Andreas M. Glaeser
`
`Department of Materials Science and Engineering
`University of California
`Berkeley, California 94720
`!: (510)-486-7262
`Fax: (510)-643-5792
`e-mail: aglaeser@sapphire.berkeley.edu
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`Education:
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`Massachusetts Institute of Technology
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`S. B., Materials Science and Engineering, (1976)
`Thesis topic: Microstructure development during creep deformation of CaF2
`Sc. D., Materials Science and Engineering, (1981)
`Thesis topic: Effects of dopant additions on grain boundary migration in lithium fluoride
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`Experience:
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`1981-2016
`Principal Investigator/Affiliated Scientist, Lawrence Berkeley Laboratory
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`1981-88
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`Assistant Professor of Ceramic Engineering
`University of California, Berkeley
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`1988-1998
`Associate Professor of Ceramic Engineering
`University of California, Berkeley
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`1998-2013
`Professor of Ceramic Engineering
`University of California, Berkeley
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`1998-2013
`Adjunct Professor
`University of California, San Francisco
`Department of Restorative Dentistry
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`2008-present
`Visiting Professor
`Fukuoka Institute of Technology, Fukuoka, Japan
`2013-present
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`Professor Emeritus, University of California, Berkeley
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`GE-1004.001
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`A. M. Glaeser
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`January 1st, 2016
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`Fields of Interest:
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`Ceramic processing
`Ceramic-ceramic and ceramic-metal joining
`Microstructure development
`Phase transformations
`Thermodynamics
`Grain boundary structure and properties
`Surface and interfacial properties at elevated temperature
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`Professional and Honorary Societies:
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`American Ceramic Society
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`Coordinating Editor, 1984–1988
`Contributing Editor, 1988–90
`Program Chairman - Tutorial Lecture Series
`Pacific Coast Regional Meeting - 1982, 1984, 1988
`Secretary/Treasurer, Northern California Section, 1987
`Vice Chairman, Northern California Section, 1988
`Chairman, Northern California Section, 1989
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`National Institute of Ceramic Engineers (1994-97)
`International Community for Composites Engineering (1994 to present)
`Editorial Advisory Board, Diffusion and Defect Data (1997 to present)
`Editorial Board Member, Journal of the Ceramic Society of Japan (2005–2007)
`Editorial Board Member, High Temperature Materials and Processes, (2010 to present)
`Editorial Board Member, Ceramics International, (2010 to present)
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`Awards and Honors:
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`Hertz Foundation Graduate Fellow (1976-81)
`Regent's Junior Faculty Fellowship (1982)
`Arco Junior Faculty Fellowship (1982, 1983)
`Lecturer, Gordon Research Conference on Solid State Studies in Ceramics:
`1983, 1997
`DOE Materials Sciences Award Competition
`- 1987, 1988, 1989 Lawrence Berkeley Laboratory Nominee
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`-Outstanding Scientific Accomplishments in Metallurgy and Ceramics
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`American Ceramic Society Ceramographic Competition
`– 1987, Second Place, sem Category
`– 1988, Second Place, sem Category
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`Second Place, Optical Microscopy
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`First Place, Student Poster Competition (research supervisor)
`– 1993, First Place, sem Category
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`Second and Third Place, Optical Microscopy
`– 1994, Second Place, Optical Microscopy
`– 1996, First Place, Combined Techniques
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`A. M. Glaeser
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`January 1st, 2016
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`Awards and Honors (cont.):
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`American Ceramic Society Ceramographic Competition (continued)
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`First Place, Problem Solving
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`Third Place, Optical Microscopy
`– 1999, First Place, Undergraduate Students (research supervisor)
`– 2004, Roland B. Snow Award, Best of Show, 106th Annual Meeting of the American
`Ceramic Society
`First Place and Second Place, Optical Microscopy
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`– 2005, First Place and Second Place, Optical Microscopy
`– 2006, First Place and Second Place, Scanning Probe Microscopy
`– 2008, Roland B. Snow Award, Best of Show, 110th Annual Meeting of the American
`Ceramic Society
`First Place, Transmission Electron Microscopy
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`Alcoa Foundation Grant (1990)
`Miller Research Professorship (1991)
`International Advisory Committee on Functionally Gradient Materials
`(1991-2003)
`Fulrath Memorial Award (1993)
`AustCeram ‘94 Ceramographic Competition
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`– 1994, First Place, Electron Microscopy
`Fellow, American Ceramic Society (1998)
`Richard M. Fulrath Award (1999)
`Japan Society for the Promotion of Science (JSPS) Invitation Fellowship for
`Research in Japan (2004, 2007, 2013)
`Distinguished Guest, ISTEC, Faenza, Italy, (2010, 2011)
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`Teaching Activities:
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`Introduction to the Properties of Materials
`Thermodynamics
`Engineering Thermodynamics
`Applications of Chemical Thermodynamics
`Phase Equilibria and Phase Transformations
`Glass and Crystalline Ceramics
`Ceramic and Metal Powder Processing
`Phase Diagrams in Materials Science and Technology
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`A. M. Glaeser
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`January 1st, 2016
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`Publications:
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`1.
