Citation: Vm. Weerasinghe et al., LASER-SURFACE NITRIDING OF TITANIUM AND A TITANIUM-ALLOY, Journal of materials processing technology, 58(1), 1996, pp. 79-86
Citation: D. Arrell et al., EFFECT OF SILICON ON MICROSTRUCTURE OF TI3AL ALLOYS CONTAINING NIOBIUM, Materials science and technology, 12(8), 1996, pp. 617-622
Citation: Jh. Abboud et al., FUNCTIONALLY GRADED NICKEL-ALUMINIDE AND IRON-ALUMINIDE COATINGS PRODUCED VIA LASER CLADDING, Journal of Materials Science, 30(23), 1995, pp. 5931-5938
Citation: Fu. Rehman et al., OPTIMIZATION OF ALLOY-ALUMINA FIBER COMBINATION FOR MAGNESIUM BASED METAL-MATRIX COMPOSITES, Materials science and technology, 10(6), 1994, pp. 518-525
Citation: Jh. Abboud et al., FUNCTIONALLY GRADIENT LAYERS OF TI-AL BASED ALLOYS PRODUCED BY LASER ALLOYING AND CLADDING, Materials science and technology, 10(5), 1994, pp. 414-419
Citation: Jh. Abboud et al., MICROSTRUCTURE AND PROPERTIES OF LASER-PRODUCED TI-AL FUNCTIONALLY GRADIENT CLAD, Materials science and technology, 10(10), 1994, pp. 848-853
Citation: Jh. Abboud et Drf. West, MICROSTRUCTURE OF TI-TIB2 SURFACE-LAYERS PRODUCED BY LASER PARTICLE INJECTION, Journal of materials science letters, 13(6), 1994, pp. 457-461
Citation: S. Fazalurrehman,"fox et al., FIBRE MATRIX INTERACTIONS IN MAGNESIUM-BASED COMPOSITES CONTAINING ALUMINA FIBERS/, Journal of Materials Science, 29(6), 1994, pp. 1636-1645
Citation: Jh. Abboud et al., FUNCTIONALLY GRADIENT TITANIUM ALUMINIDE COMPOSITES PRODUCED BY LASERCLADDING, Journal of Materials Science, 29(13), 1994, pp. 3393-3398
Citation: Km. Jasim et al., METAL-CERAMIC FUNCTIONALLY GRADIENT MATERIAL PRODUCED BY LASER PROCESSING, Journal of Materials Science, 28(10), 1993, pp. 2820-2826