440:
320:. She participated in the first class of the Defense Science Study Group, a program which introduces outstanding American science and engineering professors to the United Statesâ security challenges (1985â1988). From 1988 to 2014, she taught as Associate Professor, professor, and Walter P. Murphy Professor of Materials Science and Engineering at the McCormick School of Engineering at Northwestern University. During her time at Northwestern, she served as the Associate Dean for Graduate Studies and Research, overseeing more than $ 25 million in faculty research funds. She went on to complete a 5-year term as department chair of Materials Science and Engineering at Northwestern, where she also served as the Chair of the University Materials Council (2001â2002), a collaborative group composed of directors of a number of materials programs from across the US and Canada. Additionally, from 2005 to 2007 she sat on the Scientific Advisory Committee of the
496:, and chemical characterization, her group investigates the composition and manufacturing techniques of lusterware. By reverse-engineering these historical artifacts, her research provides insights into the materials and processes used in early 18th-century Meissen factories, contributing to the historical knowledge and preservation of these significant cultural artifacts. Her research interests also include silicon-based ceramics and ceramic matrix composites; polymer-derived multifunctional ceramics;
533:
33:
309:
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particles, the twist component remains the dominant factor in enhancing toughness. Additionally, she showed that the distribution of inter-particle spacing plays a crucial role in the toughening effect of spherical particles. Specifically, the toughness increases when spheres are in close proximity, causing twist angles to approach Ï/2. These insights by Faber formed the foundation for designing stronger two-phase ceramic materials. The
343:
284:. As the only one of her siblings who had an interest in the sciences, she was encouraged by her father to pursue an education in engineering. An initial interest in chemistry evolved to an appreciation for ceramic engineering after Faber recognized its potential in solving many engineering problems. Faber eventually obtained her Bachelor of Science in Ceramic Engineering at the New York State College of Ceramics within
582:
Center for
Scientific Studies in the Arts (NU-ACCESS), a collaboration between Northwestern University and the Art Institute of Chicago in which advanced materials characterization and analytical techniques are used to further conservation science for historical artifacts. NU-ACCESS, the first center
250:
of crack deflection which is named after her. Her research encompasses a broad range of topics, from ceramics for thermal and environmental barrier coatings in power generation components to porous solids for filters and flow in medical applications. Faber is the co-founder and previous co-director
556:
Faber showed that by using imaging techniques, the actual crack tortuosity can be determined, enabling the direct input of deflection and bowing angles into the model. The subsequent rise in fracture toughness is then contrasted with that of a flat crack in a plain matrix. The degree of toughening
564:
Faber's analysis revealed that fracture toughness, regardless of morphology, is primarily determined by the most severe twisting of the crack front rather than its initial inclination. While the initial tilting of the crack front contributes to significant toughening in the case of disc-shaped
471:
by developing a composite material that combines hexagonal boron nitride (h-BN) and graphite. The brittle nature of bulk BN poses challenges under dynamic loads, prompting Faber's group to create a layered system where h-BN is grown on graphite through high-temperature
476:
reduction. This composite material combines the desirable properties of both components, offering thermal emissivity, chemical inertness, and resistance to thermal shock while addressing the issues of oxidation and brittleness in dynamic environments.
599:. They began their careers at the California Institute of Technology in 2013 after Rosenbaum transitioned from his previous position as the John T. Wilson Distinguished Service Professor of Physics and university provost of The
451:
engines. EBCs are essential for protecting ceramic matrix composites (CMCs) from degradation in combustion environments. Her research delves into the damage modes, including oxidation of the bond coat layer and the mismatch of
548:
designed to predict the enhancement of fracture toughness in ceramics. This is achieved by accounting for crack deflection around second-phase particles prone to microcracking within a matrix. The model considers particle
966:
569:
is widely used by materials scientists to indicate that materials with approximately equiaxial grains can experience a fracture toughness increase of about twice the grain boundary value due to deflection effects.
553:, aspect ratio, spacing, and volume fraction of the second phase. Additionally, it accounts for the decrease in local stress intensity at the crack tip when deflection or bowing of the crack plane occurs.