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`A. M. Glaeser, “Microstructural Development in CaF2,” S. B. Thesis, Massachusetts Institute of
`Technology, (1976).
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`R. M. Cannon, H. K. Bowen, A. M. Glaeser, H. J. Mayson, F. A. McClintock,
`W. M. Sherry, J. B. VanderSande, and M. F. Yan, “Fabrication and Properties of Laser
`Window Materials,” NBS Special Publication 462, (1976).
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`A. M. Glaeser, “Boundary Mobility of Lithium Fluoride,” Sc. D. Thesis, Massachusetts Institute
`of Technology, (1981).
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`A. M. Glaeser, H. K. Bowen, and R. M. Cannon, “Grain Boundary Migration in LiF,” pp. 227-
`48 in Surfaces and Interfaces in Ceramic and Ceramic-Metal Systems, edited by J. A.
`Pask and A. G. Evans, Plenum Press, New York (1981).
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`A. M. Glaeser and J. C. Chen, “Technique for Measuring Grain Boundary Mobility:
`Application to MgO-Doped Al2O3,” J. Am. Ceram. Soc., 65, [7], C97-C98 (1982).
`A. M. Glaeser, J. S. Haggerty, and S. C. Danforth, U. S. Patent No. 4,379,020,
`“Polycrystalline Semiconductor Processing,” April 5, 1983.
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`W. C. Carter and A. M. Glaeser, “The Effect of Dihedral Angle on the Stability of Pore
`Channels,” J. Am. Ceram. Soc., 67, [6], C124-C127 (1984).
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`A. M. Glaeser, “Microstructure Development in Ceramics: The Role of Grain Growth,”
`Yogyo Kyokai-Shi, 92, [10], 537-46 (1984).
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`M. D. Drory and A. M. Glaeser, “The Stability of Pore Channels: Experimental Observations,”
`J. Am. Ceram. Soc., 68, [1], C14-C15 (1985).
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`A. M. Glaeser, H. K. Bowen, and R. M. Cannon, "Grain Boundary Migration in LiF: I.
`Mobility Measurements," J. Am. Ceram. Soc., 69, [2], 119-26 (1986).
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`A. M. Glaeser, H. K. Bowen, and R. M. Cannon, “Grain Boundary Migration in LiF: II.
`Microstructural Characteristics,” J. Am. Ceram. Soc., 69, [4], 299-309 (1986).
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`A. M. Glaeser, H. K. Bowen, and R. M. Cannon, “Background Impurity Effects on Grain
`Boundary Migration in LiF,” Mater. Sci. and Eng., 79, [1], 111-17 (1986).
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`A. M. Glaeser and J. W. Evans, “The Effect of Grain Boundary Migration on Apparent
`Boundary Diffusion Coefficients,” Acta Metall., 34, [8], 1545-52 (1986).
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`14. W. C. Carter and A. M. Glaeser, “The Morphological Stability of Continuous Intergranular
`Phases,” pp. 15-26 in Tailoring of Multiphase and Composite Ceramics, edited by
`R. E. Tressler, Plenum Press, New York (1986).
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`15.
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`L. H. Edelson and A. M. Glaeser, “Method of Removing Surface Porosity on Glassy Carbon
`Tiles,” Carbon, 24, [5], 635-37 (1986).
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`16. W. C. Carter and A. M. Glaeser, “The Morphological Stability of Continuous Intergranular
`Phases: Thermodynamic Considerations,” Acta Metall., 35, [1], 237-45 (1987).
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`A. M. Glaeser
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`January 1st, 2016
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`Publications (cont.):
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`17. W. C. Carter and A. M. Glaeser, “The Effect of Finite Amplitude Perturbations on the
`Stability of Continuous Phases,” Mater. Sci. & Eng., 89, L41-L45 (1987).
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`A. M. Glaeser, “On the Morphological Stability of Finite-Length Intergranular Phases,” Materials
`Letters, 5, [7/8], 239-245 (1987).
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`J. Rödel and A. M. Glaeser, “Production of Controlled Morphology Intergranular Pore Arrays:
`Implications and Opportunities,” J. Am. Ceram. Soc., 70, [8], C172-C175 (1987).
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`L. H. Edelson and A. M. Glaeser, “Effects of Thermal Pretreatment on Coarsening of
`Nominally Monodispersed Titania,” J. Am. Ceram. Soc., 71, [4], C198-C201 (1988).
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`L. H. Edelson and A. M. Glaeser, “The Role of Particle Substructure in the Sintering of
`Monosized Titania,” J. Am. Ceram. Soc., 71, [4], 225-35 (1988).
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`R. M. Cannon, T. S. Oh, J. Rödel, A. M. Glaeser and R. O. Ritchie, “Effects of Near
`Interfacial Microstructure on Toughness and Subcritical Crack Growth in Ceramic/Metal
`Systems,” pp. 567-81 in Interfaces in Polymer, Ceramic, and Metal Matrix Composites,
`H. Ishida, Ed., Elsevier Science, New York, (1988).
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`J. Rödel and A. M. Glaeser, “A Technique for Investigating the Elimination and Coarsening of
`Model Pore Arrays,” Materials Letters, 6, [10], 351-55 (1988).
