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Online since: July 2007
Authors: Manuel Gómez, S.F. Medina, J.I. Chaves
Gregorio
del Amo 8, Madrid, 28040, Spain.
2
University of Pittsburgh, Basic Metals Processing Research Institute (BAMPRI), Department of
Materials Science and Engineering, Pittsburgh, PA 15261 USA.
In order to verify the accuracy of the method of determination of the recrystallized fraction, to observe the advance/inhibition of recrystallization and to study the influence of interpass time on microstructure, precipitation state and pinning forces, five samples were water-quenched after applying a deformation step at 875 ºC and carrying out an isothermal holding period of 2, 7, 18, 70 and 700 s.
Forum Vol. 500-501 (2005) p. 147
Forum Vol. 500-501 (2005) p.131
Forum Vol. 480-481 (2005) p. 489
In order to verify the accuracy of the method of determination of the recrystallized fraction, to observe the advance/inhibition of recrystallization and to study the influence of interpass time on microstructure, precipitation state and pinning forces, five samples were water-quenched after applying a deformation step at 875 ºC and carrying out an isothermal holding period of 2, 7, 18, 70 and 700 s.
Forum Vol. 500-501 (2005) p. 147
Forum Vol. 500-501 (2005) p.131
Forum Vol. 480-481 (2005) p. 489
Online since: January 2007
Authors: Hayao Imamura, Hirotaka Fujimori, Yoshihisa Sakata, Asuka Kozu, Ki Young Kim, Kazunori Oshiro, Setsuo Yamamoto
Photocatalytic Performance of Barium-doped Strontium Tantalate
Asuka Kozu
1, Hirotaka Fujimori1, a
, Kiyoung Kim
1
, Kazunori Oshiro1
Setsuo Yamamoto1, b, Yoshihisa Sakata2, c
and Hayao Imamura2, d
1
Applied Medical Engineering Science, Graduate School of Medicine, Yamaguchi University,
2-16-1 Tokiwadai, Ube, Yamaguchi 755-8611 Japan
2
Department of Advanced Materials Science and Engineering, Faculty of Engineering, Yamaguchi
University, 2-16-1 Tokiwadai, Ube, Yamaguchi 755-8611 Japan
a
fujimori@yamaguchi-u.ac.jp, byamamoto@yamaguchi-u.ac.jp
c
yoshi-sa@yamaguchi-u.ac.jp, dhi-khm@yamaguchi-u.ac.jp
Keywords: photocatalyst, tantalate, perovskite
Abstract.
Forum, Vol. 321-324 (2000) p. 198
Forum, Vol. 321-324 (2000) p. 198
Online since: September 2013
Authors: Pavol Zubko, Miloš Matvija, Martin Fujda
Jönsson, Materials Science Forum 396-402 (2002) 399-404
Sha, et al., Materials Science and Engineering A 304-306 (2001) 612-616
Kuijpers, et al., Materials Science and Engineering A 394 (2005) 9-19
Banhart, Advanced Engineering Materials 12 (7) (2010) 559-571
Sha, et al., Materials Science and Engineering A 304-306 (2001) 612-616
Kuijpers, et al., Materials Science and Engineering A 394 (2005) 9-19
Banhart, Advanced Engineering Materials 12 (7) (2010) 559-571
Online since: October 2007
Authors: Christopher R. Hutchinson, Laure Bourgeois, Chad W. Sinclair, Julien da Costa Teixeira
Hutchinson1,d
1
ARC Centre of Excellence for Design in Light Metals, Department of Materials Engineering,
Monash University, Clayton, 3800, VIC, Australia
2
Monash Centre for Electron Microscopy, Monash University, Clayton, 3800, VIC, Australia
3
Department of Materials Engineering, University of British Columbia, Vancouver, BC, Canada
a
julien.teixeira@eng.monash.edu.au, blaure.bourgeois@eng.monash.edu.au,
cchad.sinclair@ubc.ca, dchristopher.hutchinson@eng.monash.edu.au
Keywords: work hardening, aluminum alloys, back stress, ageing.
