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Laser surface alloying: a bibliography

Journal of Materials Science volume 19pages 3815–3825 (1984)Cite this article

Abstract

Laser alloying is a material processing method which utilizes the high power density available from focused laser sources to melt metal coatings and a portion of the underlying substrate. Since the melting occurs in a very short time and only at the surface, the bulk of the material remains cool, thus serving as an intimate heat sink. Large temperature gradients exists across the boundary between the melted surface region and the underlying solid substrate. The result is rapid self-quenching and resolidification. Quench rates as great as 1011 K sec−1 and concomitant resolidification velocities of 20 m sec−1 have already been realized. What makes laser surface alloying both attractive and interesting is the wide variety of chemical and microstructural states that can be retained because of the rapid quench from the liquid phase. These include chemical profiles where the “alloyed” element is highly concentrated near the atomic surface and decreases in concentration over shallow depths (hundreds of nanometers), and uniform profiles where the concentration is the same throughout the entire melted region. The types of microstructures observed include extended solid solutions, metastable crystalline phases, and metallic glasses. This bibliography is a compilation of published work in this area.

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Bibliography 1964–1984

References

  1. F. E. Cunningham, “The Use of Lasers for the Production of Surface Alloys”, MS thesis, Massachusetts Institute of Technology (1964).

  2. L. I. Mirkin, “On the Possibility of Impregnating Iron with Carbon by the Action of a Laser Light Pulse”,Dokl. Akad. Nauk SSSR 186 (1969) 305. [English referenceSov. Phys. Dokl. 14 (1969) 494.]

    Google Scholar 

  3. A. O. Schmidt, “Tool and Engineering Materials with Hard, Wear-Resistant Infusions”,J. Eng. Ind. 91 (1969) 549.

    Google Scholar 

  4. A. I. Betaneli, L. I. Danilenko, T. N. Loladze, E. F. Semiletova, B. M. Zhriyakov andA. K. Fannibo, “Investigation of Possible Additional Surface Alloying of R18 Steel using a Laser Beam”,Fiz. I. Khim. Obrab. Mater. (6) (1972) 22.

    Google Scholar 

  5. I. V. Gazuko, L. L. Krapivin andL. I. Mirkin, “Use of Laser Beam Heating for the Sintering of Powders and Chemicothermal Treatment of Metal Surfaces”,Poroshk. Metall. 133 (1) (1974) 27.

    Google Scholar 

  6. F. D. Seaman andD. S. Gnanamutha, “Using the Industrial Laser to Surface Harden and Alloy”,Met. Prog. 108 (3) (1975) 67.

    Google Scholar 

  7. V. S. Kovalenko andV. I. Volgin, “Laser Alloying of Structural Materials”,Tekhnol. Organ. Proizvod. (7) (1976) 60.

    Google Scholar 

  8. V. S. Kovalenko, V. I. Volgin andV. V. Mikhailov, “Electrophysical and Electrochemical Methods of Treating Parts, Improved Technology for Laser Alloying of the Surface of Structural Materials”,ibid. (3) (1977) 50.

    Google Scholar 

  9. A. V. Belotskii, V. S. Kovalenko, V. I. Volgin andV. I. Pshenichnyi, “Study of the Possibility of Alloying an Iron Surface with Molybdenum under the Action of Laser Radiation”,Fiz. I. Khim. Obrab. Mater. (3) (1977) 24.

    Google Scholar 

  10. V. S. Kovalenko andV. I. Volgin, “Characteristics of Laser Alloying of an Iron Surface with Vanadium”,ibid. (3) (1978) 28.

    Google Scholar 

  11. G. Sepold, Hardening and alloying of steel surfaces by high-power laser beams, in “Gas-Flow and Chemical Lasers”, edited by J. F. Wendt (Hemisphere, Washington, 1978) pp. 561–9.

    Google Scholar 

  12. S. M. Copley, M. Bass, E. W. Van Stryland, D. G. Beck andO. Esquivel, Microstructures of surface alloyed Ag-Cu films produced by laser melt quenching, in “Rapidly Quenched Metals III”, Vol. 1, edited by B. Cantor (The Metals Society, London, 1979) pp. 147–50.

    Google Scholar 

  13. G. Della Mea andP. Massoldi, Redistribution of Cu in polycrystalline and single crystal Al after laser irradiation, in “Laser-Solid Interactions and Laser Processing, Proceedings of the 1978 Materials Research Society”, edited by S. D. Ferris, H. J. Leamy and J. M. Poate (AIP Conf. Proceed. No. 50, New York, 1979) pp. 212–13.