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`J. Rödel and A. M. Glaeser, “Application of controlled interfacial pore structures to kinetic
`studies in alumina,” pp. 485-90 in Interfacial Structures, Properties and Design, edited by
`M. H. Yoo, W. A. T. Clark, and C. L. Braint (Mater. Res. Soc. Proc., 122, Pittsburgh, PA 1988).
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`J. Rödel and A. M. Glaeser, “Photolithography: A New Tool for Ceramic Science,” pp. 293-306
`in Processing Science of Advanced Ceramics, edited by I. Aksay and D. R. Ulrich (Mater.
`Res. Soc. Proc., 155, Pittsburgh, PA 1989).
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`J. Rödel and A. M. Glaeser, “High Temperature Healing of Lithographically Introduced Cracks
`in Sapphire,” J. Am. Ceram. Soc., 73, [3], 592-601 (1990).
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`J. Rödel and A. M. Glaeser, “Morphological Evolution of Pore Channels in Alumina,” pp. 243-
`257 in Sintering of Advanced Ceramics, edited by C. A. Handwerker, J. E. Blendell and W.
`A. Kaysser, (Ceramic Transactions, 7, The American Ceramic Society, Westerville, OH 1990).
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`J. Rödel and A. M. Glaeser, “Pore Drag in Alumina,” pp. 280-295in Sintering of Advanced
`Ceramics, edited by C. A. Handwerker, J. E. Blendell and W. A. Kaysser, (Ceramic Transactions, 7,
`The American Ceramic Society, Westerville, OH 1990).
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`J. Rödel and A. M. Glaeser, “Anisotropy of Grain Growth in Alumina,” J. Am. Ceram. Soc., 73,
`[11], 3293-301 (1990).
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`J. Rödel and A. M. Glaeser, “Pore Drag and Pore-Boundary Separation in Alumina,”
`J. Am. Ceram. Soc., 73, [11], 3302-12 (1990).
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`A. M. Glaeser
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`January 1st, 2016
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`Publications (cont.):
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`31.
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`A. M. Glaeser, “Application of Microdesigned Interfaces to Studies of Ceramic Processing,”
`pp. 593-606 in Ceramic Powder Processing Science, edited by G. Messing, H. Hausner, and
`S. Hirano, The American Ceramic Society, Westerville, OH (1990).
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`J. Rödel and A. M. Glaeser, “Microdesigned Interfaces: New Opportunities for Materials
`Science,” J. Ceram. Soc. Japan, 99, [4], 251-65 (1991).
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`A. M. Glaeser, “The Role of Interfaces in Sintering: An Experimental Perspective,” pp. 287-322
`in The Science of Ceramic Interfaces, edited by J. Nowotny, Elsevier Press, Amsterdam,
`Holland (1991).
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`J. W. Bullard, A. M. Glaeser and A. W. Searcy, “Thermodynamic and Kinetic Characteristics
`of Variations in Shapes of Ridges Formed on {100} Lithium Fluoride Surfaces,” pp. 247-52 in
`Structure and Properties of Interfaces in Materials, edited by W. T. Clark, U.
`Dahmen, and C. L. Briant (Mater. Res. Soc. Proc., 238, Pittsburgh, PA 1992).
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`Q. J. Wang, S. C. Moss, M. L. Shalz, A. M. Glaeser, H. W. Zandbergen and P. Zschack,
`“X-ray Study of Alkoxide-Derived Amorphous TiO2 Powder,” pp. 1287-1294 in Physics and
`Chemistry of Finite Systems: From Clusters to Crystals; Volume II, edited by P. Jena et
`al., Kluwer Academic Publishers, The Netherlands, (1992).
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`J. D. Powers and A. M. Glaeser, “High-Temperature Healing of Cracklike Flaws in Mg and Ca
`Ion-Implanted Sapphire,” J. Am. Ceram. Soc., 75, [9], 2547-58 (1992).
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`J. S. Stölken and A. M. Glaeser, “The Morphological Evolution of Cylindrical Rods with
`Anisotropic Surface Free Energy via Surface Diffusion,” Scripta Metall. et Mater., 27, [4], 449-54
`(1992).
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`A. M. Glaeser, “Fundamental Studies of Interfaces at High Temperatures via Microdesigned
`Interfaces,” pp. 135-152 in Proceedings of the International Symposium on Fine Ceramics Arita ‘92, held in
`Arita, Saga Prefecture, November 11-13, 1992.
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`M. L. Shalz, B. J. Dalgleish, A. P. Tomsia and A. M. Glaeser, “Ceramic Joining I. Partial
`Transient Liquid Phase Bonding of Alumina via Cu/Pt Interlayers,” J. Mater. Sci., 28, [6], 1673-84
`(1993).
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`J. D. Powers and A. M. Glaeser, “High-Temperature Healing of Cracklike Flaws in Titanium
`Ion-Implanted Sapphire,” J. Am. Ceram. Soc., 76, [9], 2225-34 (1993).
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`M. L. Shalz, B. J. Dalgleish, A. P. Tomsia and A. M. Glaeser, “New Approaches to Joining
`Ceramics For High-Temperature Applications,” Ceramic Transactions, 35, 301-22, (1993)
`(Structural Ceramics Joining II, edited by A. J. Moorhead, et al.).
