
Crossref
H J Herrmann. (1991) Patterns and Scaling in Fracture. Physica Scripta T38, pages 13-21.
Crossref
Xi-jun WU, Ba-yi PENG, Fu-xin ZHOU, Qing-qi ZHENG & Qi-heng TANG. 1991. Computer Aided Innovation of New Materials. Computer Aided Innovation of New Materials 305 310 .
V. V. Tikhonovich, L. M. Sheludchenko & V. V. Gorskii. (1991) Effect of active elements of lubricating-cooling liquids on embrittlement of iron-based alloys. Soviet Materials Science 26:5, pages 580-584.
Crossref
Hans J. Herrmann. 1991. Fractals and Disordered Systems. Fractals and Disordered Systems 175 206 .
Genrich L. Krasko & G.B. Olson. (1990) Effect of boron, carbon, phosphorus and sulphur on intergranular cohesion in iron. Solid State Communications 76:3, pages 247-251.
Crossref
Gast?n Martnez & Miguel Kiwi. (1990) Impurity-induced grain-boundary embrittlement: A simple three-dimensional model. Physical Review B 42:9, pages 5527-5538.
Crossref
R.H. Jones. (1990) Analysis of hydrogen-induced subcritical intergranular crack growth of iron and nickel. Acta Metallurgica et Materialia 38:9, pages 1703-1718.
Crossref
C. L. Briant. (1990) On the chemistry of grain boundary segregation and grain boundary fracture. Metallurgical Transactions A 21:9, pages 2339-2354.
Crossref
D.D. Vvedensky, M.E. Eberhart, L. Christodoulou, S. Crampin & J.M. MacLaren. (1990) Interface electronic structure of XDTM titanium aluminide composites. Materials Science and Engineering: A 126:1-2, pages 33-40.
Crossref
S.P. Chen, A.F. Voter, R.C. Albers, A.M. Boring & P.J. Hay. (2011) Investigation of the effects of boron on Ni 3 Al grain boundaries by atomistic simulations . Journal of Materials Research 5:5, pages 955-970.
Crossref
L Goodwin, R J Needs & V Heine. (1990) A pseudopotential total energy study of impurity-promoted intergranular embrittlement. Journal of Physics: Condensed Matter 2:2, pages 351-365.
Crossref
Takayuki Takasugi. (2011) Effects of Alloying Additions on Intergranular Fracture of Ordered Intermetallics. MRS Proceedings 213.
Crossref
Hans J. Herrmann & Stéphane Roux. 1990. Statistical Models for the Fracture of Disordered Media. Statistical Models for the Fracture of Disordered Media 159 188 .
Henry Wise & Jacques Oudar. 1990. Material Concepts in Surface Reactivity and Catalysis. Material Concepts in Surface Reactivity and Catalysis 162 198 .
M. Morinaga, J. Saito, N. Yukawa & H. Adachi. (1990) Electronic effect on the ductility of alloyed TiAl compound. Acta Metallurgica et Materialia 38:1, pages 25-29.
Crossref
L. Goodwin, R. J. Needs & Volker Heine. (1989) Goodwin, Needs, and Heine reply.. Physical Review Letters 63:19, pages 2157-2157.
Crossref
Richard W. Smith & Gary S. Was. (1989) Application of molecular dynamics to the study of hydrogen embrittlement in Ni-Cr-Fe alloys. Physical Review B 40:15, pages 10322-10336.
Crossref
S. Crampin, D. D. Vvedensky, J. M. MacLaren & M. E. Eberhart. (1989) Electronic structure near (210) tilt boundaries in nickel. Physical Review B 40:5, pages 3413-3416.
Crossref
I.M. Robertson, T.C. Lee, P. Rozenak, G.M. Bond & H.K. Birnbaum. (1989) Dynamic observations of the transfer of slip across a grain boundary. Ultramicroscopy 30:1-2, pages 70-75.
Crossref
G. S. Painter & F. W. Averill. (1989) Impurity effects on metallic cohesion: Lithium-row atoms in nickel clusters. Physical Review B 39:11, pages 7522-7535.