  14. L. S. Weinman andJ. N. Devault, A microprobe study of rapidly solidified laser surface alloyed low carbon steel,ibid., pp. 239–44.

  15. L. S. Weinman, J. N. Devault andP. Moore, Properties of rapidly solidified, laser surface alloyed, low carbon steels, in “Applications of Lasers in Materials Processing”, edited by E. A. Metzbower (American Society for Metals, Metals Park, 1979) pp. 245–58.

    Google Scholar 

  16. D. S. Gnanamuthu, Laser surface treatment,ibid.in “, pp. 177–211.

    Google Scholar 

  17. I. Ya. Dekhtyar, M. M. Nishchenko, V. V. Bukhalenko andS. Ya. Kharitonskii, “Mossbauer Effect in Nb-Fe System Synthesized by Laser Irradiation”,Fiz. Met. Metall. 47 (1979) 887.

    Google Scholar 

  18. A. Belmondo andM. Castagna, “Wear Resistant Coatings by Laser Processing”,Thin Solid Films 64 (1979) 249.

    Google Scholar 

  19. P. M. Moore andL. S. Weinman, “Surface Alloying using High-Power Continuous Lasers”,SPIE 198 (1979) 120.

    Google Scholar 

  20. D. S. Gnanamuthu, “Laser surface treatment”,Opt. Eng. 19 (1980) 783.

    Google Scholar 

  21. C. W. Draper, C. M. Preece, L. Buene, D. C. Jacobson andJ. M. Poate, Laser alloying of deposited metal films on nickel, in “Laser and Electron Beam Processing of Materials”, Proceedings of the 1979 Materials Research Society, edited by C. W. White and P. S. Peercy (Academic Press, New York, 1980) pp. 721–7.

    Google Scholar 

  22. R. J. Schaefer, T. R. Tucker andJ. D. Ayers, Laser surface melting with carbide particle injection,ibid.in, pp. 754–9.

    Google Scholar 

  23. A. K. Jain, V. N. Kulkarni, D. K. Sood, M. Sundararaman andR. D. S. Yadav, “Laser Induced Surface Alloy Formation and Diffusion of Antimony in Aluminium”,Nucl. Instrum. Methods 168 (1980) 275.

    Google Scholar 

  24. A. I. Ushakov, A. M. Gorovoy, V. G. Kazakov andA. G. Il'chuk, “Alpha to Gamma Phase Transition Induced in Fe-Ni Films by Pulsed Laser Irradiation”,Fiz. Met. Metall. 50 (1980) 440. [English referencePhys. Met. Metall. 50 (1980) 189].

    Google Scholar 

  25. J. D. Ayers, T. R. Tucker andR. J. Schaefer, “Wear resistant surfaces by carbide particle injection”, in Proceedings 2nd International Conference on Rapid Solidification Processing (Claitors, Baton Rouge, 1980) pp. 212–20.

    Google Scholar 

  26. K. Takei, S. Fujimori andK. Nagai, “Rhenium Film Preparation by Laser Melting”,J. Appl. Phys. 51 (1980) 2903.

    Google Scholar 

  27. L. Buene, J. M. Poate, D. C. Jacobson, C. W. Draper andJ. K. Hirvonen, “Laser Irradiation of Nickel Single Crystals”,Appl. Phys. Lett. 37 (1980) 385.

    Google Scholar 

  28. E. Rimini andJ. E. E. Baglin, “Pulsed Laser Irradiation of Lead-Implanted Single-Crystal Copper Films”,ibid. 37 (1980) 481.

    Google Scholar 

  29. J. D. Ayers andT. R. Tucker, “Particulate-TiC-Hardened Steel Surfaces by Laser Melt Injection”,Thin Solid Films 73 (1980) 201.

    Google Scholar 

  30. G. Della Mea, L. Donna Dalle Rose, P. Mazzoldi andA. Miotello, “Laser Irradiation Effects on High Dose Implanted Cu and Pb in Polycrystalline Aluminium”,Rad. Effect 46 (1980) 133.