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`A. M. Glaeser, M. L. Shalz, B. J. Dalgleish and A. P. Tomsia, “A Transient FGM Interlayer
`Based Approach to Joining Ceramics,” Ceramic Transactions, 34, 341-357 (1993) (Proceedings of 2nd
`International Symposium on FGM, edited by J. Birch Holt, Mitsue Koizumi, Toshio Hirai and Zuhair A.
`Munir).
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`A. M. Glaeser
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`January 1st, 2016
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`Publications (cont.):
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`43.
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`R. S. Gilmore, A. M. Glaeser and J. C. Wade, “Calibrating Ultrasonic Images for the NDE of
`Structural Materials,” ASME IGTI Congress Paper #93-GT-300, (presented at the International
`Gas Turbine and Aeroengine Congress and Exposition, Cincinnati, OH; May 24-27th, 1994).
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`A. M. Glaeser, “Low Temperature Transient Liquid Phase Ceramic Joining,” U. S. Patent No.
`5,234,152; issued August 10th, 1993.
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`A. M. Glaeser, “Microdesigned Interfaces and Interlayers for Basic and Applied Research on
`Advanced Ceramics,” pp. 19-42 in the Proceedings of the Fulrath Memorial International
`Symposium on Advanced Ceramics, Waseda University Press, Tokyo, Japan (1993).
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`M. L. Shalz, B. J. Dalgleish, A. P. Tomsia and A. M. Glaeser, “Ceramic Joining II. Partial
`Transient Liquid Phase Bonding of Alumina via Cu/Ni/Cu Multilayer Interlayers,” J. Mater. Sci.,
`29, [12], 3200-08 (1994).
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`B. J. Dalgleish, A. P. Tomsia, K. Nakashima, M. Locatelli and A. M. Glaeser, “Low
`Temperature Routes to Joining Ceramics for High-Temperature Applications,”
`Scripta Metall. et Mater., 31, [8], 1043-48 (1994).
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`M. L. Shalz, B. J. Dalgleish, A. P. Tomsia, R. M. Cannon and A. M. Glaeser, “Ceramic
`Joining III. Bonding of Alumina via Microdesigned Cu-Nb Interlayers,” J. Mater. Sci., 29, [14],
`3678-90 (1994).
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`J. W. Bullard, A. M. Glaeser, and A. W. Searcy, “Shape Changes by {100} Lithium Fluoride
`Ridge-Channel Arrays and of Lithium Fluoride Particles at Sintering Temperatures,”
`J. Am. Ceram. Soc., 77, [9], 2319-26 (1994).
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`B. J. Dalgleish, A. P. Tomsia and A. M. Glaeser, “Transient Liquid Phase Bonding of Silicon
`Ceramics via Microdesigned Ni-Based Interlayers,” International Ceramic Monographs, 1, [1],
`197-202 (1994).
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`M. R. Locatelli, K. Nakashima, B. J. Dalgleish, A. P. Tomsia and A. M. Glaeser,
`“Transient Liquid Phase Bonding of Alumina Ceramics via Microdesigned Ni-Based Interlayers,”
`International Ceramic Monographs, 1, [1], 203-08 (1994).
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`L. Kulinsky, J. D. Powers, and A. M. Glaeser, “Effects of Controlled-Geometry Sinusoidal
`Perturbations on the Morphological Evolution of Pore Channels in Sapphire,” International Ceramic
`Monographs, 1, [1], 268-73 (1994).
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`R. S. Gilmore, A. M. Glaeser and J. C. Wade, “Calibrating Ultrasonic Images for the NDE of
`Structural Materials,” Trans. ASME (Journal of Engineering for Gas Turbines and Power), 116,
`[3], 640-46 (1994).
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`B. J. Dalgleish, M. R. Locatelli, A. P. Tomsia, K. Nakashima and A. M. Glaeser,
`“Transient Liquid Phase Bonding Approaches for Ceramic Joining,” pp. 165-66 in Proceedings
`of the First International Conference on Composites Engineering (icce/1),
`David Hui, Editor, (August, 1994).
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`A. M. Glaeser
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`January 1st, 2016
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`Publications (cont.):
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`55.
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`A. M. Glaeser, “Transient Liquid Phase Ceramic Bonding,” U. S. Patent No. 5,372,298; issued
`December 13th, 1994.
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`56.
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`57.
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`65.
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`A. M. Glaeser, “Studies of Interfacial Behavior in Ceramics via Microdesigned Interfaces,” pp. 33-
`70 in Science of Ceramic Interfaces II, (Materials Science Monographs, Vol. 81) edited by J.
`Nowotny, Elsevier Press, Amsterdam, Holland (1994).
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`M. L. Shalz, B. J. Dalgleish, A. P. Tomsia and A. M. Glaeser, “New Routes to Joining
`Ceramics For High Temperature Applications,” pp. 1125-30 in Advanced Materials `93, III,
`B: Composites, Grain Boundaries, and Nanophase Materials, edited by M. Sakai et al., (Trans. Mat.
`Res. Soc. Jpn., 16B, 1125-30, (1994)).
