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Publications of Adam C. Powell, IV

Refereed Publications

  1. P. Mendez and A. Powell, "Influence of Heat Transfer on the Application of Solid Lubricant on Hot Dies," Scripta Mater. 59(7):784–787 (October 2008).
  2. M. Suput, R. DeLucas, S. Pati, G. Ye, U. Pal and A. Powell, "Solid Oxide Membrane Technology for Environmentally Sound Production of Titanium," Mineral Processing and Extractive Metallurgy 117(2):118–122 (June 2008). DOI
  3. A. Powell and R. Arroyave, "Open Source Tools for Materials and Process Modeling," JOM 60(5):40–47 (May 2008) (DOI: 10.1007/s11837-008-0057-4).
  4. T. Pollock, J. Allison, D. Backman, M. Boyce, M. Gersh, E. Holm, R. LeSar, M. Long, A. Powell, J. Schirra, D. Whitis and C. Woodward. Integrated Computational Materials Engineering. Washington, DC: National Academies Press, 2008.
  5. L.M. Bartolo, S.C. Glotzer, C.S. Lowe, A.C. Powell, D.R. Sadoway, J.A. Warren, V.K. Tewary, M.J.M. Krane and K. Rajan, "Materials Informatics: Facilitating the Integration of Data-Driven Materials Research with Education," JOM 60(3):51–52 (March 2008).
  6. W. Pongsaksawad and A. Powell, "Phase Field Modeling of Transport-Limited Electrolysis in Solid and Liquid States," J. Electrochem. Soc. 154(6):F122–F133 (June 2007).
  7. A. Powell, Y. Shibuta, J. Guyer and C. Becker, "Modeling Electrochemistry in Metallurgical Processes," JOM 59(5):35–43 (May 2007). (DOI: 10.1007/s11837-007-0063-y)
  8. U. Pal and A. Powell, "The Use of Solid Oxide Membrane (SOM) Technology for Electrometallurgy," JOM 59(5):44–49 (May 2007).
  9. L.M. Bartolo, S.C. Glotzer, C.S. Lowe, A.C. Powell IV, D.R. Sadoway, J.A. Warren, V.K. Tewary and K. Rajan, "NSF NSDL Materials Digital Library & MSE Education," J. Mater. Sci. Educ. 28(1):21–26 (2006).
  10. A. Powell and L. Bartolo, "The Transport Phenomena Archive on the NSDL Materials Digital Library Pathway," J. Mater. Sci. Educ. 28(1):91–97 (2006).
  11. B. Zhou and A. Powell, "Phase Field Simulations of Early Stage Structure Formation During Immersion Precipitation of Polymeric Membranes in 2D and 3D," J. Membrane Sci. 268(2):150–164 (2006).
  12. L. Bartolo, C. Lowe, D. Sadoway, A. Powell and S. Glotzer, "NSDL MatDL: Exploring Digital Library Roles," D-Lib, 11:3 (2005).
  13. A. Powell and D. Dussault, "Floating Solids: Combining Phase Field and Fluid-Structure Interactions," Appl. Numer. Anal. Comp. Math. 2(1):157–166 (2005).
  14. U. Pal, S. MacDonald, D. Woolley, C. Manning and A. Powell, "Results Demonstrating Techniques for Enhancing Electrochemical Reactions Involving Iron Oxide in Slags and C in Liquid Iron," Metall. Mater. Trans. 36B:209–218 (2005).
  15. L. Bartolo, S. Glotzer, J. Khan, A. Powell, D. Sadoway, K. Anderson, "MatDL.org: The Materials Digital Library and the National Science Digital Library Program," J. Mater. Sci. Educ. 26(3):213–218 (2004).
  16. L. Bartolo, A. Powell, G. Shreve and V. Tewary, "The NSF NSDL GREEN Digital Library: Green's Functions Research and Education Enhancement Network and Undergraduate Education," J. Mater. Sci. Educ. 25(1):19–24 (2003).
  17. A. Powell, D. Dussault, "Scaling Laws and Instabilities in Electric Field-Enhanced Smelting and Refining of Steel," Scand. J. Metall. 32:33–36 (2003).
  18. L. Bartolo, V. Tewary, G. Shreve, A. Powell and M. Zeng, "NSF-NSDL GREEN Project: A Digital Library Partnership of Academia, Government and Industry," Issues in Science and Technology Librarianship, 35 (2002).