    Google Scholar 

  31. H. W. Bergmann andB. L. Mordike, “Structure of Laser Melted Steel Surfaces”,Z. Metallk. 71 (1980) 658.

    Google Scholar 

  32. P. G. Cappelli, “Laser Surface Alloying”, in Advisory Group for Aerospace Research and Development, NATA, Lecture Series 106 (March 1980) pp. 6.1–6.13.

    Google Scholar 

  33. W. R. Wampler, D. M. Follstaedt andP. S. Peercy, Pulsed laser annealing of aluminium, in “Laser and Electron-Beam Solid Interactions and Materials Processing”, proceedings of the 1980 Materials Research Society, Vol. 1, edited by J. F. Gibbons, L. D. Hess and T. W. Sigmon (Elsevier, North-Holland, New York, 1981) pp. 567–74.

    Google Scholar 

  34. L. Buene, D. C. Jacobson, S. Nakahara, J. M. Poate, C. W. Draper andJ. K. Hivoven, Laser irradiation of nickel: defect structures and surface alloying,ibid., pp. 583–90.

    Google Scholar 

  35. P. P. Pronko, H. Wiedersich, K. Seshan, A. L. Helling, T. A. Lograsso andP. M. Baldo, Pulsed laser mixing of Ni-Au surface films on nickel substrates,ibid. pp. 599–606.

    Google Scholar 

  36. G. Battaglin, A. Carnera, G. Della Mea, P. Mazzoldi, A. K. Jain, V. N. Kulkarni andD. K. Sood, High power laser effects on unimplanted and implanted aluminium single crystals,ibid. pp. 615–22.

    Google Scholar 

  37. L. Buene, E. N. Kaufmann, M. L. Mcdonald, J. Kothaus, R. Vianden, K. Freitag andC. W. Draper, Laser-pulse melting of hafniumimplanted nickel studied with TDPAC and RBS/channeling techniques, in “Nuclear and Electron Resonance Spectroscopy”, Proceedings of the 1980 Materials Research Society, Vol. 3, edited by E. N. Kaufmann and G. Schenoy (Elsevier, North-Holland, New York, 1981) pp. 391–6.

    Google Scholar 

  38. C. W. Draper, L. S. Meyer, D. C. Jacobson, L. Buene andJ. M. Poate, “Laser Surface Alloying for Passivation of Ti-Pd”,Thin Solid Films 75 (1981) 237.

    Google Scholar 

  39. H. W. Bergmann andB. L. Mordike, “Surface Alloying of Tool Steels with Carbides by Laser or Electron Beam Melting”,Z. Wekstofftech. 12 (1981) 142.

    Google Scholar 

  40. V. P. Greco, “Microstructural and Property Changes of Laser-Treated Electrodeposits”,Plating and Surface Finishing 68 (3) (1981) 56.

    Google Scholar 

  41. D. C. Jacobson, W. M. Augustyniak, L. Buene, J. M. Poate andC. W. Draper, “Analysis of Laser Alloyed Surfaces”,IEEE Trans. Nucl. Sci. 28 (1981) 1828.

    Google Scholar 

  42. C. W. Draper, L. S. Meyer, L. Buene, D. C. Jacobson andJ. M. Poate, “Laser Surface Alloying of Gold Films on Nickel”,Appl. Surf. Sci. 7 (1981) 276.

    Google Scholar 

  43. A. K. Jain, V. N. Kulkarni andD. K. Sood, “Pulsed Laser Heating Calculations Incorporating Vaporization”,Appl. Phys. 25 (1981) 127.

    Google Scholar 

  44. C. W. Draper, L. Buene, J. M. Poate andD. C. Jacobson, “Rutherford Backscattering and Marker Diffusion to Determine Melt Threshold in Laser Mirror Damage Studies”,Appl. Opt. 20 (1981) 1730.

    Google Scholar 

  45. J. D. Ayers, in “Particulate Composite Surfaces by Laser Processing”, edited by K. Mukherjee and J. Mazumder (TMS-AIME, Warrendale, 1981).

    Google Scholar 

  46. J. D. Ayers, “Modification of Metal Surfaces by the Laser Melt/Particle Injection Process”,Thin Solid Films 84 (1981) 323.

    Google Scholar 

  47. H. W. Bergmann andB. L. Mordike, “Laser and Electron-Beam Melted Amorphous Layers”,J. Mater. Sci. 16 (1981) 863.

    Google Scholar 

  48. P. G. Moore andE. Mccafferty, “Passivation of Fe/Cr Alloys Prepared by Laser-Surface Alloying”,J. Electrochem. Soc. 128 (1981) 1391.