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`J. D. Powers and A. M. Glaeser, “Impurity Effects on High Temperature Healing of Cracklike
`Flaws in Sapphire,” pp. 471-74 in Advanced Materials `93, I, A: Ceramics, Powders, Corrosion,
`and Advanced Processing, edited by M. Sakai et al., (Trans. Mat. Res. Soc. Jpn., 14A, 471-74, (1994).
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`B. J. Dalgleish, A. P. Tomsia and A. M. Glaeser, “Transient Liquid Phase Bonding of Silicon
`Ceramics via Microdesigned Ni-Based Interlayers,” pp. 555-66 in Advances in Ceramic
`Matrix Composites II, Ceramic Transactions, 46, (1994).
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`M. R. Locatelli, K. Nakashima, B. J. Dalgleish, A. P. Tomsia and A. M. Glaeser,
`“Transient Liquid Phase Bonding of Alumina Ceramics via Microdesigned Ni-Based Interlayers,”
`pp. 567-78 in Advances in Ceramic Matrix Composites II, Ceramic Transactions, 46, (1994).
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`H. Mastumoto, M. R. Locatelli, K. Nakashima, A. M. Glaeser and K. Mori, “Wettability
`of Al2O3 by Molten Cu as Influenced by Additives and Partial Transient Liquid-Phase Bonding of
`Al2O3,” Materials Transactions, JIM, 36, [4], 555-64 (1995).
`B. J. Dalgleish, A. P. Tomsia and A. M. Glaeser, “A Transient FGM Approach to Joining Si-
`Based Ceramics,” pp. 503-08 in Proceedings of fgm-94 (Third International Symposium on
`Structural and Functional Gradient Materials, October 10-12, 1994, Lausanne, Switzerland),
`edited by N. Cherradi and B. Ilschner, Presses polytechnique et universitaires romandes,
`Lausanne, Switzerland (1995).
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`M. R. Locatelli, B. J. Dalgleish, K. Nakashima, A. P. Tomsia and A. M. Glaeser,
`“New Approaches to Joining Ceramics for High-Temperature Applications,” pp. 157-64 in
`Advances in Science and Technology, Vol. 9, “High Performance Materials in Engine Technology,”
`P. Vincenzini, Editor, Techna Srl, Faenza, Italy (1995).
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`R. S. Gilmore and A. M. Glaeser, “The Calibration of Ultrasonic Images for the NDE of
`Structural Materials,” pp. 475-82 in Advances in Science and Technology, Vol. 9, “High Performance
`Materials in Engine Technology,” P. Vincenzini, Editor, Techna Srl, Faenza, Italy (1995).
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`J. D. Powers, L. Kulinsky, M. Kitayama and A. M. Glaeser, “Effects of Titanium Doping on
`Surface Properties of Alumina,” pp. 313-18 in Structure and Properties of Interfaces in
`Ceramics, edited by D. Bonnell, M. Rühle, and U. Chowdhry (Mater. Res. Soc. Proc., 357,
`Pittsburgh, PA 1995).
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`A. M. Glaeser
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`January 1st, 2016
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`Publications (cont.):
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`K. Nakashima, H. Matsumoto, M. R. Locatelli, A. M. Glaeser and K. Mori,
`“Partial Transient Liquid-Phase Bonding of Alumina Using Microdesigned Ni-Based Interlayer,”
`pp. 729-34 in Proceedings of The Second Pacific Rim International Conference on Advanced
`Materials and Processing, (June 18-22, 1995, Kyongiu, Korea) K. S. Shin, J. K. Yoon, and
`S. J. Kim, Eds., The Korean Institute of Metals and Materials, (1995).
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`B. J. Dalgleish, A. P. Tomsia, Y. Han and A. M. Glaeser, “Transient Liquid Phase Bonding
`Approaches for Si-Based Ceramics,” pp. 171-2 in Proceedings of the Second International
`Conference on Composites Engineering (icce/2), August 19-24, New Orleans, LA, David
`Hui, Editor, (August, 1995).
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`K. Nakashima, H. Mastumoto, M. R. Locatelli, and A. M. Glaeser, “A Comparison of
`Reactive Metal and Transient Liquid Phase Bonding of Alumina,” pp. 257-8 in Proceedings of
`the Second International Conference on Composites Engineering (icce/2), August 19-
`24, New Orleans, LA, David Hui, Editor, (August, 1995).
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`K. Kakegawa and A. M. Glaeser, “Transient FGM Joining of Silicon Carbide Ceramics; A
`Feasibility Study,” pp. 373-4 in Proceedings of the Second International Conference on
`Composites Engineering (icce/2), August 19-24, New Orleans, LA, David Hui, Editor,
`(August, 1995).
`
`B. J. Dalgleish, A. P. Tomsia, Y. Han and A. M. Glaeser, “Partial Transient Liquid Phase
`Bonding of Si-Based Ceramics,” pp. 93-100 in Fourth Euro-Ceramics, Coatings and Joinings,
`B. S. Tranchini and A. Bellosi, Eds., Gruppo Editoriale Faenza Editrice S.p.A. (1995).
