MGI – the challenges and opportunities for CALPHAD NIST Diffusion Workshop May 9 and 10, 2013
JOM, Vol. 67, No. 12, 2015 DOI: 10.1007/s11837-015-1695-y ... · JO themagazine New Kaufman CALPHAD...
Transcript of JOM, Vol. 67, No. 12, 2015 DOI: 10.1007/s11837-015-1695-y ... · JO themagazine New Kaufman CALPHAD...
JOthemagazine
New Kaufman CALPHAD Scholarship; TMS Talks STEM with Congressional StaffKaitlin McMahon
Turn to this regular JOM feature for information on new TMS initiatives, updates, and overviews of TMS events and activities, and news from the fi eld that impacts TMS and its members. To submit news items for consideration, contact Lynne Robinson, JOM Contributing Editor, at [email protected].
new and noteworthy at TMS
Lawrence “Larry” Kaufman
Applications are now being accepted for the TMS Foundation’s newest scholarship opportunity, the Kaufman CALPHAD Scholarship. This award recognizes the contributions of the late Lawrence “Larry” Kaufman to computational thermodynamics and its applications. The scholarship was established in 2014 through an endowment from CALPHAD Inc. and the efforts of TMS member Zi-Kui Liu. Liu is CALPHAD Inc. president, CALPHAD journal editor in chief, and professor of materials science and engineering at The Pennsylvania State University. The Kaufman CALPHAD Scholarship is open to all full-time sophomore or junior undergraduate student members of Material Advantage who are majoring in metallurgy or materials science and
university. Relevance of the applicant’s coursework will be considered when determining an award recipient. Applicants must submit a personal statement that describes any accomplishments, community involvement, or other relevant activities outside of school, as well as career plans
Kaufman CALPHAD Scholarship will be awarded at the TMS 2017 Annual Meeting & Exhibition in San Diego, California. The scholar will receive $1,000 and an additional $500 travel stipend to attend the annual meeting. Kaufman is considered by many to be the father of computational thermodynamics
and the CALPHAD (CALculation of PHase Diagrams) technique, according to Liu.
said. “His vision and dedication enabled
of integrated computational materials engineering (ICME) and the Materials Genome Initiative (MGI).” Kaufman was dedicated to bringing computer coupling of phase diagrams and thermochemistry to the mainstream
the ranks at ManLabs Inc. in Cambridge, Massachusetts—going from a research scientist in 1958 to president in 1985—he continued working on phase equilibria, often in collaboration with William
alloy phases and supporter of Kaufman’s ideas. Eventually those ideas gained broad recognition after a session on the calculation of phase diagrams as a part of a National Science Foundation Phase Equilibria Workshop in 1975. Kaufman founded CALPHAD Inc. in the same year to promote the CALPHAD technique. In 1977, the international research journal, CALPHAD, was established and Kaufman served as the inaugural editor in chief. Kaufman earned his Sc.D. from the Massachusetts Institute of Technology in 1955 and joined TMS one year later, when the society was still a branch of the American Institute of Mining, Metallurgical, and Petroleum Engineers (AIME). As an active TMS member for more than
New Kaufman CALPHAD Scholarship Opens for Applications
JOM, Vol. 67, No. 12, 2015
DOI: 10.1007/s11837-015-1695-yÓ 2015 The Minerals, Metals & Materials Society
2762
New Kaufman CALPHAD Scholarship; TMS Talks STEM with Congressional Staff 2763
50 years, Kaufman was also a member of TMS’s Legion of Honor. In 2002, Kaufman was honored with the William Hume-Rothery Award, a TMS pinnacle award, and presented the lecture “Calphad Thermodynamics” at the 2002 TMS Annual Meeting & Exhibition’s William Hume-Rothery Memorial Symposium. Applicants for the Kaufman CALPHAD Scholarship must submit a completed TMS scholarship application, up to three recommendations, a personal statement, and a transcript with current GPA to Bryn Simpson, TMS Member Services Specialist, at [email protected]. The deadline for applications is March 15, 2016. Submission
forms and additional information can be found at www.tms.org/Students /Scholarships.aspx. The TMS Foundation also welcomes donations to support the scholarship. To contribute, visit www.TMSFoundation.org /Contribute and note “Kaufman CALPHAD Scholarship Fund” in the special instructions. Donors can also send a check made payable to the TMS Foundation, with the same note as the memo. Checks should be mailed to the TMS Foundation, 184 Thorn Hill Road, Warrendale, PA 15086. For information contact Mary Samsa, TMS Foundation & Public Affairs Manager, at [email protected].