561:
incompatibility and the microfracture resistance at the particle/matrix interface. This toughening effect becomes prominent when particles exhibit a narrow size distribution and are suitably sized.
464:(APS) to measure internal strains, stresses, and damage evolution in EBC systems, aiming to understand the mechanisms and rates of oxidation failure and enhance the lifetime of these coatings.
1431:
292:(1978) where she studied phase separation in glasses with Professor Guy Rindone. After graduating with her MS, she worked for a year as a development engineer for The Carborundum Company in
296:, on the development of silicon carbide for high performance applications such as engines. Following her year in industry, Faber decided to pursue a PhD in Materials Science at the
2075:
228:
439:
335:, and in 2013 was named a Distinguished Life Member in recognition of her notable contributions to the ceramic and glass profession. In 2014, Faber was elected to the
583:
of its kind, provides opportunities for scientists and scholars from a variety of institutions to make use of the center's facilities to study their collections.
784:
2065:
2080:
848:
In-situ observation of evolving microstructural damage and associated effective electro-mechanical properties of PZT during bipolar electrical fatigue
2055:
2105:
2095:
1610:
Chari, Celia S.; McEnerney, Bryan W.; Hofer, Richard R.; Wollmershauser, James A.; Gorzkowski, Edward P.; Faber, Katherine T. (2023).
863:
The influence of calciumâmagnesiumâaluminosilicate deposits on internal stresses in Yb2Si2O7 multilayer environmental barrier coatings
2100:
2090:
252:
1128:
2085:
2060:
227:(Caltech). She was previously the Walter P. Murphy Professor and department chair of Materials Science and Engineering at the
2020:
1406:
1366:
1308:
453:
358:
336:
212:
2070:
1027:
Thermal conductivity, phase stability, and oxidation resistance of Y3Al5O12 (YAG)/Y2O3âZrO2 (YSZ) thermal-barrier coatings
645:. In 2003, She was recognized by the Institute for Scientific Information as a Highly Cited Author in Materials Science.
416:
composites, and historical ceramics. Her work on shape memory materials investigates the martensitic transformation in
297:
224:
173:
98:
938:
Three-dimensional morphological measurements of LiCoO2 and LiCoO2/Li (Ni1/3Mn1/3Co1/3) O2 lithium-ion battery cathodes
936:
Liu, Z., Cronin, J.S., Yu-chen, K., Wilson, J.R., Yakal-Kremski, K.J., Wang, J., Faber, K.T. and
Barnett, S.A., 2013.
447:
Faber also explores the durability of environmental barrier coatings (EBCs) in high-temperature applications, such as
2110:
1548:"Chemical and Mechanical Consequences of Environmental Barrier Coating Exposure to CalciumâMagnesiumâAluminosilicate"
1432:"The American Ceramic Society announces selection of Faber, Gauckler, and Messing as 2013 Distinguished Life Members"
1011:
952:
953:
Chemical and mechanical consequences of environmental barrier coating exposure to calciumâmagnesiumâaluminosilicate.
408:
Katherine Faber's research encompasses a diverse range of material science topics, focusing on fracture mechanics,
424:
techniques, Faber's research group creates porous zirconia structures exhibiting shape memory behaviors. Through
382:
Pennsylvania State
University College of Earth and Mineral Sciences Charles L. Hosler Alumni Scholar Medal (2004)
1547:
216:
1178:
923:
3D analysis of a LiCoO2âLi (Ni1/3Mn1/3Co1/3) O2 Li-ion battery positive electrode using x-ray nano-tomography
833:
Dense freezeâcast Li7La3Zr2O12 solid electrolytes with oriented open porosity and contiguous ceramic scaffold
750:
Brodnik, N.R., Brach, S., Long, C.M., Ravichandran, G., Bourdin, B., Faber, K.T. and
Bhattacharya, K., 2021.
736:
88:
1042:
Effect of heat treatment on phase stability, microstructure, and thermal conductivity of plasma-sprayed YSZ.
893:
The interaction of calciumâmagnesiumâaluminosilicate with ytterbium silicate environmental barrier materials
785:
Guiding and trapping cracks with compliant inclusions for enhancing toughness of brittle composite materials
701:
683:
1457:
493:
1820:
1040:
Trice, R.W., Su, Y.J., Mawdsley, J.R., Faber, K.T., Arellano-LĂłpez, D., Wang, H. and Porter, W.D., 2002.