`
`M. Paulasto, G. Ceccone, M. G. Nicholas, S. Peteves and A. M. Glaeser, “Application of
`the Partial Transient Liquid Phase Bonding Method for Joining Silicon Nitride Ceramics,”
`pp. 101-8 in Fourth Euro-Ceramics, Coatings and Joinings, B. S. Tranchini and A. Bellosi,
`Eds., Gruppo Editoriale Faenza Editrice S.p.A. (1995).
`
`M. R. Locatelli, K. Nakashima, H. Mastumoto, A. P. Tomsia, B. J. Dalgleish and
`A. M. Glaeser, “Partial Transient Liquid Phase Bonding of Alumina Ceramics,” pp. 109-16 in
`Fourth Euro-Ceramics, Coatings and Joinings, B. S. Tranchini and A. Bellosi, Eds., Gruppo
`Editoriale Faenza Editrice S.p.A. (1995).
`
`L. Kulinsky, J. D. Powers and A. M. Glaeser, “Effects of Controlled-Geometry Sinusoidal
`Perturbations on the Morphological Evolution of Pore Channels in Sapphire,” pp. 141-8 in
`Fourth Euro-Ceramics, Basic Science, Developments in processing of advanced ceramics - Part
`II, C. Galassi, Ed., Gruppo Editoriale Faenza Editrice S.p.A. (1995).
`
`M. R. Locatelli, K. Nakashima, A. P. Tomsia, B. J. Dalgleish and A. M. Glaeser,
`“New Strategies for Joining Ceramics for High Temperature Applications,” pp. 157-90 in
`Interfaces of Ceramic Materials - Impact on Properties and Applications, K. Uematsu,
`Y. Moriyoshi, Y. Saito and J. Nowotny, Eds. (Key Engineering Materials, 111-112, 157-90 (1995),
`Trans Tech Publications Ltd., Zurich (1995).
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`A. M. Glaeser
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`January 1st, 2016
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`Publications (cont.):
`
`75.
`
`A. P. Tomsia, A. M. Glaeser and J. S. Moya, “Interfaces Between Alumina and Refractory
`Glasses for High Temperature Applications,” pp. 191-208 in Interfaces of Ceramic
`Materials - Impact on Properties and Applications, K. Uematsu, Y. Moriyoshi, Y. Saito and
`J. Nowotny, Eds. (Key Engineering Materials, 111-112, 191-208 (1995), Trans Tech Publications
`Ltd., Zurich (1995).
`
`76.
`
`77.
`
`78.
`
`79.
`
`80.
`
`81
`
`82.
`
`83.
`
`84.
`
`85.
`
`86.
`
`87.
`
`88.
`
`G. Ceccone, S. D. Peteves, M. G. Nicholas, B. J. Dalgleish, A. P. Tomsia, and
`A. M. Glaeser, “An Evaluation of the Partial Transient Liquid Phase Bonding of Si3N4 using
`Au-Coated Ni-22Cr Foils,” Acta Materialia, 44, [2], 657-67 (1996).
`
`M. Kitayama and A. M. Glaeser, “A New Method for Characterizing Equilibrium Pore Shapes
`in Ceramics,” pp. 389-392 in Proceedings of the 7th International Conference on Intergranular and
`Interphase Boundaries in Materials (iib95), Lisbon, Portugal, June 26-29, 1995 (Materials Science
`Forum, 207-09, Part I, 389-392 (1996).)
`
`A. M. Glaeser, “The FGM Symposium at icce/2, New Orleans, Louisiana, USA August 21-24,
`1995,” FGM News, 31, 10-13, (July 1996).
`
`M. Kitayama and A. M. Glaeser, “A New Method for Determining the Wulff Shape of
`Alumina,” pp. 285-92 in Sintering Technology, R. M. German, G. Messing and R. G.
`Cornwall, Eds., Chapman-Hall, London England (1996).
`
`J. D. Powers and A. M. Glaeser, “Titanium Effects on Sintering and Grain Growth of
`Alumina,” pp. 333-40 in Sintering Technology, R. M. German, G. Messing and
`R. G. Cornwall, Eds., Chapman-Hall, London England (1996).
`
`L. Kulinsky, J. D. Powers and A. M. Glaeser, “Morphological Evolution of Pre-perturbed
`Pore Channels in Sapphire,” Acta Materialia, 44, [10], 4115-30 (1996).
`
`A. M. Glaeser, “A New Approach to Investigating Surface Transport in Ceramics,” pp. 117-36 in
`Mass and Charge Transport in Ceramics, K. Koumoto, L. M. Sheppard and H. Matsubara,
`Eds., Ceramic Transactions, 71, (1996).
`
`A. M. Glaeser, “Studies of Microstructural Evolution Utilizing Microdesigned Interfaces,” pp.
`18-21 in Proceedings of First International Workshop on Synergy Ceramics, November 17-19,
`1996, Nagoya Japan.
`
`B. J. Dalgleish, K. Nakashima, M. R. Locatelli, A. P. Tomsia and A. M. Glaeser,
`(invited review) “New Approaches to Joining Ceramics for High-Temperature Applications,”
`Ceramics International, 23, [4], 313-22 (1997).