Introduction In the design of precipitation strengthened aluminum alloys, for a wide range of engineering applications, there is a need to obtain microstructures exhibiting good combinations of both yield strength and uniform elongation.
JDC also gratefully acknowledges the award of a travel grant from the Australian Research Network for Advanced Materials (ARNAM) for the work performed at the University of British Columbia (UBC).
Forum Vol. 519-521 (2006) pp. 913-918
Introduction In the design of precipitation strengthened aluminum alloys, for a wide range of engineering applications, there is a need to obtain microstructures exhibiting good combinations of both yield strength and uniform elongation.
JDC also gratefully acknowledges the award of a travel grant from the Australian Research Network for Advanced Materials (ARNAM) for the work performed at the University of British Columbia (UBC).
Forum Vol. 519-521 (2006) pp. 913-918
Online since: June 2010
Authors: Yorinobu Takigawa, Tokuteru Uesugi, Kenji Higashi, Isao Matsui
Curtin: Materials Science and Engineering A 412 (2005) 316
Higashi: Materials Science Forum 561-565 (2007) 1375
Higashi: Advanced Materials Research 26-28 (2007) 691
Jiang: Materials Science and Engineering A 487 (2008) 410
Chokshi: Materials Science and Engineering A 503 (2009) 86.
Higashi: Materials Science Forum 561-565 (2007) 1375
Higashi: Advanced Materials Research 26-28 (2007) 691
Jiang: Materials Science and Engineering A 487 (2008) 410
Chokshi: Materials Science and Engineering A 503 (2009) 86.
Online since: October 2010
Authors: Xin Qi Yu, Pei Ying Peng, Jia Hui Yu, Hui Qin Gao
Numerical Analysis on Tribological Properties of
Mechanical Seals with a Laser-Textured Face
Xinqi Yu1,a, Peiying Peng1,b, Huiqin Gao1,c Jiahui Yu2,d
1School of Mechanical and Electronic Engineering, Hebei University of Science and Technology, Shijiazhuang 050018, PR China
2School of Foreign Language and Literature, Shandong University, Jinan 250100, PR China
ayxqyxq0016@163.com, bpengpeiy@163.com, cghq1105@126.com, djiahuiyu2008@163.com
Keywords: mechanical seals, laser-textured, micro-pore, friction torque, finite difference method
Abstract.
Lai: Lubrication Engineering Vol. 50(8)(1994), p. 625 [2] H.
Matsushima: Lubrication Engineering Vol. 40(9) (1984), p.533 [3] X.Q.
Wang: Materials Science Forum Vol. 532 (9)(2006), p. 463 [4] X.Q.
Gao: Advanced Materials Research Vols. 97-101(2010), p.4505 [5] P.R.
Lai: Lubrication Engineering Vol. 50(8)(1994), p. 625 [2] H.
Matsushima: Lubrication Engineering Vol. 40(9) (1984), p.533 [3] X.Q.
Wang: Materials Science Forum Vol. 532 (9)(2006), p. 463 [4] X.Q.
Gao: Advanced Materials Research Vols. 97-101(2010), p.4505 [5] P.R.
Online since: April 2012
Authors: S. Rex, V.P. Ginkin, D. Voss, A.V. Kartavykh, S. Ganina, Ulrike Hecht
Introduction
Ti-46Al-8Nb (at.%) intermetallic alloy developed within the pan-European IMPRESS project is both lightweight and creep resistant to high temperatures (~ 800oC), so being one of advanced materials for turbines of aircraft engines [1, 2].
Microstructure engineering of specimens inoculated with boron grain refiner.
Engineering A Vol. 413–414 (2005), p.583 [2] Information on http://ec.europa.eu/research/industrial_technologies/pdf/the-executive-summary-of-impress-project_en.pdf [3] D.
Forum Vol. 649 (2010), p.17 [7] I.
Forum Vol. 649 (2010), p. 223 [10] A.
Microstructure engineering of specimens inoculated with boron grain refiner.
