Engineering Design
Resume:
Jonathan A. Dantzig
Department of Mechanical Science and Engineering Voice: 217-***-****
University of Illinois at Urbana-Champaign FAX: 217-***-****
**** **** ***** ****** *-mail: *******@********.***
Urbana, IL 61801
URL : http : //mechse.illinois.edu/research/dantzig
Research Interests:
Materials processing, especially solidi cation and casting processes. Mathematical
modeling of solidi cation processes in metals and biological systems, and microstruc-
ture formation. Specialties include nite element methods, heat transfer and uid
dynamics.
Education:
Ph.D., Mechanics and Materials Science, The Johns Hopkins University, 1977
M.S.E., Mechanics, The Johns Hopkins University, 1975
B.S.E., Mechanics, The Johns Hopkins University, 1972
Employment:
Invited Professor, Ecole Polytechnique F d rale de Lausanne, 2005-present
ee
Visiting Researcher, National Institute for Standards and Technology, 2004
Department of Mechanical Science and Engineering
University of Illinois at Urbana-Champaign
Professor Emeritus and Research Professor, 2008 - present
W. Grafton and Lillian B. Wilkins Professor of Mechanical Engineering,
2003 - 2008
Professor, 1996 - 2008
Division Head, Design and Materials, 1993 - 1996
Associate Professor, 1987 - 1996
Assistant Professor, 1982 - 1987
Courses taught:
ME231: Introduction to Materials Behavior and Processing
1
ME261: Instrumentation and Control
ME280: Senior Capstone Design
ME345: Introduction to Finite Element Analysis
ME351: Introduction to Materials Processing (New)
ME389: Introduction to Solidi cation Processing
ME452: Advanced Solidi cation Processing
ME497: Advanced Modeling of Materials Processing (New)
Visiting Research Scientist, NCSA, 1990-91
Olin Metals Research Laboratories
New Haven, CT
Senior Research Scientist, 1980 - 1982
Research Scientist, 1978 - 1980
University of New Haven
New Haven, CT
Adjunct Assistant Professor, 1978-1982
Honors and Awards:
Distinguished Educator Award: TMS, 2009
W. A. Agnew/C. N. Goodall Award from Railway Division of IMechE for Heat
Transfer Modeling of Rail Thermite Welds and Weld Defect Formation in Rail
Thermite Welds, J. Rail and Rapid Transit, Proceedings Part F, 2006
Keynote speaker: Modeling of Casting, Welding and Advanced Solidi cation
Processes-XI, Opio, France, 2006
College of Engineering Award for Teaching Excellence: UIUC, 2005
Bruce Chalmers Award: TMS, 2005. Citation: For his many landmark contri-
butions to the development and application of rigorous tools for computational
modeling of solidi cation processes.
W. Grafton and Lillian B. Wilkins Professor of Mechanical Engineering, UIUC,
2003
Invited speaker: Gordon Conference on Gravitational Effects in Physico-Chemical
Systems, 2001
Keynote Speaker: EuroMat, Munich, 1999
2
Invited Speaker: Cutting Edge of Computer Simulation of Solidi cation and
Processes, Osaka University, 1999
Invited Speaker: Computer Simulation of Microstructures, TMS Fall Meeting,
Cincinnati, 1999
Fellow, ASM International, 1998
Best Poster, 8th Engineering Foundation Conference on Modeling of Casting and
Advanced Solidi cation, 1998
Keynote Speaker: SolFIDAP, Berlin, 1998
Invited Speaker: Los Alamos National Laboratory Summer Workshop, Los Alamos,
1996
Keynote Speaker: Gordon Conference on Physical Metallurgy, New Hampshire,
1996
Invited Speaker: Institute for Mechanics and Materials, Brown University, 1995
Invited US participant in 2nd US-Japan Seminar on Solidi cation Processing of
Advanced Materials, New Hampshire, 1994
Keynote Speaker: Modeling of Casting, Welding and Advanced Solidi cation
Processes VI, Palm Coast, FL, March 1993
Invited presentation: Optimization of Solidi cation Processes at NATO Work-
shop on Interaction of Convection with Interfaces, Chamonix, France, March
1992
Best Paper, 5th Engineering Foundation Conference on Modeling of Casting and
Advanced Solidi cation, 1990
Invited US participant in 1st US-Japan Seminar on Solidi cation Processing of
Advanced Materials, Oiso, Japan, 1990
Member, NASA Metals and Alloys Discipline Working Group, 1984 - 1998
Union Oil Young Faculty Award, 1985-88
Arnold O. Beckman Award, University Research Board, UIUC, 1982
Sigma Xi, 1982
Phi Beta Kappa, 1972
Tau Beta Pi, 1971
3
Professional Society Activities
Instructor for Solidi cation, a one-week short course sponsored annually by
ESI (formerly CALCOM) 1997, 1999-present. This course has been taught since
1999 in Les Diablerets, Switzerland. The typical audience each year consists of
25-30 engineers from 15 different countries all over the world.