`
`A. M. Glaeser, “The Use of Transient FGM Interlayers for Joining Advanced Ceramics,”
`Composites Part B, 28B, 71-84 (1997).
`
`K. Kakegawa and A. M. Glaeser, “Transient FGM Joining of Silicon Carbide Ceramics:
`A Feasibility Study,” Composites Part B, 28B, [1/2], 85-91 (1997).
`
`A. M. Glaeser, “Preperturbed Pore Channels: A New Approach to Measuring Surface
`Diffusivities in Ceramics,” Defect and Diffusion Forum, 143-7, 1177-82 (1997).
`
`J. D. Powers and A. M. Glaeser, “Titanium Effects on Sintering and Grain Boundary Mobility
`of Alumina,” Ceram. Eng. Sci. Proc., 18, [4], 617-23 (1997).
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`A. M. Glaeser
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`January 1st, 2016
`
`Publications (cont.):
`
`89.
`
`J. D. Powers and A. M. Glaeser, “Microstructurally Graded Materials via Dopant Valence
`Gradients: Ti-Doped Alumina,” pp. 359-60 in Proceedings of the Fourth International
`Conference on Composites Engineering (icce/4), July 6-11, Kona, hi, David Hui, Editor,
`(July, 1997).
`
`90. M. Kitayama, J. D. Powers and A. M. Glaeser, “Novel Routes to Functionally Graded
`Ceramics via Atmosphere-Induced Dopant Valence Gradients,” pp. 325-30 in Functionally
`Graded Materials 1996, I. Shiota and Y. Miyamoto, Eds., Elsevier Science B.V., Amsterdam,
`(1997).
`
`91.
`
`J. D. Powers and A. M. Glaeser, “Grain Boundary Migration in Ceramics,” (invited review)
`Interface Science, 6, 23-39 (1998).
`
`92. M. Kitayama, J. D. Powers, L. Kulinsky and A. M. Glaeser, “Microdesigned Interfaces: New
`Opportunities for Studies of Surfaces and Grain Boundaries,” pp. 229-38 in Ceramic
`Microstructures: Control at the Atomic Level, A. P. Tomsia and A. M. Glaeser, Eds.
`Plenum Press, New York, (1998).
`
`93.
`
`94.
`
`95.
`
`K. Nakashima, K. Mori and A. M. Glaeser, “Wettability of Cu-based Alloys on Alumina and
`Joining of Alumina with Microdesigned Nickel-Chromium Alloy Interlayers,” pp. 407-14 in
`Ceramic Microstructures: Control at the Atomic Level, A. P. Tomsia and
`A. M. Glaeser, Eds. Plenum Press, New York (1998).
`
`Bae-Yeon Kim and A. M. Glaeser, “The Effect of Ca Implantation on Crack Healing of High
`Purity Alumina,” International Ceramic Monographs,2, [1], 621-6 (1998).
`
`A. M. Glaeser, “Investigating Surface Transport in Ceramics Using Microdesigned Interfaces,”
`pp. 241-82 in Ceramic Interfaces: Properties and Applications, R. St. Smart and J.
`Nowotny, Editors, The Institute of Materials, London (1998).
`
`96. M. Kitayama and A. M. Glaeser, “The Kinetics of Pore Shape Evolution in Alumina,” J. Mater.
`Synth. Proc., 6, [3], 161-7, (1998).
`
`97. M. Kitayama and A. M. Glaeser, “The Energetics and Kinetics of Pore Shape Evolution in
`Alumina,” Key Engineering Materials, 159-160, 193-204 (1999).
`
`98.
`
`K. Nakashima, T. Makino, K. Mori, and A. M. Glaeser, “Wettability and interfacial reaction
`between Si3N4 and Cu-based alloys,” Key Engineering Materials, 159-160, 287-92 (1999).
`
`99.
`
`K. Nakashima, T. Makino, K. Mori and A. M. Glaeser, “Wettability and Interfacial Reaction
`between Si3N4 and Cu-Based Liquid Alloy,” pp. 379-86 in Proceedings of 6th International
`Symposium on Ceramic Materials and Components for Engines, (October 19-23, 1997,
`Arita Japan), K. Niihara, S. Hirano, S. Kanzaki, K. Komeya and K. Morinaga, Eds., Technoplaza
`Co., Ltd., Tokyo Japan, (1998).
`100. M. R. Locatelli, R. A. Marks, D. R. Chapman, K. Nakashima and A. M. Glaeser,
`“Transient Liquid Phase (TLP) Routes to the Joining of Structural Ceramics,” pp. 111-34 in
`Interfacial Science in Ceramic Joining, A. Bellosi, T. Kosmac and A. P. Tomsia, Eds.,
`Kluwer Academic Publishers, Dordrecht, The Netherlands, (1998).
`
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`
`A. M. Glaeser
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`
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`January 1st, 2016
`
`Publications (cont.):
`
`101.
`
`J. D. Powers, M. Kitayama and A. M. Glaeser, “Fundamental Studies of Surfaces and
`Interfaces at High Temperature via Microdesigned Interfaces,” pp. 277-94 in Computer-Aided
`Design of High-Temperature Materials, A. Pechenik, R. K. Kalia, and P. Vashishta, Eds.,
`Oxford University Press, New York, (1999).