Iver Anderson, U.S. Department of Energy Ames Laboratory and Iowa State University, U.S. Rep. Keith Rothfus (PA-12), Ernest Levert, Lockheed Martin
Corporation, and Suveen Mathaudhu, University of California, Riverside, participated in the September Materials Information Luncheon in
Washington, D.C., hosted by TMS.
TMS Discusses STEM Workforce Issues with Congressional Staff TMS addressed the issue of forging a more diverse and better equipped science, technology, engineering, and math (STEM) workforce with more than 40 staff members from U.S. Senate and House
Information Luncheon: Building the STEM Workforce for a Robust Economy on September 16. The event, held at the U.S. Capitol in Washington D.C., featured introductory comments from U.S. Rep. Keith Rothfus (PA-12), a member of the bipartisan STEM Education Caucus, and was moderated by Iver Anderson, TMS member, senior metallurgist, Ames Laboratory, and adjunct professor, Iowa State University. “I’m grateful to TMS and other organizations that encourage our young people to seriously consider pursuing STEM education and careers and to stick to their goals,” Rothfus said. “If our country is going to continue to be an innovation leader, we need all the help we can get from people who are passionate about getting our future workforce engaged and trained.” The luncheon featured presentations by Ernest Levert, Lockheed Martin Corporation, and Suveen Mathaudhu, University of California, Riverside. Both have extensive experience in working to inform and inspire the next generation about opportunities in science and engineering.
Mathaudhu, a TMS member, is an assistant professor at the University of California, Riverside and an expert on the science of superheroes as depicted in comic books and movies. He is the 2015 recipient of the American Association for Engineering Societies’ Norm Augustine Award for Outstanding Achievement in Engineering Communications. He was recognized for his efforts in using pop culture and other nontraditional means to generate excitement about STEM. Mathaudhu was also the volunteer curator for TMS’s Comic-tanium™: The Super
2764 McMahon
Materials of the Superheroes exhibit, which was also discussed as part of the luncheon. Levert, Lockheed Martin Fellow, has likewise received multiple awards, including the Lockheed Martin NOVA Award for Outstanding Leadership and the 2015 Black Engineer of the Year Award. “Our TMS Materials Information
Materials Information Luncheon attendees listen
to U.S. Congressman Keith Rothfus’s (PA-12)
introductory remarks on encouraging and supporting
the next generation of STEM-trained workers.
Luncheon clearly communicated that STEM education is vital to U.S. innovation and competitiveness, especially for refreshing and reinforcing our aging workforce in current and emerging high tech jobs,” said Anderson, a member of the TMS Public and Governmental Affairs Committee. “We also made the case that it is critical for our new STEM-trained innovators to include many more women and underrepresented minorities, pulling these new engineers, skilled technologists, and scientists from our full population pool into successful careers.” The Materials Information Luncheon is one of many ways that TMS works to promote good science and engineering in government policy. For more information on TMS’s government outreach initiatives, visit http://www.tms.org/PGA/PGAHome .aspx.
AAES Releases Engineering Competency Model
The AAES Engineering Competency Model demonstrates the key competencies required for the engineering profession. Photo courtesy of U.S. Department of Labor Employment & Training Administration – used with permission.
The Engineering Competency Model, released by the American Association of Engineering Societies (AAES) in July, was created as a guideline for developing the engineering workforce. Funded by
a United Engineering Foundation grant, the AAES Lifelong Learning Working Group partnered with the U.S. Department of Labor’s Employment and Training Administration (ETA) to prepare this free public resource. The American Institute of Mining, Metallurgical, and Petroleum Engineers (AIME), of which TMS is a member society, is a member of AAES. Jeffrey Fergus, TMS Professional Development Director and professor and associate dean at Auburn University, was one of ten subject matter experts who collaborated with the ETA, providing
The model is intended to help educators, employers, human resources professionals, engineering professionals, and current and future engineers understand the skills that are necessary for succeeding in the workplace. It is also meant to be a living template—engineering organizations are encouraged to not only adopt the model, but also to build on it by adding more
Engineering Competency Model has the potential to unite the profession on the fundamental requirements that engineers will need to solve the global challenges we are facing,” said Jerry Carter, chief
Examiners for Engineering and Surveying
New Kaufman CALPHAD Scholarship; TMS Talks STEM with Congressional Staff 2765
(NCEES) and co-chair of the Lifelong Learning Working Group. The model was constructed as a tiered pyramid, creating a system that splits into three sections: foundational, industry-
three tiers are foundational, showing personal, academic, and workplace skills that are common to the profession. Tiers
both industrywide skills and industry-
is occupation-related, and is divided into two sides: management competencies and requirements for a particular position within the engineering profession. An interactive version of the model is available online through the Department of Labor’s Competency Model Clearinghouse website. Visit www.careeronestop.org/CompetencyModel/competency-models/engineering.aspx for more information.
