Fracture Modes in Ll 2 Compounds
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[1] A. Taub,et al. Grain boundary segregation of boron and sulfur and its effect on ductility in rapidly solidified Ni-base L12 compounds , 1988 .
[2] C. Briant. Metallurgical Applications of Auger Electron Spectroscopy , 1988 .
[3] A. Taub,et al. Composition dependence of ductility in boron-doped, nickel-base L12 alloys , 1987 .
[4] T. Takasugi,et al. Improved ductility and strength of Ni3Al compound by beryllium addition , 1986 .
[5] C. L. White,et al. The effect of thermal history on intergranular boron segregation and fracture morphology of substoichiometric Ni 3Al , 1986 .
[6] Shyh-Chin Huang,et al. Carbon effects in rapidly solidified Ni_3Al , 1986 .
[7] A. Taub,et al. Ductility in boron-doped, nickel-base L12 alloys processed by rapid solidification , 1986 .
[8] Shigeru Suzuki,et al. Role of Carbon in Preventing the Intergranular Fracture in Iron-Phosphorus Alloys , 1985 .
[9] H. Grabke,et al. Equilibrium segregation of phosphorus at grain boundaries of Fe–P, Fe–C–P, Fe–Cr–P, and Fe–Cr–C–P alloys , 1981 .
[10] H. Grabke,et al. Site competition in grain boundary segregation of phosphorus and nitrogen in iron , 1981 .
[11] O. Izumi,et al. Improvement in Room Temperature Ductility of the L1 2 Type Intermetallic Compound Ni 3 Al by Boron Addition , 1979 .