Member of Scienti c Committee, Modeling of Casting, Welding and Advanced
Solidi cation Processes - XI, 2005
Panel Member, Bridging Design and Manufacturing, National Research Council,
2003-2004
Member of Steering Committee, Processing and Properties of Semi-Solid Mate-
rials - 5, 1998
Member of Organizing Committee, Modeling of Casting, Welding and Advanced
Solidi cation Processes - VIII, Engineering Foundation, 1998
Co-Chairman of symposium, Modeling. Characterization and Control of Mi-
crostructure, TMS-AIME, 1997
Member of Organizing Committee, Modeling of Casting, Welding and Advanced
Solidi cation Processes - VII, Engineering Foundation, 1996
Co-Chairman of symposium, Nature and Properties of Semi-Solid Materials,
TMS-AIME, 1992
Conference Chairman, Modeling of Casting and Welding Processes - II, Engi-
neering Foundation, 1983
Member, ASM International, 1972-Present
Member, TMS-AIME, 1977-Present
- Member, Information Technology Committee
- Member, Solidi cation Committee (Chair, 1988-89)
- Member, SCAMP Committee
Journal Editorships and Reviewerships
Key Reader, Metallurgical and Materials Transactions - A (Chairman of Board
of Review, 1995-1996)
Key Reader, Metallurgical and Materials Transactions - B
4
Editorial Board, Modeling and Simulation in Materials Science and Engineering
Reviewer, Journal of Computational Physics
Reviewer, ASME Journal of Fluids Engineering
Reviewer, International Journal of Numerical Methods in Engineering
Reviewer, International Journal of Numerical Methods for Fluids
Reviewer, Journal of Engineering for Industry
Reviewer, Materials Science and Engineering
Reviewer, Physica D
Reviewer, Physical Review E
Reviewer, National Science Foundation
Reviewer, NASA
Graduate Advisees:
Masters
Student Year Current Location
Jeffrey Wiese 1984 Nonlinear Engineering
Kenneth Michalek 1984 Bell Laboratories
Ron Walling 1986 Cummins Engine Corporation
Long-Sun Chao 1986 Taiwan National University
Steven Shoopman 1992 Ford Motor Company
Timothy Morth- 1993 Southern Illinois University School
land of Medicine
Michael Tiller 1993 Dynopsys.com
Paul Byrne 1994 Proctor and Gamble
Kevin Rentzsch 1995 Proctor and Gamble
Sepehr Ebrahimi 1995 Hughes Aerospace
K. Jarrett New 1997 Ford Motor Company
Dan Metzger 1999 Hamilton Standard
Melissa Bloch 2000 Kimberley-Clark
Anthony Chang 2002 MIT Lincoln Labs
Brad Robinson 2001 General Electric
Shawn Harnish 2004 Gamma Technologies
Roy Maske 2005 Caterpillar
5
Student Year Current Location
Maragret Koker 2009 Max Planck Institut, Stuttgart
Joseph Miksan 2009 ProductSpace Solutions
PhD
Student Year Current Location
Jeffrey Wiese 1987 Nonlinear Engineering
Long-Sun Chao 1987 Taiwan National University
James Kelly 1989 Air Liquide
David Goettsch 1991 General Motors Corporation
Thomas O Connor 1992 Lawrence Livermore National Lab-
oratories
Ron Walling 1992 Cummins Engine Corporation
Nagendra Palle 1993 Openlane
Zing-Xi Wang 1994 Ford Motor Company
Michael Tiller 1995 LMS International
Robert McDavid 1997 Caterpillar, Inc.
Jay Roplekar 1999 Caterpillar, Inc.
Matt Newman 2001 Procter and Gamble
Yung-Tae Kim 2003 DePaul University
Badri Athreya 2006 Caterpillar, Inc.
Anthony Chang 2006 MIT Lincoln Labs
Natarajan Kumar 2010 General Electric
Zhi Huang 2006- Caterpillar, Inc.
Postdoctoral
Postdoc Years Current Location
Nikolas Provatas 1996-1999 McMaster University
Jun-Ho Jeong 1999-2001 KIMM
Navot Israeli 2001-2003 Weissman Institute
Publications:
Books
[1] J. A. Dantzig and M. Rappaz. Solidi cation. CRC Press, New York, 2009.
[2] J. A. Dantzig and Charles L. Tucker III. Modeling in Materials Processing. Cam-
bridge University Press, New York, 2001.
6
[3] S. P. Marsh, J. A. Dantzig, R. Trivedi, W. Hofmeister, M. Chu, E. Lavernia, and
J.-H. Chun, editors. Solidi cation 1998. TMS-AIME, Warrendale, PA, 1998.
[4] J. A. Dantzig. Landing an academic job: The process and pitfalls. via WWW
http://quattro.me.uiuc.edu/ jon, University of Illinois, 1995.
[5] J. A. Sekhar and J. A. Dantzig, editors. Nature and Properties of Semi-Solid Ma-
terials. TMS-AIME, Warrendale, PA, 1992.