Engineering A Vol. 413–414 (2005), p.583 [2] Information on http://ec.europa.eu/research/industrial_technologies/pdf/the-executive-summary-of-impress-project_en.pdf [3] D.
Forum Vol. 649 (2010), p.17 [7] I.
Forum Vol. 649 (2010), p. 223 [10] A.
Online since: December 2012
Authors: Sheng Fu Ji, Bao Jian Shen, Peng Hui Zeng, Yun Liang, Xiang Hai Meng
The effects of pore structure and acidic properties of catalysts on the catalytic cracking performance of Venezuelan heavy oil were carried out using an advanced cracking evaluation unit.
Reaction Equipment Catalytic cracking performances were tested at on an advanced cracking evaluation bench unit (ACE, Kayser Corp.).
Min: Advanced Materials Industry Forum, Vol. 1 (2001), p. 1 [4] Z.
Gao: Petroleum Refinery Engineering Vol. 39 (2009), p. 5 [15] X.H.
Zhang: Chemical Engineering and Processing Vol. 43 (2004), p. 965.
Reaction Equipment Catalytic cracking performances were tested at on an advanced cracking evaluation bench unit (ACE, Kayser Corp.).
Min: Advanced Materials Industry Forum, Vol. 1 (2001), p. 1 [4] Z.
Gao: Petroleum Refinery Engineering Vol. 39 (2009), p. 5 [15] X.H.
Zhang: Chemical Engineering and Processing Vol. 43 (2004), p. 965.
Online since: October 2014
Authors: Tao Yu, Chao Jun Fu, Xiao Mei Hu
Compared with the traditional design, green design follow the following principles: the optimum utilization of resources; the minimum consumption of energy; zero pollution; zero damage; advanced technology; the best ecological benefits[3].
However, it is complex system engineering and involves a very wide scope.
In China, Tsinghua University, Chongqing University, Jilin University and Tongji University offer the Automotive Engineering College and research the related topics of green manufacturing.
For example, Tsinghua University, Shanghai Jiao Tong University and Ford automobile are cooperating to carry out the research of reducing the cost of green parts project and the advanced stamping die technology.
He, Research status and development trend of green manufacturing, Chinese Mechanical Engineering, 2 (2000):105-109
However, it is complex system engineering and involves a very wide scope.
In China, Tsinghua University, Chongqing University, Jilin University and Tongji University offer the Automotive Engineering College and research the related topics of green manufacturing.
For example, Tsinghua University, Shanghai Jiao Tong University and Ford automobile are cooperating to carry out the research of reducing the cost of green parts project and the advanced stamping die technology.
He, Research status and development trend of green manufacturing, Chinese Mechanical Engineering, 2 (2000):105-109
Online since: September 2013
Authors: Hui Gon Chun, T.Y. Cho, Shi Hong Zhang, Jae Hong Yoon, Youn Kon Joo, Wei Fang
Chun4, f
1Institute of Industrial Technology, Changwon National University, Gyungnam, Korea
2School of Nano & Advanced Materials Engineering, Changwon Nat’l University, Gyungnam, Korea
3School of Materials Science & Engineering, Anhui University of Technology, Maan San, China
4School of Materials Science & Engineering, University of Ulsan, Ulsan, Korea
atycho@changwon.ac.kr, bykjoo@changwon.ac.kr, cjhyoon@changwon.ac.kr, dfangwei8311@hotmail.com, eshzhang@ahut.edu, fhgchun@ulsan.ac.kr
Keywords: HVOF, coating, hardness, porosity, surface.
Park, Journal of the Korean Institute of Surface Engineering, Vol. 39 (2006), p. 240
Chun, Shi-hong Zhang, Materials Science Forum Vol. 686 (2011), p. 654-660
Hwang, Journal of Advanced Materials Research, Vol. 26–28 (2007), p. 1325
Park, Journal of the Korean Institute of Surface Engineering, Vol. 39 (2006), p. 240
Chun, Shi-hong Zhang, Materials Science Forum Vol. 686 (2011), p. 654-660
Hwang, Journal of Advanced Materials Research, Vol. 26–28 (2007), p. 1325