325:
485:
1546:
Harder, Bryan J.; RamĂŹrez-Rico, Joaquin; Almer, Jonathan D.; Lee, Kang N.; Faber, Katherine T. (2011).
1026:
832:
751:
558:
388:
Toledo Glass and
Ceramics Award, Michigan/Northwest Ohio Section of the American Ceramic Society (2012)
364:
981:
937:
922:
907:
892:
877:
862:
847:
815:
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767:
719:
651:
433:
260:
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zirconia systems, addressing the volume change issue that causes premature cracking in bulk systems.
783:
Brodnik, N.R., Hsueh, C.J., Faber, K.T., Bourdin, B., Ravichandran, G. and
Bhattacharya, K., 2020.
684:
Deposition of electrically conductive zirconium monoxide via plasma spray-physical vapor deposition
592:
579:
332:
316:
From 1982 to 1987, Faber served as
Assistant and Associate Professor of Ceramic Engineering at the
1611:
980:
Kaul, V.S., Faber, K.T., Sepulveda, R., de
Arellano LĂłpez, A.R. and Martinez-Fernandez, J., 2006.
816:
Analysis of Multi-scale
Mechanical Properties of Ceramic Trusses Prepared from Preceramic Polymers
768:
Dense garnet-type electrolyte with coarse grains for improved air stability and ionic conductivity
293:
232:
168:
1986:
1674:
Chari, Celia S.; Taylor, Zane W.; Bezur, AnikĂł; Xie, Sujing; Faber, Katherine T. (May 3, 2022).
2050:
596:
461:
321:
112:
238:
Faber is known for her work in the fracture mechanics of brittle materials and energy-related
1483:
1208:
Kamble, Mithil; Lakhnot, Aniruddha Singh; Koratkar, Nikhil; Picu, Catalin R. (June 1, 2020).
982:
Precursor selection and its role in the mechanical properties of porous SiC derived from wood
600:
473:
409:
317:
289:
277:
163:
1041:
443:
Distinguished
Lecture by Dr. Katherine Faber at UC Davis College of Engineering, Winter 2018
2115:
1687:
1649:
1612:"High-temperature carbothermal synthesis and characterization of graphite/h-BN bimaterials"
550:
468:
737:
Looking Back, Looking Forward: Materials Science in Art, Archaeology, and Art Conservation
8:
1585:
906:
Shanti, N.O., Chan, V.W., Stock, S.R., De Carlo, F., Thornton, K. and Faber, K.T., 2014.
861:
Stolzenburg, F., Kenesei, P., Almer, J., Lee, K.N., Johnson, M.T. and Faber, K.T., 2016.
831:
Buannic, L., Naviroj, M., Miller, S.M., Zagorski, J., Faber, K.T. and Llordés, A., 2019.
617:
504:-based cellular ceramics synthesized from natural scaffolds, such as pyrolyzed wood; and
425:
208:
1898:
1859:
1691:
1521:
908:
X-ray micro-computed tomography and tortuosity calculations of percolating pore networks
385:
NSF American Competitiveness and Innovation Fellow and Creativity Extension Award (2010)
1914:
1875:
1836:
1718:
1675:
1399:
Successful Women Ceramic and Glass Scientists and Engineers: 100 Inspirational Profiles
1329:
667:
660:
625:
243:
147:
1962:"Caltech Environmental Science and Engineering | News | Caltech Names Ninth President"
1781:
1742:
1359:
Successful women ceramic and glass scientists and engineers 100 inspirational profiles
706:
Journal of the American Ceramic Society, 104 (9). pp. 4309â4315. ISSN 0002-7820.
2026:
2016:
1918:
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1801:
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1503:
1402:
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1362:
1304:
1231:
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Sturdy, L.F., Wright, M.S., Yee, A., Casadio, F., Faber, K.T. and Shull, K.R., 2020.
729:
655:
Journal of the European Ceramic Society, 42 (8). pp. 3437â3445. ISSN 0955-2219.