Crossref
Murray S. Daw. (1989) Model of metallic cohesion: The embedded-atom method. Physical Review B 39:11, pages 7441-7452.
Crossref
T.C. Lee, I.M. Robertson & H.K. Birnbaum. (1989) An HVEM In situ deformation study of nickel doped with sulfur. Acta Metallurgica 37:2, pages 407-415.
Crossref
X.J. Wu, Q.Q. Zheng, B. Hu, Z. Zeng, F.X. Zhou & Z.Y. Chen. 1989. Strength of Metals and Alloys (ICSMA 8). Strength of Metals and Alloys (ICSMA 8) 1369 1373 .
M.J. Danielson & D.R. Baer. (1989) The effects of sulfur on the dissolution of nickel. Corrosion Science 29:11-12, pages 1265-1274.
Crossref
Sung Y. Hong & Alfred B. Anderson. (1988) Segregation of substitutional bulk S to the Fe(100) surface and the Fe – Fe oxide interface: Molecular-orbital theory . Physical Review B 38:14, pages 9417-9424.
Crossref
H.J Frost. (1988) Grain boundary structure and the effect of boron in Ni3Al. Acta Metallurgica 36:8, pages 2199-2211.
Crossref
Osamu Izumi & Takayuki Takasugi. (2011) Mechanisms of ductility improvement in L12 compounds. Journal of Materials Research 3:03, pages 426-440.
Crossref
L. Goodwin, R. J. Needs & Volker Heine. (1988) Effect of Impurity Bonding on Grain-Boundary Embrittlement. Physical Review Letters 60:20, pages 2050-2053.
Crossref
M. E. Eberhart & D. D. Vvedensky. (1988) Environmentally specific mechanical properties: Beyond atomic parameters. Physical Review B 37:14, pages 8488-8490.
Crossref
Wu Xijun, Hu Bin & Zheng Qingqi. (1988) Effect of sulphur and carbon segregation on chemical bonding of grain boundaries in BCC metal iron. Chinese Physics Letters 5:4, pages 157-160.
Crossref
Adrian P. Sutton. (2011) Modelling of the Atomic and Electronic Structures of Interfaces. MRS Proceedings 122.
Crossref
A. M. Dobrotvorskii. (1988) Quantum-chemical methods and materials science problems. Journal of Structural Chemistry 28:4, pages 590-595.
Crossref
Takayuki Takasugi, Naoya Masahashi & Osamu Izumi. (1987) Electronic and structural studies of grain boundary strength and fracture in L12 ordered alloys—III. On the effect of stoichiometry. Acta Metallurgica 35:2, pages 381-391.
Crossref
M. E. Eberhart & D. D. Vvedensky. (1987) Localized Grain-Boundary Electronic States and Intergranular Fracture. Physical Review Letters 58:1, pages 61-64.
Crossref
G. S. Painter & F. W. Averill. (1987) Effects of segregation on grain-boundary cohesion: A density-functional cluster model of boron and sulfur in nickel. Physical Review Letters 58:3, pages 234-237.
Crossref
Wolfgang Losch. 1987. Chemistry and Physics of Fracture. Chemistry and Physics of Fracture 461 491 .
M. E. Eberhart & D. D. Vvedensky. 1987. Chemistry and Physics of Fracture. Chemistry and Physics of Fracture 163 176 .
J. Reyes-Gasga & L. D. Romeu. 1987. Lectures on Surface Science. Lectures on Surface Science 298 301 .
Osamu Izumi & Takayuki Takasugi. (2011) Deformability Improvements of Li 2 -Type Intermetallic Compounds . MRS Proceedings 81.
Crossref
Dennis R. Salahub. 1986. Contribution of Clusters Physics to Materials Science and Technology. Contribution of Clusters Physics to Materials Science and Technology 143 194 .
M.E. Eberhart, R.M. Latanision & K.H. Johnson. (1985) Overview no. 44. Acta Metallurgica 33:10, pages 1769-1783.