  19. D. Josell, W. Wallace, J. Warren, D. Wheeler and A. Powell, "Misaligned Flip-Chip Solder Joints: Prediction and Experimental Determination of Force-Displacement Curves," J. Electr. Packaging 124:227–233 (2002).
  20. A. Powell, "3-D or not 3-D," JOM 54(1):22–24 (Jan. 2002). (DOI: 10.1007/BF02822600)
  21. A. Powell, P. Minson, G. Trapaga and U. Pal, "Mathematical Modeling of Vapor Plume Focusing in Electron Beam Evaporation," Metall. Mater. Trans. 32A:1959–1966 (2001).
  22. J. Silver, Z. Mi, K. Takamoto, P. Bungay, J. Brown and A. Powell "Controlled Formation of Low-Volume Liquid Pillars between Plates with a Lattice of Wetting Patches by Use of a Second Immiscible Fluid," J. Colloid & Interface Sci. 219:81–89 (1999).
  23. J. Van Den Avyle, J. Brooks and A. Powell "Reducing Defects in Remelting Processes for High-Performance Alloys," JOM 50(3):22–25, 49 (March 1998).
  24. A. Powell, J. Van Den Avyle, B. Damkroger, J. Szekely and U. Pal "Analysis of Multicomponent Evaporation in Electron Beam Melting and Refining of Titanium Alloys," Metall. Mater. Trans. 38B, 1227–1239 (1997).

Conference Proceedings and Other Publications

  1. A. Powell, "Simulating morphology of electrochemical deposits in shear flow," TMS 2008 Annual Meeting Supplemental Proceedings Volume 2: Materials Characterization, Computation and Modeling, p. 287.
  2. R. DeLucas, A. Powell and U. Pal, "Boundary Element Modeling of Solid Oxide Membrane Process," TMS 2008 Annual Meeting Supplemental Proceedings Volume 2: Materials Characterization, Computation and Modeling, p. 301.
  3. S. Pati, R. DeLucas, A. Powell and U. Pal, "Magnesiothermic Reduction of Titanium Oxide Using the Solid Oxide Membrane Process," Magnesium Technology 2008, p. 33.
  4. A. Powell, "Optimizing Transdermal Drug Delivery Through Diffusion Modeling," Controlled Release Society Newsletter, October, 2007.
  5. A. Powell and W. Pongsaksawad, "Phase field modeling of phase boundary motion due to transport-limited electrochemical reactions," in V.G. DeGiorgi, C.A. Brebbia and R.A. Adey eds. Simulation of Electrochemical Processes II, WIT Press, May 2007, pp. 43–52.
  6. A. Powell and A. Morris, "Wikipedia in Materials Education," Proc. TMS Annual Meeting 2007.
  7. A. Powell, "The 16th Annual Iketani Conference: Masuko Symposium," JOM 59(2):81–82 (Feb. 2007).
  8. A. Powell and W. Pongsaksawad, "Phase Field Modeling of Phase Boundary Shape and Topology Changes Due to Electrochemical Reactions in Solid and Liquid Systems," Proc. 16th Iketani Conference, Masuko Symposium, University of Tokyo, November 2006, pp. 793–814.
  9. A. Powell, W. Pongsaksawad and U. Pal, "Phase Field Modeling of Phase Boundary Shape and Topology Changes Due to Electrochemical Reactions in Solid and Liquid Systems," in F. Kongoli and R. Reddy eds. Advanced Processing of Metals and Materials Vol. 3: Thermo and Physicochemical Principles: Special Materials; Aqueous and Electrochemical Processing, TMS, August 2006, pp. 623–640.
  10. M. Suput, R. DeLucas, S. Pati, G. Ye, U. Pal and A. Powell, "Solid Oxide Membrane (SOM) Technology for Environmentally Sound Production of Titanium," in F. Kongoli and R. Reddy eds. Advanced Processing of Metals and Materials Vol. 4: New, Improved and Existing Technologies: Nonferrous Materials Extraction and Processing, TMS, August 2006, pp. 273–284.