    Google Scholar 

  49. A. K. Jain, V. N. Kulkarni andD. K. Sood, “Laser Treatment of Chromium Films on Aluminium at High Power Densities”,Thin Solid Films 86 (1981) 1.

    Google Scholar 

  50. P. L. Antona andA. Bertani, “Surface treatment of steel by alloying with a high power laser”, in 9th Convegno Nazionale Trattamenti Termici, Assoc. Italiana di Metallurgia, Milano, Italy (1981) pp. 61–4.

    Google Scholar 

  51. J. D. Ayers, R. J. Schaefer andW. P. Robey, “A Laser Processing Technique for Improving the Wear Resistance of Metals”,J. Met. 33 (1981) 19.

    Google Scholar 

  52. F. Pleiter andK. G. Prasad, “Investigation of Laser Irradiated Poly- and Monocrystalline Aluminium by Perturbed Angular Correlation Measurements”,Phys. Lett. 84A (1981) 345.

    Google Scholar 

  53. G. Sepold, Surface Finishing with Laser Beams, in “Proceedings of the International Congress on Surface Technology 1981”, edited by C. Rohrbach (VDI-Verlag GmbH, Dusseldorf, W. Germany, 1981) pp. 323–30.

    Google Scholar 

  54. A. K. Jain, V. N. Kulkarni andD. K. Sood, “A Nuclear Microprobe Analysis of Laser Treated Aluminium Implanted with Antimony”,Nucl. Instrum. Meth. 191 (1981) 151.

    Google Scholar 

  55. A. K. Jain, V. N. Kulkarni, K. B. Nambiar, D. K. Sood, S. C. L. Sharma andP. Mazzoldi, “Pulsed Laser Treatment of Lead Films on Aluminium”,Rad. Effects 63 (1982) 175.

    Google Scholar 

  56. A. Miotello andL. F. Dona Dalle Rose, “New Evidence for the Soret Effect in Pulsed Laser Experiments”,Phys. Lett. 87A (1982) 317.

    Google Scholar 

  57. A. K. Jain, V. N. Kulkarni andD. K. Sood, “Nonequilibrium Segregation During Pulsed Laser Treatment of Antimony Implanted Aluminium”,Rad. Effects 63 (1982) 183.

    Google Scholar 

  58. A. Miotello, L. F. Dona Dalle Rose andA. Desalvo, “Role of Thermal Diffusion in the Redistribution of Cu During Pulsed Laser Irradiating of Cu-planted Al”,Appl. Phys. Lett. 40 (1982) 135.

    Google Scholar 

  59. B. Stritzker, B. R. Appleton, C. W. White andS. S. Lau, “Superconducting V3Si Produced by Pulsed Laser Annealing”,Solid State Commun. 41 (1982) 321.

    Google Scholar 

  60. G. Battaglin, A. Carnera, G. Della Mea, P. Mazzoldi, E. Jannitti, A. K. Jain andD. K. Sood, “Laser Treatment of a Nonsubstitutional Alloy Cr Implanted in Aluminium”,J. Appl. Phys. 53 (1982) 3224.

    Google Scholar 

  61. Idem, Thermal stability of metastable phases produced by laser treatment of aluminium implanted with chromium and molybdenum, in “Metastable Materials Formation by Ion Implantation”, Proceedings of the 1981 Materials Research Society, Vol. 7, edited by S. T. Picraux and W. J. Choyke (Elsevier North-Holland, New York, 1982) pp. 327–32.

    Google Scholar 

  62. Idem, Pulsed laser treatment of virgin, self and europium implanted nickel: evidence of defect impurity interaction,ibid.in, pp. 333–8.

    Google Scholar 

  63. P. S. Peercy, D. M. Follstaedt, S. T. Picraux andW. R. Wampler, Defects and AlSb precipitate nucleation in laser irradiated aluminium, in “Laser and Electron-Beam Interactions with Solids”, Proceedings of the 1981 Materials Research Society, Vol. 4, edited by B. R. Appleton and G. K. Celler (Elsevier North-Holland, New York, 1982) pp. 401–6.

    Google Scholar 

  64. C. W. Draper, D. C. Jacobson, J. M. Gibson, J. M. Poate, J. M. Vandenberg andA. G. Cullis, Laser and ion beam mixing Cr and Ni+Cr films on Cu,ibid.in, pp. 413–18.