612:
566:
545:
527:
505:
489:
481:
417:
285:
247:
204:
132:
78:
63:
1676:"Nanoscale engineering of gold particles in 18th century Böttger lusters and glazes"
1274:
1249:
996:
800:
Effects of zinc oxide filler on the curing and mechanical response of alkyd coatings
688:
Journal of the American Ceramic Society, 105 (5). pp. 3568â80. ISSN 0002-7820.
641:
Faber has authored over 150 papers, written three book chapters, and edited a book,
1910:
1871:
1832:
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1754:
1713:
1695:
1623:
1559:
1495:
1221:
821:
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707:
689:
656:
541:
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281:
188:
183:
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Nanoscale engineering of gold particles in 18th century Böttger lusters and glazes
891:
Stolzenburg, F., Johnson, M.T., Lee, K.N., Jacobson, N.S. and Faber, K.T., 2015.
720:
Hierarchical porous SiOC via freeze casting and self-assembly of block copolymers
501:
467:
In collaboration with NASA's Jet Propulsion Laboratory, Faber works on advancing
1860:"Crack Deflection Process for Hot-Pressed Whisker-Reinforced Ceramic Composites"
878:
Directionally aligned macroporous SiOC via freeze casting of preceramic polymers
825:
643:
Semiconductors and Semimetals: The Mechanical Properties of Semiconductors v. 37
1226:
1209:
421:
1484:"Robust Cellular Shape-Memory Ceramics via Gradient-Controlled Freeze Casting"
951:
Harder, B.J., RamĂŹrezâRico, J., Almer, J.D., Lee, K.N. and Faber, K.T., 2011.
921:
Chen-Wiegart, Y.C.K., Liu, Z., Faber, K.T., Barnett, S.A. and Wang, J., 2013.
777:
2044:
2030:
1922:
1883:
1844:
1805:
1766:
1709:
1635:
1571:
1507:
1376:
1235:
717:
Kuo, Taijung and Rueschhoff, Lisa M. and Dickerson, Matthew B. et al. (2021)
413:
137:
1899:"Crack Deflection as a Toughening Mechanism in SiC-Whisker-Reinforced MoSi2"
1700:
765:
Zeng, Xiaomei and Martinolich, Andrew J. and See, Kimberly A. et al. (2020)
532:
1727:
1499:
1012:
Thermal conductivity of porous silicon carbide derived from wood precursors
967:
Catalytic graphitization of three-dimensional wood-derived porous scaffolds
428:
synthesis and freeze-casting, she examines stress-induced shape memory and
1936:
1153:
448:
735:
Faber, K.T., Casadio, F., Masic, A., Robbiola, L. and Walton, M., 2021.
1627:
711:
693:
630:
578:
Faber is the co-founder and co-director of the Northwestern Universityâ
480:
Faber's research group also examines historical ceramics, specifically
255:
and also oversees a number of collaborative endeavors, especially with
220:
37:
Faber at the McCormick School of Engineering at Northwestern University
1210:"Heterogeneity-induced mesoscale toughening in polymer nanocomposites"
1074:
997:
Self-assembly and stress relaxation in acrylic triblock copolymer gels
460:. Faber employs advanced techniques like high-intensity X-rays at the
1937:"Center for Scientific Studies in the Arts â Northwestern University"
1025:
Su, Y.J., Trice, R.W., Faber, K.T., Wang, H. and Porter, W.D., 2004.
666:
Chari, C.S., Taylor, Z.W., Bezur, A., Xie, S. and Faber, K.T., 2022.
509:
308:
32:
681:
Harder, Bryan J. and Good, Brian and Schmitt, Michael et al. (2022)
1961:
595:, and current president of the California Institute of Technology,
497:
1186:
342:
288:(1975). She completed her Master of Science in Ceramic Science at
1609:
1303:(1st ed.). Reston, VA: American Society of Civil Engineers.
995:
Seitz, M.E., Burghardt, W.R., Faber, K.T. and Shull, K.R., 2007.
772:
Journal of Energy Storage, 27 . Art. No. 101128. ISSN 2352-152X.
412:, environmental barrier coatings (EBCs), additive manufacturing,
239:
142:
702:
Freeze-cast honeycomb structures via gravity-enhanced convection
1010:
Pappacena, K.E., Faber, K.T., Wang, H. and Porter, W.D., 2007.