  11. L. Bartolo, S. Glotzer, C. Lowe, A. Powell, K. Rajan, D. Sadoway, J. Warren and V. Tewary, "NSF NSDL Materials Digital Library Pathway & MSE Education," in T.R.. Finlayson, F.M. Goodchild, M.G. Norton and S.R.J. Oliver eds. Forum on Materials Science Education, MRS, December 2005, PP2.1.
  12. A. Powell, O. Ocholi, J. Vieyra and B. Zhou, "Illuminator: a Free Graphics Toolkit for Parallel Visualization of Continuum Field Data," submitted to Proc. IEEE Cluster 2005.
  13. L. Bartolo, S. Glotzer, J. Khan, A. Powell, D. Sadoway, V. Tewary, J. Warren and K. Anderson, "MatDL.org: The Materials Digital Library and the National Science Digital Library Program," in K. Chen, M. Falk, T. Finlayson, W. Jones, L.J. Martinez-Miranda eds. Educating Tomorrow's Materials Scientists and Engineers MRS, April 2004, BB2.3.
  14. B. Zhou and A. Powell, "Simulations of Polymeric Membrane Formation by Immersion Precipitation: Liquid-Liquid Demixing," MRS Symp. Proc., 790 P7.10 (December, 2003). (Won best poster award)
  15. A. Powell and D. Dussault, "Detailed Mathematical Modeling of Liquid Metal Streamer Formation and Breakup," Proc. Yazawa Symp. 2003 vol. III, TMS, 235–250.
  16. L. Bartolo, A. Powell, G. Shreve and V. Tewary, "The NSF NSDL GREEN Digital Library: Green's Functions Research and Education Enhancement Network," MRS Symp. Proc., 760E JJ1.7 (December, 2002).
  17. D. Dussault and A. Powell, "Phase Field Modeling of Electrolysis in a Slag or Molten Salt," Proc. Mills Symp., The Institute of Materials, London, UK, 359–371 (2002).
  18. U. Pal, S. MacDonald, D. Woolley, A. Powell and C. Manning, "Enhancing Electrochemical Reactions in Smelting and Refining Operations," 2001 Electric Furnace Conf. Proc., ISS publication, 323–336.
  19. A. Powell, "Modeling Alignment Shift of Soldered Optical Fiber," IEEE Proc. ECTC 2000 997–1001.
  20. A. Powell, Book Review of Lattice-Gas Cellular Automata: Simple Models of Complex Hydrodynamics by D. Rothman and S. Zaleski, Computers in Physics 12 (6) 576 (1998).
  21. A. Powell, J. Warren and C. Bailey, "Mechanism of Motion of an Optical Fiber Aligned by a Solder Droplet," MRS Symp. Proc. 531 95–100 (April 1998).
  22. A. Powell, J. Van Den Avyle and U. Pal, "Optimal Beam Pattern to Maximize Inclusion Residence Time in an Electron Beam Melting Hearth," Proc. AVS Vac. Metall. Conf. 78–84 (1997).
  23. A. Powell, J. Van Den Avyle, B. Damkroger and U. Pal, "Prospects for Titanium Alloy Composition Control by Electron Beam Scan Frequency Manipulation," Proc. Conf. EBM&R State of the Art 1996 138–150.
  24. P. Minson, A. Powell and G. Trapaga "Theory of Vapor Plume Focusing in Electron Beam Evaporation by the Direct Simulation Monte-Carlo Method," Proc. Conf. EBM&R State of the Art 1996 126–137.
  25. A. Powell, J. Van Den Avyle, B. Damkroger and J. Szekely, "Simulation of Multicomponent Losses in Electron Beam Melting and Refining at Varying Scan Frequencies," Proc. Conf. EBM&R State of the Art 1995 263–277.
  26. M. Miszkiel, R. Davis, J. Van Den Avyle and A. Powell "Video Imaging and Thermal Mapping of the Molten Hearth in an Electron Beam Melting Furnace," Proc. Conf. EBM&R State of the Art 1995 243–254.
  27. U. Jain, A. Powell and L. Hobbs "Simulation of Crystal-to-Amorphous Transition in Irradiated Quartz," MRS Symp. Proc. 209 201–206 (1991).

Invited Presentations

  1. A. Powell, L. Bartolo, M. Krane, E. Garcia, L. Li, "Materials and Society Resources on the Teaching Archive of the Materials Digital Library," TMS Annual Meeting, February, 2010.