TMS Welcomes New MembersPlease join TMS in congratulating the following new members, approved by the TMS Board of Directors at its October 2015 meeting:Abadi, Arash; Weber Metals Incorporated,
USAAeby-Gautier, Elizabeth M.; CNRS
Institute Jean Lamour, FranceAkhonin, Sergii; Paton Electric Welding
Institute, UkraineAlexandrov, Andrey; Interstate Association
“Titan,” RussiaAndrieu, Sandra; Messier-Bugatti-Dowty
(Safran), FranceAntti, Marta-Lena; Lulea University of
Technology, SwedenAppolaire, Benoit; Onera, FranceBayha, Thomas D.; ATI Specialty
Materials, USABeres, Miloslav; Federal University of
Ceara, BrazilBethancourt, Rachel; Cherry Aerospace A
PCC Company, USABorgstrom, Marcus M.; Pace Analytical
Services, USABorowski, Robert; DePuy Synthes, USA Britton, T. Ben; Imperial College London,
Great BritainBrown, Alex; Elmet Technologies, USACappelletti, Amleto; Cap.Co. SRL, ItalyCarsten, Siemers; Technische Universität
Braunschweig, GermanyCastany, Philippe; INSA-Rennes, FranceCavinato, Thierry; USAChan, Ellen H.; Stryker Orthopedics, USAChang, Hui; Nanjing University of
Technology, ChinaChatterjee, Amit; Rolls-Royce, USAChen, Jhewn-Kuang; National Taipei
University of Technology, TaiwanChen, Wei; Xi’an Jiaotong University,
China
Chong, Yan; Kyoto University, JapanChou, Peter; Electric Power Research
Institute, USAChun, Wang Ding; Baoji Titanium Industry
Company Ltd., ChinaChung, Deborah D.L.; State University of
New York at Buffalo, USADavies, Peter D.; Swansea University,
United KingdomDecaillet, Christian; TiRus International SA,
SwitzerlandDehmas, Moukrane; Université de Lorraine,
FranceDelaunay, Christophe; Cefi val SA, FranceDelfosse, Jerome; Airbus Group, FranceDemakov, Sergey; Ural Federal University,
RussiaDesrayaud, Christophe; École Nationale
Supérieure des Mines de Saint-Étienne, France
Devanathan, Ram; Pacifi c Northwest National Laboratory, USA
Devaraj, Arun; Pacifi c Northwest National Laboratory, USA
Ding, Xiaoming; ChinaDing, Yong Feng; Western Superconducting
Technologies Company Ltd., ChinaDo, Chri; USADoquet, Veronique; The National Center for
Scientifi c Research, FranceDraper, Susan L.; National Aeronautics and
Space Administration, USADu Preez, Wilhelm B.; Central University of
Technology, Free State, South AfricaDulikravich, George S.; Florida International
University, USADuxson, Peter; Coogee Chemicals Perth,
Australia
Eisinger, Nate Perryman; USAEscaffre, Jessica; Aubert & Duval and
Eramet, FranceEsser, David; ALD Vacuum Technologies,
USAFadick, Alexander J.; VSMPO-Tirus US,
USAFanning, John C.; Timet, USAFaure, Laurent L.F.; European Network
for Information Society Research (ENIR), France
Forestier, Romain; Aubert & Duval, France
Franck, Gallerneau; Onera, FranceFuhr, Jochen P.; Curtiss-Wright/Metal
Improvement Company, GermanyFukada, Nobuo; Toho Titanium Company
Ltd., JapanFunagane, Hitoshi; Nippon Steel &
Sumitomo Metal Corporation, JapanGeng, Lin; Harbin Institute of Technology,
ChinaGepreel, Mohamed Abdel-Hady; Egypt-
Japan University of Science and Technology, Egypt
Gey, Nathali; LEM3, UL-CNRS, FranceGodet, Stephane; Université libre de
Bruxelles, BelgiumGorka, Keith; Retech Systems LLC, USAGrauman, James S.; Timet, USAGrice, Dan; Materials Evaluation and