    Google Scholar 

  65. C. W. Draper, F. J. A. Den Broeder, D. C. Jacobson, E. N. Kaufmann, M. L. Mcdonald andJ. M. Vandenberg, Studies of laser-alloyed Zr-containing surface layers,ibid.in, pp. 419–24.

    Google Scholar 

  66. L. F. Dona Dalle Rose andA. Miotello, Interplay of Soret vs. normal impurity diffusion during laser or E-beam induced heat flow transients in metals,ibid.in, pp. 425–30.

    Google Scholar 

  67. B. L. Mordike andH. W. Bergmann, Surface alloying of iron alloys by laser beam melting, in “Rapidly Solidified Amorphous and Crystalline Alloys”, Proceedings of the 1981 Materials Research Society, Vol. 8, edited by B. H. Kear, B. C. Giessen and M. Cohen (Elsevier North-Holland, New York, 1982) pp. 463–83.

    Google Scholar 

  68. H. W. Bergmann andB. L. Mordike, Production and properties of amorphous layers on metal substrates by laser and electron beam melting,ibid.in, pp. 497–503.

    Google Scholar 

  69. P. A. Molian, P. J. Wang, K. H. Khan andW. E. Wood, Phase transformation studies of laserprocessed Fe-0.2% C-Cr surface alloys,ibid.in, pp. 511–15.

    Google Scholar 

  70. Y. Nilsson, Surface melting of cast iron with a high power laser beam,ibid.in, pp. 517–21.

    Google Scholar 

  71. D. B. Snow, Microstructure and mechanical properties of laser-processed Ni-Al-Mo based alloys,ibid.in, pp. 523–7.

    Google Scholar 

  72. T. R. Tucker, A. H. Clauer, S. L. Ream andC. T. Walters, Rapidly solidified micro structure in surface layers of laser-alloyed Mo on Fe-C substrates,ibid.in, pp. 541–5.

    Google Scholar 

  73. T. Chande andJ. Mazumder, “Mass Transport in Laser Surface Alloying: Iron-Nickel System”,Appl. Phys. Lett. 41 (1982) 42.

    Google Scholar 

  74. U. A. Bykovskii, V. S. Kulikauskas, V. N. Nevolin andI. D. Khabelashivili, “Obtaining Non-Equilibrium Alloys with the Aid of Monochromatic Radiation”,Zh. Tekh. Fiz. 52 (1982) 61.

    Google Scholar 

  75. P. A. Molian, “Effect of Fusion Zone Shape on the Composition Uniformity of Laser Surface Alloyed Iron”,Scripta Metall. 16 (1982) 65.

    Google Scholar 

  76. A. K. Jain, V. N. Kulkarni, K. B. Nambiar, D. K. Sood, S. C. L. Sharma andP. Mazzoldi, “Pulsed Laser Treatment of Lead Films on Aluminium”,Rad. Effects 63 (1982) 175.

    Google Scholar 

  77. C. J. Lin andF. Spaepen, “Fe-B Glasses Formed by Picosecond Pulsed Laser Quenching”,Appl. Phys. Lett. 41 (1982) 721.

    Google Scholar 

  78. I. B. Borovskii, D. D. Gorodskii, I. M. Sharafeev andS. F. Moryashchev, “Mass Transfer During Treatment of Metal Surfaces by Fusion Induced by Continuous Laser Radiation”,Sov. Phys. Dokl. 27 (1982) 259.

    Google Scholar 

  79. P. A. Molian andW. F. Wood, “Martensitic Transformation of Laser Processed Fe-5% Ni Alloy”,Scripta Metall. 16 (1982) 1301.

    Google Scholar 

  80. Idem, “Formation of Austenite in Laser-Processed Fe-0.2% C-20% Cr Alloy”,Mater. Sci. Eng. 56 (1982) 271.

    Google Scholar 

  81. J. B. Lumsden, D. S. Gnanamuthu andR. J. Moores, Corrosion resistance of AISI 4140 steel laser surface alloyed with Cr and Ni, in “Corrosion of Metals Processed by Directed Energy Beams”, edited by C. R. Clayton and C. M. Preece (TMS-AIME, New York, 1982) pp. 129–34.