[6] J. A. Dantzig and J. T. Berry, editors. Modeling of Casting and Welding Processes-
II. TMS-AIME, Warrendale, PA, 1984.
Book Chapters
[1] J. A. Dantzig. Materials processing: Soldi cation - models and simulation. In
G. Bassani, G. Liedle, and P. Wyder, editors, Encyclopedia of Condensed Matter
Physics, pages 401 408. Elsevier, 2005.
[2] J. A. Dantzig. Solidi cation processes: From dendrites to design. In D. Raabe,
F. Roters, F. Barlat, and L-Q. Chen, editors, Continuum Scale Simulation of En-
gineering Materials Fundamentals - Microstructures - Process Applications, pages
633 640. Wiley, 2004.
[3] J. A. Dantzig. Numerical methods for modeling in materials science. In K. H. J.
Buschow, R. W. Cahn, M. C. Flemings, B. Ilschner, E. J. Kramer, and S. Maha-
jan, editors, Encyclopedia of Materials Science and Technology, pages 5700 5712.
Elsevier Science, 2001.
[4] N. Provatas and J. A. Dantzig. Modeling dendritic growth. In K. H. J. Buschow,
R. W. Cahn, M. C. Flemings, B. Ilschner, E. J. Kramer, and S. Mahajan, editors,
Encyclopedia of Materials Science and Technology. Elsevier Science, 2001.
[5] J. A. Dantzig and B. G. Thomas. Computer Modeling in Continuous Casting, vol-
ume 31, Encyclopedia of Advanced Materials, page 4. 1993. D. Bloor, R. J. Brook,
M. C. Flemings and S. Mahajan, eds.
[6] J. A. Dantzig and L. S. Chao. Fluid Flow and Microstructure Development, vol-
ume 130, Low-Gravity Fluid Dynamics and Transport Phenomena, of Progress in
Astronautics and Aeronautics. AIAA, Washington, DC, 1990. J. N. Koster and R.
L. Sani, eds.
7
Journal Articles
[1] Pak Yuen Chan, Nigel Goldenfeld, and Jonathan Dantzig. Molecular dynamics
on diffusive time scales from the phase- eld-crystal equation. Phys. Rev. E, 79(3,
Part 2), 2009.
[2] Stephane Vernede, Jonathan A. Dantzig, and Michel Rappaz. A mesoscale gran-
ular model for the mechanical behavior of alloys during solidi cation. Acta Ma-
terialia, 57(5):1554 1569, 2009.
[3] N. Chennemalai Kumar, J. A. Dantzig, and I. Jasiuk. Modeling of cortical bone
adaptation in a rat ulna: effect of frequency. Bone, 50:792 797, 2012.
[4] N. Chennemalai Kumar, I. Jasiuk, and J. A. Dantzig. Dissipation energy as
a stimulus fr cortical bone adaptation. Journal of mechanics of materials and
structures, 6:303 319, 2011.
[5] P. Y. Chan, G. Tsekenis, J. Dantzig, K. A. Dahmen, and N. Goldenfeld. Plasticity
and dislocation dynamics in a phase eld crystal model. Phys. Rev. Lett., 105,
2010.
[6] N. Guttenberg, N. Goldenfeld, and J. Dantzig. Emergence of foams from the
breakdown of the phase eld crystal model. Phys. Rev. E, 81:065301, 2010.
[7] N. Chennimalai Kumar, J. A. Dantzig, I. M. Jasiuk, A. G. Robling, and C. H.
Turner. Numerical modeling of long bone adaptation due to mechanical loading:
Correlation with experiments. Annals of Biomedical Engineering, 38:594 604,
2010.
[8] B. P. Athreya, N. Goldenfeld, J. A. Dantzig, M. Greenwood, and N. Provatas.
Adaptive mesh computation of polycrystalline pattern formation using a
renormalization-group reduction of the phase- eld crystal model. Phys. Rev. E,
76:056706:1 14, 2007.
[9] A. Chang, J. A. Dantzig, B. T. Darr, and A. Hubel. Modeling the interaction of
biological cells with a solidifying interface. J. Comp. Phys., 226:1808 1827, 2007.
[10] A. Hubel, B. T. Darr, A. Chang, and J. A. Dantzig. Cell partitioning during the
directional solidi cation of trehalose solutions. Cryobiology, 55:182 188, 2007.
[11] N. Provatas, J. A. Dantzig, B. P. Athreya, P.-Y. Chan, P. Stefanovic, N. Goldenfeld,
and K. Elder. Using the phase- eld crystal method in the multi-scale modeling
of microstructure evolution. J. Metals, 59(7):83 90, 2007.
[12] B. P. Athreya, J. A. Dantzig, S. Liu, and R. Trivedi. On the role of con nement
of solidi cation in pure materials and binary alloys. Philosophical Magazine,
86(24):3739 3756, 2006.
8
[13] B. P. Athreya, N. Goldenfeld, and J. A. Dantzig. Renormalization group theory
for the phase eld crystal equation. Physical Review E, 74:011601, 2006.
[14] Y. Chen, F. V. Lawrence, C. P. L. Barkan, and J. A. Dantzig. Heat transfer mod-
eling of rail thermite welding. Proceedings of the Institution of Mechanical Engi-
neers, Part F: J. Rail and Rapid Transit, 220(3):207 217, 2006.