Engineering Inc., USAGrobelny, Marcin; Motor Transport
Institute, PolandGrohman, Henry L.; Intel Corporation,
USAHabel, Ulrike; MTU Aero Engines AG,
Germany
2766 McMahon
Halchak, John A.; USAHanson, Annie; University of Akron, USAHao, Fang; Western Superconducting
Technologies, ChinaHarcuba, Petr; Charles University in
Prague, Czech RepublicHayakawa, Masashi; Toho Titanium
Company Ltd., JapanHeinz, Hendrik; University of Akron, USAHelmecke, Patrick; Leibniz Universität
Hannover, GermanyHemery, Samuel; Institut Pprime—
ENSMA, FranceHeutling, Falko; MTU Aero Engines AG,
GermanyHieda, Koji; Osaka Titanium Technologies
Company Ltd., JapanHodges, Andrew J.; Weber Metals Inc.,
USAHong, Jae-Keun; Korea Institute of
Materials Science, South KoreaHosoda, Hideki; Tokyo Institute of
Technology, JapanHoy, Daniel; Lake Shore Cryotronics, USAHua, Zhengli; Western Superconducting
Technologies, ChinaHuez, Julitte; Institut Carnot CIRIMAT,
FranceHui, Song Xiao; General Research
Institute for Nonferrous Metals, ChinaHyun, Yong-Taek; Korea Institute of
Materials Science, South KoreaIdhil, Ismail Andi; Institut Jean Lamour
UMR CNRS, FranceIida, Takahiro; Osaka Titanium
Technologies Co., Ltd., JapanIllmaier, Christian; Bohler Forging, AustriaInagaki, Ikuhiro; Nippon Steel & Sumitomo
Metal Corporation, JapanInamura, Tomonari; Tokyo Institute of
Technology, JapanIto, Yoshinori; Kobe Steel Ltd., JapanItsumi, Yoshio; Kobe Steel Ltd., JapanIvasishin, Orest M., Interstate Association
“Titan,” UkraineJaberina, Jonathan Earl C.; University of
Hawaii at Manoa, USAJackson, Martin; University of Sheffi eld,
United KingdomJames, Hannah; Stryker Orthopedics,
USAJewell, Daniel; Coogee Chemicals,
AustraliaJianrong, Liu; Institute of Metal Research,
China
Jin, Ke-Wei; Stryker Orthopedics, USAJun, Tea-Sung; Imperial College, United
KingdomJung, Jae Young; RIST Research Institute of
Industrial Science, South KoreaKalisz, Malgorzata; Motor Transport Institute,
PolandKamio, Hiroshi; Nippon Steel & Sumitomo
Metal Corporation, JapanKang, Chungyun; Pusan National University,
South KoreaKanou, Osamu; Toho Titanium Company
Ltd., JapanKeist, Jayme S.; Pennsylvania State
University, USAKikuchi, Shoichi; Kobe University, JapanKim, Hwi-Jun; Korea Institute of Industrial
Technology, South KoreaKim, Youngmoo; Agency for Defense
Development, South KoreaKitaura, Tomoyuki; Nippon Steel &
Sumitomo Metal Corporation, JapanKnecht, Joseph A.; VSMPO-Tirus US, USAKobayashi, Sengo; Ehime University, JapanKohls, Paul T.; The Boeing Company, USAKoopman, Mark; University of Utah, USAKou, Hongchao; Northwestern Polytechnical
University, ChinaKozar, Robert W.; Bechtel Marine
Propulsion, USAKrjenitski, Igor; Grandis Titanium, USAKropotov, Vladimir; VSMPO-AVISMA
Corporation, RussiaKudriavtcev, Anatolii S.; FSUE CRISM
“Prometey,” RussiaKuroda, Atsuhiko; Nippon Steel & Sumitomo
Metal Corporation, JapanKuroda, Kensuke; Nagoya University, JapanKyzlasov, Artemiy; “Titanium Valley SEZ”
OJSC, RussiaLaheurte, Pascal; Université de Lorraine,
FranceLe Fournier, Marion; Aurock, FranceLeder, Mikhail; VSMPO-AVISMA
Corporation, RussiaLee, Sang-Mae; Pusan National University,
South KoreaLee, Sung Ho; Agency for Defense