1821:"Intergranular Crack-Deflection Toughening in Silicon Carbide"
876:
Naviroj, M., Miller, S.M., Colombo, P. and Faber, K.T., 2015.
828:
https://resolver.caltech.edu/CaltechAUTHORS:20191120-091827034
820:
Additive Manufacturing, 31 . Art. No. 100957. ISSN 2214-8604.
780:
https://resolver.caltech.edu/CaltechAUTHORS:20191224-093208324
732:
https://resolver.caltech.edu/CaltechAUTHORS:20201019-100031049
714:
https://resolver.caltech.edu/CaltechAUTHORS:20210504-120148263
696:
https://resolver.caltech.edu/CaltechAUTHORS:20220121-733841000
663:
https://resolver.caltech.edu/CaltechAUTHORS:20220222-706520000
813:
Brodnik, N. R. and Schmidt, J. and Colombo, P. et al. (2020)
457:
752:
Fracture Diodes: Directional asymmetry of fracture toughness
724:
Scripta Materialia, 191 . pp. 204â209. ISSN 1359-6462.
513:
370:
256:
92:
82:
1545:
1482:
Zeng, Xiaomei; Arai, Noriaki; Faber, Katherine T. (2019).
652:
Oxidation resistance of AlN/BN via mullite-type AlââBâOââ.
312:
Katherine Faber lecturing on mechanical behavior of solids
1401:(1st ed.). Hoboken, NJ: John Wiley & Sons, Inc.
1207:
1858:
Liu, Haiyan; Weisskopf, Karl-L.; Petzow, Gunter (1989).
1179:"News | Professor Faber Receives the John Jeppson Award"
331:
From 2006 to 2007, Faber served as the President of the
2076:
Penn State College of Earth and Mineral Sciences alumni
328:. In 2014, she joined the teaching faculty at Caltech.
603:. Together, they have two sons, Daniel and Michael.
1673:
1301:
Changing Our World: True Stories of Women Engineers
1158:
Caltech Division of Engineering and Applied Science
229:
McCormick School of Engineering and Applied Science
1857:
394:American Ceramic Society John Jeppson Award (2015)
846:Tan, W.L., Faber, K.T. and Kochmann, D.M., 2019.
2042:
1680:Proceedings of the National Academy of Sciences
672:Proceedings of the National Academy of Sciences
276:Faber was the youngest daughter of an aspiring
2011:Molloy, Katherine T.; Faber, Kevin J. (1992).
1966:Caltech Environmental Science and Engineering
1481:
699:Arai, Noriaki and Faber, Katherine T. (2021)
557:hinges on the mismatch strain resulting from
488:lusterware. Using scientific methods such as
1897:Carter, David H.; Hurley, George F. (1987).
1896:
1780:Faber, K. T.; Evans, A. G. (April 1, 1983).
1741:Faber, K. T.; Evans, A. G. (April 1, 1983).
391:American Academy of Arts and Sciences (2014)
2013:The mechanical properties of semiconductors
2010:
1782:"Crack deflection processesâII. Experiment"
271:
207:and one of the world's foremost experts in
2066:California Institute of Technology faculty
1818:
1779:
1740:
376:NSF Creativity Extension Award (2001â2003)
31:
2081:University of California, Berkeley alumni
1717:
1699:
1225:
519:
354:IBM faculty development award (1984â1986)
253:Center for Scientific Studies in the Arts
2056:Women materials scientists and engineers
636:
531:
438:
341:
307:
303:
1903:Journal of the American Ceramic Society
1864:Journal of the American Ceramic Society
1825:Journal of the American Ceramic Society
1819:Faber, K.T.; Evans, Anthony G. (1983).
1616:Journal of the American Ceramic Society
1552:Journal of the American Ceramic Society
1016:Journal of the American Ceramic Society
956:Journal of the American Ceramic Society
882:Journal of the European Ceramic Society
837:Journal of the American Ceramic Society
2106:20th-century American women scientists
2096:21st-century American women scientists
2043:
1743:"Crack deflection processesâI. Theory"
1396:
1356:
536:Katherine Faber at the 2013 ACS Awards
379:Fellowship in ASM International (2003)
373:Achievement Award for Education (1997)
223:Professor of Materials Science at the
1426:
1424:
1422:
1420:
1418:
1392:
1390:
1388:
1386:
1357:Madsen, Lynnette D. (February 2016).