`
`102. M. Kitayama, J. D. Powers, L. Kulinsky and A. M. Glaeser, “Surface and Interface
`Properties of Alumina via Model Studies of Microdesigned Interfaces,” J. Eur. Ceram. Soc., 19, [13-
`14], 2191-2209 (1999).
`
`103.
`
`J. D. Powers and A. M. Glaeser, “Orientation Effects on the High-Temperature Morphological
`Evolution of Pore Channels in Sapphire,” J. Am. Ceram. Soc., 83, [9], 2297-304 (2000).
`
`104. M. Kitayama, T. Narushima, W. C. Carter, R. M. Cannon and A. M. Glaeser,
`“The Wulff Shape of Alumina: I. Modelling the Kinetics of Morphological Evolution,” J. Am.
`Ceram. Soc., 83, [10], 2561-2571 (2000).
`
`105. M. Kitayama, T. Narushima and A. M. Glaeser, “The Wulff Shape of Alumina: II.
`Experimental Measurements of Pore Shape Evolution,” J. Am. Ceram. Soc., 83, [10], 2572-2583
`(2000).
`
`106.
`
`107.
`
`R. A. Marks, D. R. Chapman, D. T. Danielson and A. M. Glaeser, “Bonding of Alumina via
`Copper/Niobium/Copper Interlayers,” Acta Materialia, 48, [18-19], 4425-4438 (2000).
`
`R. A. Marks, J. D. Sugar, D. T. Danielson and A. M. Glaeser, “Joining of Alumina via
`Microdesigned Cu/Nb/Cu Interlayers,” pp. 1127-1134 in Proceedings of the International
`Conference on “Mass and Charge Transport in Inorganic Materials: Fundamentals
`to Devices, P. Vincenzini, V. Buscaglia (Editors), Techna Publishers S.r.l., Faenza, Italy, (2000).
`
`108. M. Kitayama, T. Narushima and A. M. Glaeser, “Tools for Model Studies of the High-
`Temperature Properties of Surfaces and Interfaces,” pp. 46-51 in Functionally Graded
`Materials in the 21st Century: A Workshop on Trends and Forecasts, K. Ichikawa, Ed.,
`Kluwer Academic Publishers, Dordrecht, The Netherlands, (2001).
`
`109.
`
`R. A. Marks, J. D. Sugar, J. T. McKeown, M. R. Locatelli, K. Nakashima and A. M.
`Glaeser, “Transient Liquid Phase Joining of Ceramics: New Approaches to Materials
`Integration,” pp. 25-30 in Proceedings of the First International Symposium on Environmental Materials
`and Materials Recycling, (March 8-9, 2001, Osaka Japan) JWRI, Osaka (2001).
`
`110. T. Narushima and A. M. Glaeser, “High-Temperature Morphological Evolution of
`Lithographically Introduced Cavities in Silicon Carbide,” J. Am. Ceram. Soc., 84, [5], 921-28
`(2001).
`
`111. A. M. Glaeser, “Model Studies of Rayleigh Instabilities via Microdesigned Interfaces,”
`(invited review) Interface Science, 9, [1/2], 65-82 (2001).
`
`112. K. Nakashima and A. M. Glaeser, “Partial Transient Liquid Phase Bonding of Ceramics,”
`(invited review) Ceramics Japan (Bulletin of the Ceramic Society of Japan), 36, [6], 434-37 (2001).
`
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`A. M. Glaeser
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`
`
`January 1st, 2016
`
`Publications (cont.):
`
`113.
`
`R. A. Marks, J. D. Sugar and A. M. Glaeser, “Ceramic Joining IV. Effects of Processing
`Conditions on the Properties of Alumina Joined via Cu/Nb/Cu Interlayers,” J Mater. Sci., 36, [23],
`5609-5624 (2001).
`
`114. A. M. Glaeser, “Grain Growth,” pp. 3626-3634 in Encyclopedia of Materials: Science and
`Technology, G. Messing, Ed., Elsevier Science, Oxford, England, (2001).
`
`115. M. Kitayama and A. M. Glaeser, “The Wulff Shape of Alumina: III. Undoped Alumina,”
`J. Am. Ceram. Soc., 85, [3], 611-22 (2002).
`
`116.
`
`117.
`
`J. D. Sugar, J. T. McKeown, R. A. Marks and A. M. Glaeser, “Liquid-Film Assisted
`Formation of Alumina/Niobium Interfaces,” J. Am. Ceram. Soc., 85, [10], 2523-2530 (2002).
`
`J. J. Kruzic, R. A. Marks, M. Yoshiya, A. M. Glaeser, R. M. Cannon, and R. O. Ritchie,
`“Fracture And Fatigue Behavior Of Alumina, Partial Transient Liquid-Phase Bonded with
`Copper/Niobium/Copper Interlayers, At Ambient and Elevated Temperatures,” J. Am. Ceram.
`Soc., 85, [10], 2531-2541 (2002).
`
`118. M. Kitayama, T. Narushima, K. Tran, R. Gronsky and A. M. Glaeser, “Model Studies of
`Surfaces and Interfaces in Ceramics,” Key Engin.