Development, South Korea Lee, Yong-tai; Korea Institute of Machinery &
Materials, South KoreaLenain, Astrid; BelgiumLeonov, Valerii; FSUE CRISM “Prometey,”
RussiaLeTarte, Paul; Ford Motor Company, USA
Leuders, Stefan; University of Paderborn, Germany
Li, Bernard Q.; Medtronic, USALi, Hong; Northwestern Polytechnical
University, ChinaLi, Jinshan; Northwestern Polytechnical
University, ChinaLiu, Hui Hong; Tohoku University,
JapanLu, Weijie; Shanghai Jiao Tong
University, ChinaMainguy, Ronan; Centre
Interuniversitaire de Recherche et d’Ingénierie des Matériaux, France
Manach, Laurent; French Titanium Association, France
Mantione, John V.; International Titanium Association, USA
Marshall, Luke A.; University of Sheffi eld, United Kingdom
Martin, Nigel; Rolls-Royce, Great Britain
Massion, Roxane; LEM3, CNRS, France
Matsumoto, Hiroaki; Kagawa University, Japan
Medved, Jurij; Akrapovi d.d., SloveniaMellor, Ian M.; Meyalysis Ltd., United
KingdomMertens, Anne Isabelle; University of
Liege, BelgiumMi, Guang Bao; ChinaMi, Xujun; General Research Institute
for Nonferrous Metals, ChinaMikhailov, Vladimir I.; FSUE CRISM
“Prometey,” RussiaMikuz, Ales; Akrapovi d.d.; SloveniaMillet, Yvon; Timet Savoie, FranceMin, Xiaohua; Dalian University of
Technology, ChinaMori, Kenichi; Nippon Steel &
Sumitomo Metal Corporation, Japan
Morin, Guy; Centre de Métallurgie du Québec, Canada
Motyka, Maciej; Rzeszów University of Technology, Poland
Naidu, Vasant; Sethu Institute of Technology, India
Nakamura, Yuki; National Institute of Technology, Japan
Nakano, Takayoshi; Osaka University, Japan
Nishikiori, Sadao; IHI Corporation, Japan
New Kaufman CALPHAD Scholarship; TMS Talks STEM with Congressional Staff 2767
Nishiyama, Shinya; Nippon Steel & Sumitomo Metal Corporation, Japan
Noirault, Samuel; Université de Nantes (Subatech), France
Nowotnik, Andrzej; Rzeszów University of Technology, Poland
Obidi, Olayide F.; University of Lagos, Nigeria
Oryshchenko, Aleksei S.; FSUE CRISM “Prometey,” Russia
Ota, Mie; Ritsumeikan University, JapanOyama, Hideto; Kobe Steel Ltd., JapanPark, Seong Jin; Pohang University of
Science and Technology, South KoreaPatrick, Brian; USAPederson, Robert; GKN Aerospace
Engine Systems, SwedenPeltier, Laurent N.; École Nationale
Supérieure d’Arts et Métiers, FrancePhilippon, Sylvain; École Nationale
d’Ingenieurs de Metz, FrancePiellard, Mickael; Safran SA, FrancePiolle, Nicolas; ACB, FrancePoletti, Maria C.; Graz University of
Technology, AustriaPoorganji, Behrang; Eaton Corporation,
USAPowell, Gabriel S.; Special Metals, USAPrikhodko, Sergey; University of
California, Los Angeles, USAPrima, Frederic; Chimie ParisTech,
FrancePuzakov, Igor; VSMPO-AVISMA
Corporation, RussiaRahbary, Mohammad S.; Metalliage
Incorporated, CanadaRazavi, Kayhan; Metalliage Incorporated,
CanadaRobinson, Cody R.; Stress Engineering
Services Incorporated, USARodimkina, Vera; Pratt & Whitney –
United Technologies, USARosenberger, Andrew T.; DePuy Synthes,
USARoth-Fagaraseanu, Dan; Rolls-Royce
Deutschland, GermanyRugg, David; Rolls-Royce PLC, United
KingdomSalas, Daniel; Bell Helicopter, USASchmidt, James; Advanced Cooling
Technology, USASchuster, Brian E.; U.S. Army Research