Crossref
W.J.S. Yang, D.S. Gelles, J.L. Straalsund & R. Bajaj. (1985) Post-irradiation ductility loss of FeNibase precipitation hardenable alloys. Journal of Nuclear Materials 132:3, pages 249-265.
Crossref
T Takasugi & O Izumi. (1985) Electronic and structural studies of grain boundary strength and fracture in L12 ordered alloys—I. On binary A3B alloys. Acta Metallurgica 33:7, pages 1247-1258.
Crossref
C.T Liu, C.L White & J.A Horton. (1985) Effect of boron on grain-boundaries in Ni3Al†. Acta Metallurgica 33:2, pages 213-229.
Crossref
C.L. Briant & R.P. Messmer. (1984) An electronic model for the grain boundary embrittlement of iron, nickel and chromium and their alloys by antimony. Acta Metallurgica 32:11, pages 2043-2052.
Crossref
H.K. Chang, R.S. Weidman & J.K. Lee. (1984) An atomistic study of grain boundary segregation and cracking. Surface Science 144:1, pages 224-252.
Crossref
D. Y. Lee, E. V. Barrera, J. P. Stark & H. L. Marcus. (1984) The Influence of Alloying Elements on Impurity Induced Grain Boundary Embrittlement. Metallurgical Transactions A 15:7, pages 1415-1430.
Crossref
M.E. Eberhart, K.H. Johnson & R.M. Latanision. (1984) A molecular orbital model of intergranular embrittlement. Acta Metallurgica 32:6, pages 955-959.
Crossref
G. Moulin, M. Aucouturier & P. Lacombe. (1984) Corrosion in H2/H2S mixtures of a Ni77Cr16Fe7 alloy previously covered with an external Cr2O3 layer. Journal of Materials Science 19:3, pages 815-837.
Crossref
C. T. Liu & C. L. White. (2011) Design of Ductile Polycrystalline Ni 3 Al Alloys . MRS Proceedings 39.
Crossref
S. Wakayama, M. Hashimoto, Y. Ishida, R. Yamamoto & M. Doyama. (1984) Atomistic studies of grain boundary segregation in Fe-P and Fe-B alloys—III. Vibrational states of atoms at the grain boundaries. Acta Metallurgica 32:1, pages 21-27.
Crossref
T. Takasugi & O. Izumi. (1983) Geometrical consideration on grain boundary structure of L20 and L12 superlattice alloys. Acta Metallurgica 31:8, pages 1187-1202.
Crossref
Reinhard Frey, Thomas Krüger & Jüuren Flad. (2004) Zur chemisorptiven Wechselwirkung von Wasserstoff mit den Stahlbestandteilen Kohlenstoff und Eisen. Materials and Corrosion 34:3, pages 102-106.
Crossref
H. Viefhaus, R. Möller, H. Erhart & H.J. Grabke. (1983) Some aspects of studies on grain boundary segregation by AES. Scripta Metallurgica 17:2, pages 165-170.
Crossref
C.L. Brunt. (1983) Sources of variability in grain boundary segregation. Acta Metallurgica 31:2, pages 257-266.
Crossref
S. M. Bruemmer, R. H. Jones, M. T. Thomas & D. R. Baer. (1983) Influence of sulfur, phosphorus, and antimony segregation on the intergranular hydrogen embrittlement of nickel. Metallurgical Transactions A 14:1, pages 223-232.
Crossref
Kenji ABIKO, Shigeru SUZUKI & Hiroshi KIMURA. (1983) Chemical State of Phosphorus Segregated at Grain Boundaries of Iron. Tetsu-to-Hagane 69:6, pages 625-630.
Crossref
Yoichi Ishida, Hideki Ichinose, Minoru Mori & Minoru Hashimoto. (1983) Identification of Grain Boundary Atomic Structure in Gold by Matching Lattice Imaging Micrographs with Simulated Images. Transactions of the Japan Institute of Metals 24:6, pages 349-359.