1352:
1350:
1298:
1123:
1121:
1119:
1117:
1115:
965:Johnson, M.T. and Faber, K.T., 2011.
649:Chari, C. S. and Faber, K. T. (2022)
540:Katherine Faber and her PhD advisor,
359:Presidential Young Investigator Award
337:American Academy of Arts and Sciences
1991:NASA Jet Propulsion Laboratory (JPL)
1324:
1322:
1320:
1113:
1111:
1109:
1107:
1105:
1103:
1101:
1099:
1097:
1095:
1069:
1067:
1065:
986:Materials Science and Engineering: A
741:Annual Review of Materials Research
367:Distinguished Educator Award (1995)
350:She has also been recognized with:
13:
1915:10.1111/j.1151-2916.1987.tb04992.x
1876:10.1111/j.1151-2916.1989.tb06175.x
1837:10.1111/j.1151-2916.1983.tb10084.x
1415:
1383:
1347:
661:10.1016/j.jeurceramsoc.2022.02.037
357:National Science Foundation (NSF)
298:University of California, Berkeley
280:whose education was halted by the
225:California Institute of Technology
174:California Institute of Technology
99:University of California, Berkeley
14:
2127:
1987:"Caltech Announces New President"
1317:
1092:
1062:
484:, to understand and authenticate
2101:20th-century American scientists
2091:21st-century American scientists
1564:10.1111/j.1551-2916.2011.04448.x
1185:. April 21, 2015. Archived from
730:10.1016/j.scriptamat.2020.09.042
586:
217:ultra-high temperature materials
2086:Northwestern University faculty
2004:
1979:
1954:
1929:
1890:
1851:
1812:
1773:
1734:
1667:
1642:
1603:
1578:
1539:
1514:
1475:
1450:
927:Electrochemistry Communications
897:Surface and Coatings Technology
300:, which she completed in 1982.
1941:scienceforart.northwestern.edu
1488:Advanced Engineering Materials
1292:
1267:
1242:
1201:
1171:
1146:
573:
454:thermal expansion coefficients
1:
2061:American materials scientists
1458:"John Jeppson Award Archives"
1055:
971:Journal of Materials Research
456:, which lead to cracking and
89:Pennsylvania State University
1798:10.1016/0001-6160(83)90047-0
1759:10.1016/0001-6160(83)90046-9
1462:The American Ceramic Society
1436:The American Ceramic Society
1334:The American Ceramic Society
1129:"Faber, Katherine | Faculty"
1045:Journal of materials science
789:Journal of Applied Mechanics
546:materials of mechanics model
494:scanning electron microscopy
346:Faber at the WiMSE Reception
266:
16:American materials scientist
7:
2071:Alfred State College alumni
826:10.1016/j.addma.2019.100957
606:
403:
10:
2132:
1227:10.1016/j.mtla.2020.100673
593:condensed matter physicist
508:science, with emphasis on
365:Society of Women Engineers
1397:Madsen, Lynnette (2016).
1361:. John Wiley & Sons.
1183:Caltech Materials Science
778:10.1016/j.est.2019.101128
261:Jet Propulsion Laboratory
194:
182:
156:
125:
118:
108:
71:
42:
30:
23:
2111:American women academics
1133:Northwestern Engineering
942:Journal of Power Sources
888:(8), pp. 2225â2232.
580:Art Institute of Chicago
333:American Ceramic Society
272:Early life and education
1701:10.1073/pnas.2120753119
1051:(11), pp. 2359â65.
992:(1â2), pp. 225â32.
756:Physical Review Letters
420:-based ceramics. Using
398:
294:Niagara Falls, New York
233:Northwestern University
169:Northwestern University
47:Katherine Theresa Faber
1650:"Faber Research Group"
1586:"Faber Research Group"
1522:"Faber Research Group"
1500:10.1002/adem.201900398
1075:"Faber Research Group"
1022:(9), pp. 2855â62.