Laboratory, USASchutz, Ronald W.; Alcoa Titanium &
Engineered Products; USA
Universiteit Leuven, BelgiumVittayakorn, Naratip; King Mongkut’s
Institute of Technology Ladkrabang, Thailand
Volkov, Anatoly; VSMPO-AVISMA Corporation, Russia
Von Thungen, Immanuel; Safran Technology Center, France
Wagner, Casey; Alcoa, USAWang, Jianguo; Western Superconducting
Technology, ChinaWang, Le-Min; Chung Cheng Institute of
Technology, TaiwanWarchomicka, Fernando G.; Graz
University of Technology, AustriaWard, Robin Mark; University of
Birmingham, United KingdomWeiss, Laurent; LEM3, Université de
Lorraine, FranceWhittaker, Richard; Rolls-Royce PLC,
United KingdomWhittaker-Brooks, Luisa; University of
Utah, USAWilde, Joseph; Raytheon, USAWilliams, Robert E.; Ohio State University,
USAWincorporatede, Jaton N.; Scienalysis,
USAWollman, Manfred; Clausthal University of
Technology, GermanyWynne, Bradley P.; University of Sheffi eld,
Great BritainXiang, Wang Xiao; Baoji Titanium Industry
Company Ltd., ChinaXiong, Liu Ji; Baoji Titanium Industry
Company Ltd., ChinaXu, Lin; Lam Research, USAYamabe-Mitarai, Yoko; National Institute for
Materials Science, JapanYang, Shan; Clausthal University of
Technology, GermanyYao, Zekun; Northwestern Polytechnical
University, ChinaYe, Wenjun; General Research Institute for
Nonferrous Metals, ChinaYilmazer, Hakan; Tohoku University, JapanYoung, Chae Kee; Korea Sintered Metal
Company Ltd., South KoreaZhang, Jing; Indiana University—Purdue
University, USAZhao, Hanyue; Hatch, CanadaZhao, Zhanglong; Northwestern
Polytechnical University, ChinaZiaja, Waldemar; Rzeszów University of
Technology, Poland
Sekimoto, Hidehiro; Iwate University, JapanSemenova, Irina F.; Ufa State Aviation
Technical University, RussiaSeok, Se-Hoon; Korea Sintered Metal
Company Ltd., Republic of KoreaSharp, William A.; GE Aviation, USASieniawski, Jan; Rzeszów University of
Technology, PolandSikirica, Stephen J.; U.S. Department of
Energy, USASim, Gi-Dong; USASingh, Gaurav; University of Manchester,
United KingdomSmith, David A.; United Launch Alliance,
USASohn, Hosang; Kyungpook National
University, South Korea Solas, Denis; Université Paris-Sud, FranceSong, Xueyan; West Virginia University,
USASoula, Aurelie; Safran, FranceSteigerwald, Andrew; USASumi, Yoshinori; Daido Steel Company
Ltd., JapanSun, Jian; Shanghai Jiaotong University,
ChinaSun, Qiaoyan; Xi’an Jiaotong University,
ChinaSun, Xiaoping; Western Superconducting
Technology, ChinaSuzuki, Toshio; Showa Metal, JapanTaban, Kaveh; Metalliage Incorporated,
CanadaTahara, Masaki; Tokyo Institute of
Technology, JapanTakebe, Hidenori; Nippon Steel &
Sumitomo Metal Corporation, JapanTan, Phillip; TSI Incorporated, USATeixeira, Julien; Institut Jean Lamour,
FranceTetsuya, Sakamoto; Nippon Steel &
Sumitomo Metal Corporation, JapanThierry, Millot; DCNS, FranceThomas, Matthew J.; Timet, Great BritainTisu, Robert; Akrapovi d.d., SloveniaTmura, Keitaro; Kobe Steel Ltd., JapanTobe, Hirobumi; ISAS/JAXA, JapanTrenary, Michael; University of Illinois at
Chicago, USATsutsumi, Yusuke; Tokyo Medical and
Dental University, JapanUeda, Masato; Kansai University, JapanUesugi, Tokuyeru; Osaka Prefecture
University, JapanVan Humbeeck, Jan; Katholieke