[15] Y. Chen, F. V. Lawrence, C. P. L. Barkan, and J. A. Dantzig. Weld defect formation
in rail thermite welds. Proceedings of the Institution of Mechanical Engineers,
Part F: J. Rail and Rapid Transit, 220:373 384, 2006.
[16] J. A. Dantzig, W. J. Boettinger, J. A. Warren, G. B. McFadden, S. R. Coriell, and
R. F. Sekerka. Numerical modeling of diffusion-induced deformation. Metallur-
gical and Materials Transactions, 37A:2701 2714, 2006.
[17] N. Goldenfeld, B. P. Athreya, and J. A. Dantzig. Renormalization group approach
to multiscale modeling in materials science. J. Stat. Phys., 125(5/6):1019 1027,
2006. DOI: 10.1007/s10955-005-9013-7.
[18] B. Han, J. H. Choi, J. A. Dantzig, and J. C. Bischof. A quantitative analysis of
latent heat of an aqueous binary mixture. Cryobiology, 52(1):146 151, 2006.
[19] K. Wang, A. Chang, L. V. Kale, and J. A. Dantzig. Parallelization of a level set
method for simulating dendritic growth. J. Parallel and Distributed Computing,
66(11):1379 1386, 2006.
[20] N. Goldenfeld, B. P. Athreya, and J. A. Dantzig. Renormalization group approach
to multiscale simulation of polycrystalline materials using the phase eld crystal
model. Phys Rev E (Rapid Comm), pages 020601:1 4, 2005.
[21] S. F. Harnish, H. A. Padilla, B. E. Gore, J. A. Dantzig, A. J. Beaudoin, I. M.
Robertson, and H. Weiland. High temperature behavior and hot rolling of
AA705X. Met. Mater. Trans., 36A(2):357 370, 2005.
[22] N. Provatas, M. Greenwood, B. Athreya, N. Goldenfeld, and J. Dantzig. Mul-
tiscale modeling of solidi cation: Phase- eld methods to adaptive mesh re ne-
ment. Intl. J. Modern Physics B, 19(31):4525 4565, 2005.
[23] A. Chang and J. Dantzig. Improved sand surface element for residual stress
determination. Applied Mathematical Modeling, 28(6):533 546, 2004.
[24] J.-H. Jeong, J. A. Dantzig, and N. Goldenfeld. Dendritic growth with uid ow
in pure materials. Met. Mater. Trans., 34A(3):459 466, 2003.
[25] M. L. Newman, B. J. Robinson, H. Sehitoglu, and J. A. Dantzig. Deformation,
residual stress, and constitutive relations for quenched w319 aluminum. Met.
Mater. Trans., 34A(7):1483 1491, 2003.
9
[26] J.-H. Jeong, N. Goldenfeld, and J. A. Dantzig. Phase eld model for three-
dimensional dendritic growth with uid ow. Physical Review E, 64:041602:1
14, 2001.
[27] D. Metzger, K. J. New, and J. A. Dantzig. A sand surface element for ef cient
modeling of residual stress in castings. App. Math. Modeling, 25(10):825 842,
2001.
[28] J. K. Roplekar and J. A. Dantzig. A study of solidi cation with a rotating mag-
netic eld. Intl. J. Cast Metals Research, 14(2):79 98, 2001.
[29] J. A. Dantzig. Solidi cation modeling: Status and outlook. J. Metals, 52(12):18
21, 2000.
[30] Y-T. Kim, N. Goldenfeld, and J. A. Dantzig. Computation of dendritic microstruc-
tures using a level set method. Physical Review E, 62:2471 2474, 2000.
[31] J. A. Dantzig. Modeling solidi cation processes using FiDAP. Cryst. Res. Tech-
nol., 34(4):417 424, 1999.
[32] Y-T. Kim, N. Provatas, N. Goldenfeld, and J. A. Dantzig. Universal dynamics of
phase eld models for dendritic growth. Physical Review E, 59(3):2546 2549,
1999.
[33] P. Michaleris, J. A. Dantzig, and D. A. Tortorelli. Minimization of welding resid-
ual stress and distortion in large structures. Welding Journal, 78(11):361s 366s,
1999.
[34] N. Provatas, N. Goldenfeld, and J. A. Dantzig. Adaptive mesh re nement compu-
tation of solidi cation microstructures using dynamic data structures. Journal
of Computational Physics, 148:265 290, 1999.
[35] N. Provatas, N. Goldenfeld, J. A. Dantzig, J. C. LaCombe, A. Lupulescu, M. B.
Koss, M. E. Glicksman, and R. Almgren. Crossover scaling in dendritic growth
evolution at low undercooling. Physical Review Letters, 82(22):4496 4499, 1999.
[36] R. M. McDavid and J. A. Dantzig. Design sensitivity and nite element anal-
ysis of free surface ows with application to optimal design of casting rigging
systems. International Journal for Numerical Methods in Fluids, 28:419 442,
1998.