    Google Scholar 

  82. Z. L. Wang, J. F. M. Westendorp andF. W. Saris, “Laser and Ion-Beam Mixing of Cu-Au-Cu and Cu-W-Co Thin Films”,Nucl. Instrum. Meth. 209/210 (1983) 115.

    Google Scholar 

  83. E. N. Kaufmann, L. Buene, M. L. Mcdonald, J. Kotthaus, K. Freitag, R. Vianden andC. W. Draper, “Hf-Implanted Ni Studied with TDPAC and RBS/Channeling Before and After Laser Surface Melting and Thermal Annealing”,ibid. 209/210 (1983) 427.

    Google Scholar 

  84. P. A. Molian, “Structural Characterization of Laser-Processed Molybdenum Steel”,Mater. Sci. Eng. 58 (1983) 175.

    Google Scholar 

  85. T. Chande andJ. Mazumder, “Composition Control in Laser Surface Alloying”,Met. Trans. 14B (1983) 181.

    Google Scholar 

  86. P. A. Molian andW. E. Wood, “Transformation Behaviour of Laser Processed Fe-5% Cr, Fe-5% Ni and Fe-6% Cr-2% Ni Alloys”,J. Mater. Sci. 18 (1983) 2555.

    Google Scholar 

  87. Idem, “Transformation Structures and Strengthening Mechanisms of Laser Processed Fe-Cr Alloys”ibid. 18 (1983) 2563.

    Google Scholar 

  88. T. Chande andJ. Mazumder, “Dimensionless Parameters for Process Control in Laser Surface Alloying”,Opt. Eng. 22 (1983) 362.

    Google Scholar 

  89. C. -J. Lin andF. Spaepen, Fe-B glasses formed by picosecond pulsed laser quenching, in “Chemistry and Physics of Rapidly Solidified Materials”, edited by B. J. Berkowitz and R. O. Scattergood (TMS-AIME, New York, 1983) pp. 273–280.

    Google Scholar 

  90. B. L. Mordike, H. W. Bergmann andN. Grob, “Gaseous Alloying with Laser Heating”,Z. Werkstofftech. 14 (1983) 253.

    Google Scholar 

  91. S. T. Sekula, J. R. Thompson, G. M. Beardsley andD. H. Lowndes, “Low Temperature Laser Quenching Studies of Superconducting Mo-N and Mo-C Alloys”,J. Appl. Phys. 54 (1983) 6517.

    Google Scholar 

  92. M. E. Gurevich, L. N. Larikov, V. G. Novitskii, A. E. Pogorelov andA. F. Zhuravlev, “Laser-Stimulated Mass Transfer in Metals”,Phys. Status Solidi 76 (1983) 479.

    Google Scholar 

  93. P. A. Molian, “Non-Equilibrium Phases in Laser-Processed Fe-0.2 wt % C-20 wt % Cr Alloys”,Mater. Sci. Eng. 60 (1983) 241.

    Google Scholar 

  94. G. Sepold, “Hardening and Alloying of Steel Surfaces by High-Power Laser Beams”, in Physical Processes in Laser/Materials Interactions, edited by M. Bertolotti (Plenum Press, New York, 1983) pp. 163–73.

    Google Scholar 

  95. R. Brown andJ. D. Ayers, “Solid Particle Erosion of A16061 with a Laser Melted and TiC Particle Injected Surface Layer”, in Wear of Materials 1983, edited by K. C. Ludema (ASME, New York, 1983) pp. 325–32.

    Google Scholar 

  96. R. J. Schaefer andR. Mehrabian, “Processing/Microstructure Relationships in Surface Melting”, in Laser-Solid Interactions and Transient Thermal Processing of Materials, edited by J. Narayan, W. L. Brown and R. A. Lemons (North-Holland, New York, 1983) pp. 733–44.

    Google Scholar 

  97. C. -J. Lin andF. Spaepen, “Solidification Morphology of Picosecond Pulsed Laser Quenched Fe96B4”,Scripta Metall. 17 (1983) 1259.

    Google Scholar 

  98. C. -J. Lin, F. Spaepen andD. Turnbull, “Picosecond Pulsed Laser-Induced Melting and Glass Formation in Metals”,J. Non-Cryst. Solids 61–62 (1984) 767.

    Google Scholar 

  99. P. A. Molian andW. E. Wood, “Rapid Solidification of Laser-Processed Chromium Steels”,Mater. Sci. Eng. 62 (1984) 271.