1007:(4), pp. 1218â26.
843:(3), pp. 1021â29.
537:
520:Crack Deflection Model
462:Advanced Photon Source
444:
410:shape memory materials
347:
322:Advanced Photon Source
313:
213:material strengthening
113:Thomas Felix Rosenbaum
1299:Hatch, Sybil (2006).
1037:(3), pp. 253â71.
637:Selected publications
601:University of Chicago
544:, first introduced a
535:
469:Hall-effect thrusters
442:
345:
318:Ohio State University
311:
304:Teaching, recognition
290:Penn State University
278:aeronautical engineer
164:Ohio State University
1330:"Katherine T. Faber"
1154:"Katherine T. Faber"
977:(1), pp. 18â25.
795:(3), p. 031018.
762:(2), p. 025503.
678:(18), p.e2120753119.
591:Faber is married to
326:Argonne National Lab
1692:2022PNAS..11920753C
1686:(18): e2120753119.
1031:Oxidation of metals
747:, pp. 435â460.
618:Ceramic engineering
597:Thomas F. Rosenbaum
559:thermal contraction
209:ceramic engineering
205:materials scientist
148:Composite materials
2015:. Academic Press.
1628:10.1111/jace.18927
948:, pp. 267â74.
933:, pp. 127â30.
918:, pp. 126â35.
873:, pp. 189â98.
858:, pp. 704â13.
712:10.1111/jace.17871
694:10.1111/jace.18309
626:Fracture toughness
538:
445:
348:
314:
201:Katherine T. Faber
2022:978-0-08-086434-1
1786:Acta Metallurgica
1747:Acta Metallurgica
1654:faber.caltech.edu
1590:faber.caltech.edu
1526:faber.caltech.edu
1408:978-1-118-73360-8
1368:978-1-118-73360-8
1310:978-0-7844-0841-4
1275:"Katherine Faber"
1250:"Katherine Faber"
1079:faber.caltech.edu
903:, pp. 44â50.
810:, p. 122222.
613:Faber-Evans model
567:Faber-Evans model
528:Faber-Evans model
506:cultural heritage
490:X-ray diffraction
482:Meissen porcelain
339:class of fellows.
286:Alfred University
248:Faber-Evans model
198:
197:
133:Materials Science
120:Scientific career
79:Alfred University
64:Buffalo, New York
2123:
2035:
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1983:
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1927:
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1909:(4): Câ79-C-81.
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1189:on June 28, 2023
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434:oligocrystalline
282:Great Depression
246:, including the
189:Anthony G. Evans
184:Doctoral advisor
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962:, pp.s178-s185.
912:Acta Materialia
867:Acta Materialia
852:Acta Materialia
639:
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502:silicon carbide
406:
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219:. Faber is the
203:is an American
178:
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57:June 19, 1953
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1187:the original
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466:
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430:superelastic
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157:Institutions
119:
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2116:1953 births
1996:November 5,
1971:October 30,
1467:October 23,
1442:December 2,
1339:December 2,
1259:October 30,
1193:October 23,
1163:October 19,
1138:December 2,
1084:December 2,
574:Initiatives
449:gas turbine
432:effects in
361:(1984â1989)
2045:Categories
1220:: 100673.
1214:Materialia
1056:References
631:Toughening
551:morphology
510:porcelains
244:composites
221:Simon Ramo
53:1953-06-19
2031:646758339
1946:March 31,
1923:0002-7820
1884:0002-7820
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1806:0001-6160
1767:0001-6160
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1636:0002-7820
1572:0002-7820
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1377:953526292
1284:August 9,
1236:2589-1529
267:Biography
72:Education
1728:35446687
622:Fracture
607:See also
498:graphite
458:spalling
418:zirconia
404:Research
240:ceramics
143:Ceramics
1719:9170166
1688:Bibcode
1659:May 31,
1595:May 31,
1531:May 31,
804:Polymer
486:Böttger
426:sol-gel
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2017:ISBN
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1373:OCLC
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1232:ISSN
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512:and
399:Work
371:YWCA
257:NASA
242:and
43:Born
1911:doi
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