[37] R. M. McDavid and J. A. Dantzig. Fluid ow in casting rigging systems: Model-
ing, validation, and optimal design. Metallurgical and Materials Transactions,
29B:679 690, 1998.
10
[38] N. Provatas, N. Goldenfeld, and J. A. Dantzig. Ef cient computation of den-
dritic microstructures using adaptive mesh re nement. Physical Review Letters,
80(15):3308 3311, 1998.
[39] S. A. Ebrahimi, D. A. Tortorelli, and J. A. Dantzig. Sensitivity analysis and non-
linear programming applied to investment casting design. Applied Mathematical
Modeling, 21(2):113 123, 1997.
[40] P. E. Byrne, D. A. Tortorelli, and J. A. Dantzig. Solidi cation control by numerical
optimization. Video Journal of Engineering Research, 1:CD track 2, 1996.
[41] N. Palle and J. A. Dantzig. An adaptive mesh re nement scheme for solidi cation
problems. Metallurgical and Materials Transactions A, 27A:707 717, 1996.
[42] M. M. Tiller and J. A. Dantzig. Implementation of design sensitivity analysis
and numerical optimization. Applied Mathematical Modeling, 20(11):792 799,
1996.
[43] Z.-X. Wang, D. A. Tortorelli, and J. A. Dantzig. Sensitivity analysis and opti-
mization of coupled thermal and ow problems with applications to contraction
design. International Journal for Numerical Methods in Fluids, 23:991 1020,
1996.
[44] A. M. Jones, M. L. Osowski, R. M. Lammert, J. A. Dantzig, and J. J. Coleman.
Growth characterization and modeling of ternary InGaAs-GaAs quantum wells
by selective-area MOCVD. Journal of Electronic Materials, 24:1631 1636, 1995.
[45] T. E. Morthland, P. E. Byrne, D. A. Tortorelli, and J. A. Dantzig. Optimal riser
design for metal castings. Metallurgical and Materials Transactions, 26B:871
885, 1995.
[46] M. Cockerill, D. V. Forbes, H. Han, B. A. Turkot, J. A. Dantzig, I. M. Robertson,
and J. J. Coleman. Wavelength tuning in strained layer InGaAs-GaAs-AlGaAs
quantum well lasers be selective area epitaxy. Journal of Optical Electronics,
23(2):115 119, 1994.
[47] T. M. Cockerill, D. V. Forbes, J. A. Dantzig,, and J. J. Coleman. Strained layer
InGaAs-GaAs-AlGaAs buried heterostructure quantum well lasers by three-step
selective area metalorganic chemical vapor deposition. IEEE Journal of Quan-
tum Electronics, 30(2):441 445, 1994.
[48] D. D. Goettsch and J. A. Dantzig. Modeling microstructure development in
gray iron castings. Metallurgical and Materials Transactions, 25A(5):1063 1080,
1994.
[49] T. G. O Connor and J. A. Dantzig. Modeling the thin slab continuous casting
mold. Metallurgical and Materials Transactions, 25B(3):443 457, 1994.
11
[50] D. A. Tortorelli, M. M. Tiller, and J. A. Dantzig. Optimal design of nonlinear
parabolic systems. Part I: Fixed spatial domain with application to process op-
timization. Computer Methods in Applied Mechanics and Engineering, 113(1-
2):141 155, 1994.
[51] D. A. Tortorelli, J. A. Tomasko, T. E. Morthland, and J. A. Dantzig. Optimal
design of nonlinear parabolic systems. Part II: Variable spatial domain with ap-
plication to process optimization. Computer Methods in Applied Mechanics and
Engineering, 113(1-2):157 172, 1994.
[52] R. A. Walling and J. A. Dantzig. Mechanisms of mold lling in the expendable
pattern casting process. AFS Transactions, 102:849 854, 1994.
[53] J. W. Wiese and J. A. Dantzig. Modeling stress development during the solidi -
cation of gray iron castings. Metallurgical Transactions, 21A(2):489 497, 1990.
[54] J. A. Dantzig. Modeling of liquid-solid phase changes with melt convection. In-
ternational Journal of Numerical Methods in Engineering, 28:1769 1785, 1989.
[55] J. A. Dantzig. Thermal stress development in metal casting processes. Metallur-
gical Science and Technology, 7(3):133 178, 1989.
[56] J. A. Dantzig and J. W. Wiese. Spider and the boundary curvature method: Sim-
ulating the solidi cation of foundry castings. Applied Mathematical Modeling,
12(4):213 220, 1988.
[57] J. E. Kelly, K. P. Michalek, T. P. O Connor, B. G. Thomas, and J. A. Dantzig.
Initial development of thermal and stress elds in continuously cast steel billets.
Metallurgical Transactions, 19A(10):2589 2592, 1988.
[58] T. P. O Connor, J. E. Kelly, and J. A. Dantzig. Mathematical models for steel billet
castings. J. Metals, 40:4, 1988.
[59] R. P. Walling and J. A. Dantzig. Effects of uid ow on solidi cation microstruc-
ture. J. Metals, 40:A15, 1988.