  2. A. Powell, "Solid Oxide Membrane (SOM) Electrolysis of Magnesium and New Process Modeling Software" (in Japanese), University of Tokyo Reactive Metals Research Workshop, November 27, 2009.
  3. A. Powell, "Thermodynamic and property data for CALPHAD and phase field calculations," Materials Science and Technology, October 27, 2009.
  4. A. Powell, "Integrated Computational Materials Engineering," Northeastern University Mechanical and Industrial Engineering Seminar, October 22, 2009.
  5. A. Powell, "Consulting and Entrepreneurship: Lessons along the way from a career in progress," Cornell University Seminar in Materials Science and Engineering, September 29, 2009.
  6. A. Powell, "An Integrated Open Source Stack for Thermodynamics and Phase Field Simulations," Open Source Tools for Materials Research and Engineering, TMS Annual Meeting 2009, February 19, 2009.
  7. A. Powell and W. Pongsaksawad, "Detailed Modeling of Electrodeposition Using the Phase Field Method," Processing Materials for Properties III Conference, December 10, 2008.
  8. A. Powell, "An Open Source Stack for Integrated Computational Materials Engineering (ICME)," Mechanical Engineering Seminar, University of Maryland Baltimore County, October 17, 2008.
  9. A. Powell, "Multiscale Modeling of Waveform Design for Fast Stable Electrodeposition," Materials Science & Technology 2008, Discovery and Optimization of Materials Through Computational Design Symposium, October 9, 2008.
  10. A. Powell, "New Opportunities for Materials Development Using Integrated Computational Materials Engineering (ICME)," IDGA 7th Annual Next Generation Materials for Defense Conference, December 12, 2007.
  11. A. Powell, "End-to-End Modeling of Polymer Membranes for Water Filtration and Material Recycling Technologies," Columbia University, April 27, 2007.
  12. A. Powell and W. Pongsaksawad, "Detailed Phase Field Modeling of Dendrite and Sponge Formation in Mixed Solid/Liquid Systems," TMS Annual Meeting, Innovations in Electrometallurgy Symposium, February 28, 2007.
  13. A. Powell, "Solid Oxide Electrolytes for Metal Smelting and Fuel Cells," Thailand National Metals and Materials Technology Center, November 21, 2006.
  14. A. Powell, "Julian: a Flexible Tool Kit for Boundary Element Method Simulations," Thailand National Metals and Materials Technology Center, November 21, 2006.
  15. A. Powell, W. Pongsaksawad and U. Pal, "Phase Field Modeling of Phase Boundary Shape and Topology Changes Due to Electrochemical Reactions in Solid and Liquid Systems," TMS Sohn Symposium, August 30, 2006.
  16. A. Powell, "Modeling Structure Formation in Polymer Membranes for Water Filtration and Collagen Tissue Engineering Scaffolds," Rensselaer Polytechnic Institute, March 29, 2006.
  17. A. Powell, "Abstract Title: Mixed Stress: An Approach to Mixing Fluids and Solids in Phase Field Models," TMS Annual Meeting Computational Thermodynamics and Phase Transformations Symposium, March 15, 2006.
  18. A. Powell, "Thermodynamics-Based Modeling of Phase Boundary Motion in Reactive Metal Processing," JSPS Core-to-Core Reactive Metals Workshop, MIT, March 17, 2006.
  19. A. Powell, "Phase Field Modeling of Materials Microstructure Formation and Evolution," University of Massachusetts at Amherst, March 9, 2006.
  20. A. Powell, "Modeling Structure Formation in Polymer Membranes for Water Filtration and Collagen Tissue Engineering Scaffolds," University of Massachusetts at Amherst, February 1, 2006.
  21. A. Powell, "Phase Field Modeling of Liquid-Liquid Demixing During Immersion Precipitation Casting of Polymer Membranes," Rohm & Haas Electronic Materials, October 25, 2005.
  22. A. Powell, "Phase Field Modeling of Liquid-Liquid Demixing During Immersion Precipitation Casting of Polymer Membranes," Tufts University, October 24, 2005.
  23. A. Powell, "Phase Field Modeling of Phase Boundary Motion Due to Transport-Limited Electrochemical Reactions," Columbia University, October 7, 2005.
  24. A. Powell, "Phase Field Modeling of Phase Boundary Motion Due to Transport-Limited Electrochemical Reactions," Pohang University of Science and Technology, September 21, 2005.