Crossref
H Abrams, E Clark, J Hood & B SethJ Kameda. 1983. MiCon 82: Optimization of Processing, Properties, and Service Performance Through Microstructural Control. MiCon 82: Optimization of Processing, Properties, and Service Performance Through Microstructural Control 33 58 .
R.P. Messmer. 1983. Amorphous Metallic Alloys. Amorphous Metallic Alloys 114 125 .
C.L. BRIANT & S.K. BANERJI. 1983. Embrittlement of Engineering Alloys. Embrittlement of Engineering Alloys 21 58 .
ROBERT A. MULFORD. 1983. Embrittlement of Engineering Alloys. Embrittlement of Engineering Alloys 1 19 .
J. F. Knott. 1970. Atomistics of Fracture. Atomistics of Fracture 209 240 .
H. K. Birnbaum. 1970. Atomistics of Fracture. Atomistics of Fracture 733 769 .
T. E. Fischer. 1970. Atomistics of Fracture. Atomistics of Fracture 39 64 .
R. M. Latanision. 1970. Atomistics of Fracture. Atomistics of Fracture 3 38 .
A.P. Sutton & V. Vitek. (1982) An atomistic study of tilt grain boundaries with substitutional impurities. Acta Metallurgica 30:11, pages 2011-2033.
Crossref
A. Roy, U. Erb & H. Gleiter. (1982) Grain boundary embrittlement as a function of boundary structure (energy). Acta Metallurgica 30:10, pages 1847-1850.
Crossref
C.L. Briant & R.P. Messmer. (1982) An electronic model for the effect of alloying elements on the phosphorus induced grain boundary embrittlement of steel. Acta Metallurgica 30:9, pages 1811-1818.
Crossref
H. Fukushima & H.K. Birnbaum. (1982) High resolution saes and sims studies of grain boundary segregation of S and Cl in Ni. Scripta Metallurgica 16:6, pages 753-757.
Crossref
A. Larere, M. Guttmann, P. Dumoulin & C. Roques-Carmes. (1982) Auger electron spectroscopy study of the kinetics of intergranular and surface segregations in nickel during annealing. Acta Metallurgica 30:3, pages 685-693.
Crossref
R.P. Messmer & C.L. Briant. (1982) The role of chemical bonding in grain boundary embrittlement. Acta Metallurgica 30:2, pages 457-467.
Crossref
C. L. Briant. 1982. Chemistry and Physics of Solid Surfaces IV. Chemistry and Physics of Solid Surfaces IV 465 485 .
G. S. Was, H. H. Tischner & R. M. Latanision. (1981) The influence of thermal treatment on the chemistry and structure of grain boundaries in inconel 600. Metallurgical Transactions A 12:8, pages 1397-1408.
Crossref
M Hashimoto, Y Ishida, R Yamamoto, M Doyama & T Fujiwara. (1981) Electronic structure of the Σ=5 tilt boundary in iron. Journal of Physics F: Metal Physics 11:7, pages L141-L145.
Crossref
B.N. Cox & C.W. BauschlicherJr.Jr.. (1981) Cluster calculations of hydrogen in the grain boundaries of nickel. Surface Science 108:3, pages 483-502.
Crossref
Y. Takeda & C. J. McMahon. (1981) Strain controlled vs stress controlled hydrogen induced fracture in a quenched and tempered steel. Metallurgical Transactions A 12:7, pages 1255-1266.
Crossref
R.P. Messmer. (1981) Theoretical treatment of the electronic structure of small metallic particles. Surface Science 106:1-3, pages 225-238.
Crossref
R. P. Messmer. (1981) Local electronic structure of amorphous metal alloys using cluster models. Evidence for specific metalloid-metal interactions. Physical Review B 23:4, pages 1616-1623.
Crossref
M. H. Sukkar, H. L. Tuller & K. H. Johnson. (2011) Electronic Structure of Grain Boundaries and Interfaces in Polycrystalline Zinc Oxide. MRS Proceedings 5.
Crossref

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