[60] J. A. Dantzig. Mathematical modeling of solidi cation processes. Technology for
Premium Quality Castings, 1987. AIME, Warrendale, PA.
[61] J. A. Dantzig and L. S. Chao. Cellular growth into a shearing ow. Solidi cation
Processing, page 502, 1987. H. Jones, ed.
[62] J. A. Dantzig and J. W. Wiese. Modeling the solidi cation of foundry castings.
Advanced Manufacturing Processes, 1(3/4):437 454, 1986.
[63] J. A. Dantzig. Improved transient response of thermocouple sensors. Review of
Scienti c Instruments, 56(5):723 725, 1985.
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[64] J. A. Dantzig and S. C. Lu. Modeling of heat ow in sand castings part i the
boundary curvature method. Metallurgical Transactions, 16B(2):195 202, 1985.
[65] J. A. Dantzig and J. W. Wiese. Modeling of heat ow in sand castings part
ii applications of the boundary curvature method. Metallurgical Transactions,
16B(2):203 209, 1985.
[66] J. A. Dantzig, J. A. Clumpner, and D. E. Tyler. Degassing of static melts by
insoluble purge gases. Metallurgical Transactions, 11B(3/4):433 438, 1980.
[67] J. A. Dantzig and S. H. Davis. Analysis for prediction of non-equilibrium phase
formation in rapid conduction cooling. Materials Science and Engineering,
32:199 209, 1978.
[68] J. A. Dantzig and Jr. R. E. Green. Flash x-ray diffraction systems. Advances in
X-Ray Analysis, 16:229 241, 1972.
Refereed Conference Proceedings
[1] J. A. Dantzig, B. P. Athreya, A. Chang, and N. Goldenfeld. Multiscale modeling
of solidi cation microstructure. In C-A. Gandin and M. Bellet, editors, Modeling
of Casting, Welding, and Advanced Solidi cation Processes - XI, pages 25 32,
Warrendale, PA, 2006. TMS-AIME.
[2] B. P. Athreya and J. A. Dantzig. Dendritic growth in con ned spaces. In M. Rap-
paz, C. Beckermann, and R. Trivedi, editors, Solidi cation processes and mi-
crostructures: A symposium in honor of Wilfried Kurz, pages 357 368, Warren-
dale, PA, 2004. TMS-AIME.
[3] J. A. Dantzig, J.-H. Jeong, and N. Goldenfeld. Dendritic growth with uid ow
in pure materials. In D. M. Stefanescu, J. A. Warren, M. R. Jolly, and M. J. M.
Krane, editors, Modeling of Casting, Welding, and Advanced Solidi cation Pro-
cesses - X, pages 13 20, Warrendale, PA, 2003. TMS-AIME.
[4] B. E. Gore, S. Harnish, H. Padilla, B. J. Robinson, A. J. Beaudoin, J. A. Dantzig,
and H. Weiland. High temperature properties and processing of aa7050. In
Z. Jin, T. Bieler, A. J. Beaudoin, and B. Radhikrishnan, editors, Hot Deformation
of Aluminum, pages 255 262, Warrendale, PA, 2003. TMS-AIME.
[5] J. A. Dantzig, N. Provatas, N. Goldenfeld, J. C. LaCombe, M. B. Koss, and M. E.
Glicksman. A comparison of phase-feild computations with experimental micro-
gravity measurements for dendritic growth in pure materials. In P. R. Sahm,
P. N. Hansen, and J. G. Conley, editors, Modeling of Casting, Welding, and Ad-
vanced Solidi cation Processes - IX, pages 453 460, Aachen, 2000. Shaker Ver-
lag.
13
[6] D. L. Metzger, K. J. New, and J. A. Dantzig. Development of a sand surface ele-
ment for improved residual stress determination. In I. Ohnaka, editor, Cutting
edge of computer simulation of solidi cation and casting, pages 173 202, 1999.
[7] J. A. Dantzig and J. K. Roplekar. A mathematical model of the mhd-dc casting
process. In A. K. Bhasin, J. J. Moore, K. P. Young, and S. Midson, editors, Semi-
Solid Processing of Alloys and Composites - V, pages 241 248. Colorado School
of Mines, 1998.
[8] R. M. McDavid and J. A. Dantzig. Experimental and numerical investigation of
mold lling. In B. G. Thomas and C. Beckermann, editors, Modeling of Casting,
Welding, and Advanced Solidi cation Processes - VIII, pages 59 66, San Diego,
CA, 1998. TMS-AIME.
[9] N. Provatas, N. Goldenfeld, and J. A. Dantzig. Adaptive grid methods in so-
li cation microstructure modeling. In B. G. Thomas and C. Beckermann, edi-
tors, Modeling of Casting, Welding, and Advanced Solidi cation Processes - VIII,
pages 533 540, San Diego, CA, 1998. TMS-AIME.
[10] P. E. Byrne, P. Michaleris, D. A. Tortorelli, and J. A. Dantzig. Optimal design ap-
plications in casting and welding. In M. Cross and J. Campbell, editors, Modeling
of Casting, Welding, and Advanced Solidi cation Processes-VII, pages 365 372,
London, England, 1995. TMS-AIME.