  25. A. Powell, "Phase Field Modeling of Phase Boundary Motion Due to Transport-Limited Electrochemical Reactions" (in Japanese), University of Tokyo Nanoionics Workshop, Aizu, Japan, September 16, 2005.
  26. A. Powell, "Phase Field and Transport: New Twists on a Mesoscale Structure Modeling Technique," MIT Research in DMSE Lecture Series, April 1, 2005.
  27. A. Powell, "RheoPlast: Open-Source Parallel Finite Difference Phase Field Software" (in Japanese), University of Tokyo, Japan, March 23, 2005.
  28. A. Powell, "Phase Field and Transport: New Twists on a Mesoscale Structure Modeling Technique," MIT Materials Day, October 19, 2004.
  29. A. Powell, "Phase Field Modeling of Liquid-Liquid Demixing During Immersion Precipitation Casting of Polymer Membranes," Tufts University Mechanical Engineering Seminar Series, September 23, 2004.
  30. A. Powell, "Phase Field Modeling of High Temperature Electrochemistry" (in Japanese), University of Tokyo, Japan, July 30, 2004.
  31. A. Powell, "Introduction to Modeling and Simulation: a Multidisciplinary Approach to Computational Materials Education," MRS Spring Meeting, San Francisco, California, April, 2004.
  32. A. Powell, "Transport Education in the Materials Curriculum: Innovative Approaches, Exercises, and New Challenges," TMS Annual Meeting, Charlotte, North Carolina, March 17, 2004.
  33. W. Pongsaksawad and A. Powell, "A Phase-Field Model of the Cathode Interface in Transport-Limited Metal Reduction and Refining Processes," TMS Annual Meeting, Charlotte, North Carolina, March 17, 2004.
  34. A. Powell, "Computational Materials at MIT" (in Japanese), University of Tokyo, Japan, January 9, 2004.
  35. A. Powell, "New directions in phase field modeling of morphology evolution across a wide variety of materials," University of Tokyo/MIT/Cambridge University Collaboration in Materials Science and Engineering, Cambridge, Massachusetts, December 4, 2003.
  36. A. Powell, "New Tools for Cold Hearth Process Modeling," Specialty Metals Producers Consortium Workshop, Cleveland, Ohio, June 25, 2003.
  37. A. Powell, "Modeling Fluid-Structure Interactions in Dendritic and Faceted Crystal Solidification," Northwestern University Distinguished Minority Scholars Seminar, Evanston, Illinois, April 2, 2003.
  38. A. Powell and D. Dussault, "Detailed Mathematical Modeling of Liquid Metal Streamer Formation and Breakup," TMS Annual Meeting, San Diego, California, March 4, 2003.
  39. A. Powell and S. Yip, "Introduction to Modeling and Simulation: a Multidisciplinary Approach to Computational Materials Education," TMS Annual Meeting, San Diego, California, March 4, 2003.
  40. A. Powell, "Modeling Solidification of Crystals Floating in a Moving Liquid," Purdue University Materials Seminar, West Lafayette, Indiana, December 3, 2002.
  41. A. Powell, "Modeling Solidification of Crystals Floating in a Moving Liquid," MIT Mechanical Engineering Mechanics and Materials Seminar, December 2, 2002.
  42. A. Powell, "Coupling Phase Transformations and Fluid-Structure Interactions," Aerodyne Research, Inc., Billerica, Massachusetts, November 13, 2002.
  43. A. Powell, "The Julian Boundary Element Code," NIST Green's Functions Experts Workshop, Boulder, Colorado, March 25, 2002.
  44. A. Powell "Solder Wetting and Solidification: Implications for Passive Alignment," MIT Microphotonics Center, March 13, 2002.
  45. A. Powell "Green's Functions, Boundary Elements and Julian," National Educators' Workshop, College Park, Maryland, October 15, 2001.
  46. A. Powell "Scaling Laws and Instabilities in Electric Field Enhanced Smelting and Refining of Steel," Sixth International Conference on Molten Slags, Fluxes and Salts, Stockholm, Sweden, June 15, 2000.
  47. A. Powell "Modeling Shift of a Solder-Aligned Optical Fiber," TMS Annual Meeting, San Diego, California, March 1, 1999.
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