    Google Scholar 

  100. G. Battaglin, A. Canera, J. Chaumont, G. Della Mea, L. F. Dona Dalle Rose, A. K. Jain, V. N. Kulkarni, P. Mazzoldi, A. Miotello andD. K. Sood, “Pulsed laser treatment of Eu and La implanted in Ni: surface alloying, trapping and damage”, in Proceedings of the 1983 European Materials Research Society, Strasbourg, BRD May 1983, to be published.

  101. G. Battaglin, A. Carnera, G. Della Mea, L. F. Dona Dalle Rose, V. N. Kulkarni, S. Lo Russo and P. Mazzoldi, “Mixing of Pb and Ni under ion bombardment and pulsed laser irradiation”, in Proceedings of the NATO-ASI on Surface Engineering, Les Arcs, Fr. July 1983 to be published.

  102. K. Affolter andM. Von Allmen, “Glass Forming Ability of Laser Quenched Transition-Metal Alloys”,Appl. Phys. A, in press.

  103. F. J. A. Den Broeder, J. M. Vandenberg andC. W. Draper, “Microstructures of Cu-Zr Phases Formed by Laser Surface Treatment”,Thin Solid Films 111 (1984) 43.

    Google Scholar 

  104. I. Sawchyn andC. W. Draper, “AES and RBS Analysis of Laser Mixed Cr and Ni Films on Cu Alloys”,Appl. Surf. Sci. 18 (1984) 84.

    Google Scholar 

  105. R. Becker, R. Rothe andG. Sepold, “Surface alloying by means of laser beams”, in 3rd International Colloquim on Welding and Melting by Electrons and Laser Beam, Lyon, Fr. September 1983, in press.

Review Articles

  1. C. W. Draper, Laser surface alloying: the state of the art, in “Lasers in Metallurgy”, edited by K. Mukherjee and J. Mazumder (TMS-AIME, New York, 1981) pp. 67–92. [J. Met. 34 (6) (1982) 24].

    Google Scholar 

  2. D. K. Sood, “Criteria for Formation of a Metastable Solid Solution by Rapid Melt Quenching During Pulsed Laser or Electron Beam Treatment”,Rad. Effects Lett. 67 (1981) 13.

    Google Scholar 

  3. C. W. Draper, “Laser Surface Alloying: A Bibliography”,Appl. Opt. 20 (1981) 3093.

    Google Scholar 

  4. D. M. Follstaedt, Metallurgy and microstructures of pulse melted alloys, in “Laser and Electron-Beam Interactions with Solids”, Proceedings of the 1981 Materials Research Society, Vol. 4, edited by B. R. Appleton and G. K. Celler (Elsevier North-Holland, New York, 1982) pp. 377–88.

    Google Scholar 

  5. D. K. Sood, “Metastable Surface Alloys Produced by Ion Implantation, Laser and Electron Beam Treatment”,Rad. Effects 63 (1982) 141.

    Google Scholar 

  6. C. W. Draper andJ. M. Poate, Laser surface alloying, in “Surface Modification and Alloying”, edited by J. M. Poate, G. Foti and D. C. Jacobson (Plenum Press, New York, 1983) Ch. 13, pp. 385–404.

    Google Scholar 

  7. D. B. Snow, E. M. Breinan andB. H. Keaf, “Rapid solidification processing of superalloys using high power lasers”, Superalloys 1980, in Proceedings of the Fourth International Symposium on Superalloys, edited by J. K. Tien, S. T. Wlodek, H. Morrow, M. Gell and G. E. Maurer (American Society for Metals, Metals Park, Ohio, 1980) pp. 189–203.

    Google Scholar 

  8. E. M. Breinan, D. B. Snow andC. O. Brown, “Program to Investigate Advanced Laser Processing of Materials”, Final Report to Office of Naval Research N00014-C-0387 (January 1981).

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  1. AT & T Technologies, P.O. Box 900, 08540, Princeton, New Jersey, USA

    C. W. Draper & C. A. Ewing

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  1. C. W. Draper
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  2. C. A. Ewing
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Draper, C.W., Ewing, C.A. Laser surface alloying: a bibliography. J Mater Sci 19, 3815–3825 (1984). https://doi.org/10.1007/BF00980743

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  • DOI: https://doi.org/10.1007/BF00980743

Keywords

  • Metallic Glass
  • Heat Sink
  • Surface Alloy
  • Laser Surface
  • High Power Density