[11] J. A. Dantzig, S. A. Ebrahimi, and D. A. Tortorelli. Optimal casting design. In
S-F. Shen and P. R. Dawson, editors, Materials Processing: Theory, Methods and
Applications; NUMIFORM 95, pages 1119 1124, Ithaca, NY, 1995. Balkema.
[12] J. J. Coleman, T. M. Cockerill, D. V. Forbes, and J. A. Dantzig. Advances in quan-
tum well heterostructure lasers: Strained layer buried heterostructure lasers
by selective area epitaxy. In Laser-Diode Technology and Applications VI, pages
158 162, Los Angeles, CA, 1994.
[13] J. A. Dantzig and L. S. Chao. Interface shape control in bridgman crystal growth.
In M. Rappaz, M. Ozgu, and K.W. Mahin, editors, Modeling of Casting, Welding
and Advanced Solidi cation Processes, Davos, Switzerland, 1990. TMS-AIME.
[14] D. D. Goettsch and J. A. Dantzig. Modeling microstructure development in gray
iron castings. In M. Rappaz, M. Ozgu, and K.W. Mahin, editors, Casting, Welding
and Advanced Solidi cation Processes, Davos, Switzerland, 1990. TMS-AIME.
[15] J. A. Dantzig and J. R. Howell. Simulation of round-robin hammer casting. In
G. J. Abbaschian and A. F. Giamei, editors, Modeling of Casting and Welding
Processes-IV, pages 825 832, Palm Coast, FL, 1988. TMS-AIME.
14
[16] J. W. Wiese and J. A. Dantzig. Modeling stress development in gray iron castings.
In G. J. Abbaschian and A. F. Giamei, editors, Modeling of Casting and Welding
Processes-IV, pages 373 384, Palm Coast, FL, 1988. TMS-AIME.
[17] J. A. Dantzig. Mathematical modeling of solidi cation processes. In S. K.
Samanta, R. Komanduri, R. McMeeking, M. M. Chen, and A. Tseng, editors,
Symposium on Interdisciplinary Issues in Materials Processing and Manufactur-
ing, pages 389 401, Boston, MA, 1987. American Society of Mechanical Engi-
neers Winter Annual Meeting.
[18] J. W. Wiese and J. A. Dantzig. Predicting residual stresses in iron castings. In
Symposium on Solidi cation of Eutectics, Cincinnati, OH, 1987. TMS-AIME.
[19] J. A. Dantzig and L. S. Jaw. The effect of shear ow of solidi cation microstruc-
tures. In National Congress of Applied Mechanics, pages 249 256, Austin, TX,
1986.
[20] J. A. Dantzig and J. W. Wiese. Modeling the solidi cation of foundry castings.
In Symposium on Advanced Manufacturing Processes, pages 437 454, Anaheim,
CA, 1986. 1986 American Society of Mechanical Engineers Winter Annual Meet-
ing, 1:3/4.
[21] J. A. Dantzig, J. W. Wiese, K. Michalek, M. Robinson, J. Howell, and N. P. Lilly-
beck. Applications of ansys to solidi cation problems. In 1985 ANSYS Confer-
ence, pages 8.14 8.31, Houston, PA, 1985. Swanson Analysis Systems, Inc.
Unrefereed Conference Proceedings
[1] B. E. Gore, S. Harnish, H. Padilla, B. J. Robinson, J. A. Dantzig, I. M. Robertson,
and H. Weiland. High temperature properties and processing of aa7050. In
Z. Jin, T. Bieler, A. Beaudoin, and B. Radhakrishnan, editors, Hot deformation
of aluminum alloys 2003, pages 255 262. TMS-AIME, 2003.
[2] H. A. Padilla, S. F. Harnish, B. E. Gore, A. J. Beaudoin, J. A. Dantzig, I. M.
Robertson, and H. Weiland. High temperature deformation and rolling of
aa7055. In M. Tiryakioglu and L. Lalli, editors, 1st International Symposium on
Metallurgical Modeling for Aluminum Alloys, page to appear. ASM Intl, 2003.
[3] J. A. Dantzig and D. A. Tortorelli. Optimal design in materials processing. In
Proceedings of the 1995 NSF Design and Manufacturing Grantees Conference,
pages 409 410, La Jolla, CA, 1995.
[4] M. M. Tiller and J. A. Dantzig. FEMLIB: An object-oriented framework for opti-
mization and simulation. In Proceedings of the 1995 ASME International Com-
puters in Engineering Conference, Boston, MA, 1995.
15
[5] J. A. Dantzig, D. A. Tortorelli, and T. E. Morthland. Optimal design of castings.
In 1994 NSF Design and Manufacturing Grantees Conference, pages 531 532,
Cambridge, MA, 1994.
[6] M. M. Tiller and J. A. Dantzig. Femlib: A framework for simulation and opti-
mization. In Proceedings of 2nd Annual Object-Oriented Numerics Conference,
Sunriver, OR, 1994.
[7] J. A. Dantzig and S. P. Midson. Billet heating for semi-solid forming. In S. Brown,
editor, Semi-Solid Processing of Alloys and Composites, Cambridge, MA, 1992.
[8] P. Nagendra and J. A. Dantzig. Adaptive mesh re nement for solidi cation prob-
lems. In Proceedings of FIDAP User s Conference, Evanston, IL, 1992.
[9] D. A. Tortorelli, J. A. Dantzig, and M. M. Tiller. Optimal design of advanced
materials. In P. Pedersen, editor, IUTAM Symposium on Optimal Design with
Advanced Materials, Lingby, Denmark, 1992.
[10] J. A. Dantzig and D. A. Tortorelli. Optimal design of solidi cation processes.
In G. Dulikravich, editor, Conference on Inverse Design Concepts and Optimza-
tion in Engineering Sciences - III (ICIDES-III), pages 213 226, Washington, DC,
1991.
[11] J. A. Dantzig. Computer modeling of solidi cation processes. In Proceedings of
Cray Science and Engineering Symposium, pages 437 462, Minneapolis, MN,
1988.
[12] K. Michalek and J. A. Dantzig. In-mold heat transfer in continuous casting. In
Proceedings of 12th Conference on Production Research and Technology, pages
209 215, 1985.
[13] J. A. Dantzig and K. Michalek. Analysis of defects in continuous casting. In
Computer-Based Factory Automation, Proceedings of 11th Conference on Produc-
tion Research and Technology, pages 221 225, 1984.
[14] R. Buchholz and J. A. Dantzig. Acoustic generation of harmonics. In Proceedings
of Institute of Electrical and Electronics Engineers 1976 Symposium, pages 621
623, 1976.
Patents
[1] J. A. Dantzig. Method and apparatus for electro-magnetic casting of complex
shapes. US Patent 4,612,972, September 23, 1986.
[2] J. A. Dantzig, R. C. Milici, and D. E. Tyler. Filter for use in ltration of molten
metal. US Patent 4,158,632, June 19, 1979.
16
[3] J. A. Dantzig and J. V. Patton. Flux concentrator. US Patent 4,522,790, June 11,
1985.
[4] J. A. Dantzig and J. V. Patton. Flux concentrator. US Patent 4,561,489, Dec. 31,
1985.
[5] J. A. Dantzig, P. E. Sevier, and G. L. Ungarean. Cast ingot position control pro-
cess and apparatus. US Patent 4,523,624, June 18, 1985.
[6] J. A. Dantzig and D. E. Tyler. Apparatus for in-line degassing and ltration of
molten metal. US Patent 4,159,104, June 26, 1979.
[7] J. A. Dantzig and D. E. Tyler. Apparatus for inline degassing and ltration of
molten metal. US Patent 4,298,187, Nov. 3, 1981.
[8] J. A. Dantzig and D. E. Tyler. Improved method and apparatus for degassing
molten metal. US Patent 4,235,627, Nov. 25, 1980.
[9] J. A. Dantzig and D. E. Tyler. Method and apparatus for the degassing of molten
metal. US Patent 4,317,679, March 2 1982.
[10] J. A. Dantzig and D. E. Tyler. Method for in-line degassing and ltration of
molten metal. US Patent 4,165,235, Aug. 21, 1979.
[11] J. A. Dantzig and D. E. Tyler. Mold for use in metal or metal alloy casting sys-
tems. US Patent 4,457,354, July 3, 1984.
[12] J. A. Dantzig and D. E. Tyler. Process and apparatus having improved ef ciency
for producing a semi-solid slurry. US Patent 4,465,118, Aug. 14, 1984.
[13] J. A. Dantzig, D. E. Tyler, and R. C. Milici. Method for fabricating a sparger plate
for use in degassing molten metal. US Patent 4,225,544, Sept. 30, 1980.
[14] J. A. Dantzig, D. E. Tyler, and R. C. Milici. Mold for fabricating sparger plate.
US Patent 4,166,604, Sept. 4, 1979.
[15] J. A. Dantzig, J. Winter, and D. E. Tyler. Process and apparatus for making
trixotropic metal slurries. US Patent 4,434,837, March 6, 1984.
[16] M. J. Pryor, J. Winter, and J. A. Dantzig. Copper base alloy for forging from a
semi-solid slurry condition. US Patent 4,594,117, June 10, 1986.
[17] M. J. Pryor, J. Winter, and J. A. Dantzig. Method and apparatus for forming a
thixoforged copper base alloy cartridge casing. US Patent 4,494,461, Jan. 22,
1985.
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[18] M. J. Pryor, J. Winter, and J. A. Dantzig. Method and apparatus for forming a
thixoforged copper base alloy cartridge casing. US Patent 4,537,242, Aug. 27,
1985.
[19] J. Winter, J. A. Dantzig, and D. E. Tyler. Apparatus and a method for making
thixotropic metal slurries. US Patent 4,457,355, July 3, 1984.
[20] J. Winter, D. E. Tyler, and J. A. Dantzig. Method and apparatus for casting
metals and alloys. US Patent No. 4,450,893, May 29, 1984.
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