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Online since: March 2010
Authors: A.J. Barnes, Hari Raman
The traditional
view of SPF as being unsuitable for high volume production has changed, somewhat due to the
successful application of the process via automated adaptations such as Quick Plastic Forming
(QPF) and Ford Advanced Superplastic-Forming Technology (FAST) in the automotive industry [2,
3].
Forum Vol. 551-552 (2007), p. 3 [3] P.A.
Cattanach in: Proceedings of the Second Conference on Materials Engineering, edited by A.N.
Forum Vol. 551-552 (2007), p. 3 [3] P.A.
Cattanach in: Proceedings of the Second Conference on Materials Engineering, edited by A.N.
Online since: August 2016
Authors: Júlio César Gomes Santos, Daniele Cristina Chagas, Jéssica Fernanda Azevedo, Ana Claudia Costa Oliveira, Viviane Teleginski, Getúlio de Vasconcelos
Parameters Evaluation of Bond-Coat Deposited by CO2 Laser Beam for Aeronautical Turbine Blades
Viviane Teleginski 1,2,a, Júlio César Gomes Santos 2,b,
Daniele Cristina Chagas 1,2,c, Jéssica Fernanda Azevedo 2,d,
Ana Claudia Costa Oliveira3,e, Getúlio de Vasconcelos 1,2,f
1 Aeronautical Institute of Technology – ITA-DCTA, Praça Marechal-do-Ar Eduardo Gomes,
n 50 - Vila das Acácias, São José dos Campos – SP, Brazil, 12228-900
2 Institute for Advanced Studies – IEAv-DCTA, Trevo Coronel Aviador José Alberto Albano do Amarante, n 1 – Putim, São José dos Campos – SP, Brazil, 12228-001
3 University Center of FEI , Av.
Carter: Engineering Failure Analysis Vol. 12 (2005), p. 237
Vasconcelos, Interface evaluation of MCrAlY powder bond coat on 316 SS processed with laser irradiation, Materials Science Forum, Ninth International Latin American Conference on Powder Technology, 2013, Article in press.
Carter: Engineering Failure Analysis Vol. 12 (2005), p. 237
Vasconcelos, Interface evaluation of MCrAlY powder bond coat on 316 SS processed with laser irradiation, Materials Science Forum, Ninth International Latin American Conference on Powder Technology, 2013, Article in press.
Online since: June 2019
Authors: Ralf Goller, Achim Rösiger, Yäsin Azzaz
.: Innovative High- Performance Ceramics – Challenge for the Life Cycle Engineering of Turbomachinery, Procedia CIRP 29, 2015, pp. 323-328
[3] Rösiger A.; Goller R.: Damage evaluation of CMCs after drilling with geometrically defined cutting edges, Materials Science Forum Vols. 825- 826 (2015), pp. 271-278
Rösiger, Damage of Ceramic Matrix Composites (CMCs) During Machining Operations: Ceramic Transactions, Advanced and Refractory Ceramics for Energy Conservation and Efficiency (08/2016), pp.1-10
[3] Rösiger A.; Goller R.: Damage evaluation of CMCs after drilling with geometrically defined cutting edges, Materials Science Forum Vols. 825- 826 (2015), pp. 271-278
Rösiger, Damage of Ceramic Matrix Composites (CMCs) During Machining Operations: Ceramic Transactions, Advanced and Refractory Ceramics for Energy Conservation and Efficiency (08/2016), pp.1-10
Online since: January 2005
Authors: Cheng Jia Shang, Xin Lai He, Shan Wu Yang, Y.T. Zhao, L.J. Hu, Xue Min Wang
He
School of Material Science and Engineering, University of Science and Technology Beijing, CHINA
cjshang@mater.ustb.edu.cn
Key words: Multi-phase, low carbon microalloying steel, bainite, acicular ferrite
Abstract.
Conf. on Advanced Structural Steels, Shanghai, April 14-16, [5] C.
Wang, et al.: Materials Science Forum, 426-432(2003), p.1439 [6] C.J.
Conf. on Advanced Structural Steels, Shanghai, April 14-16, [5] C.
Wang, et al.: Materials Science Forum, 426-432(2003), p.1439 [6] C.J.
Online since: October 2007
Authors: Tatsuo Sato, Fumishige Nakamura, Shoichi Hirosawa
Mechanical Engineering and Materials Science, Yokohama National
University, 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, JAPAN and 3National Institute of
Advanced Industrial Science and Technology, 1-1-1 Umezono, Tsukuba 305-8563, JAPAN ]
a
hirosawa@ynu.ac.jp, bfumishige-nakamura@aist.go.jp, csato@mtl.titech.ac.jp
Keywords: age-hardenable aluminum alloy, precipitation phenomenon, nanocluster, vacancy
trapping, KKR-Green function method, interaction energy map
Abstract.
Forum Vol.519-521 (2006), p.215 [5] T.
Forum Vol.519-521 (2006), p.215 [5] T.
Online since: July 2006
Authors: Dun Wen Zuo, De Jun Kong, Su Min Yin, Yong Kang Zhang, Jian Zhong Zhou, Ai Xin Feng, H.K. Xie, Chao Jun Yang, Jin Zhon Lu
Lu
1
1School of Mechanical Engineering, Jiangsu University, Zhenjiang, 212013, China
2Nanjing University of Aeronautics & Astronautics, Nanjing, 210016, China
3Chengdu Tool Research Institute, Chengdu, 610056, China
aaixfeng@ujs.edu.cn,
bdzuo@jlonline.com,
cxie@chinatool.net
Keywords: Residual stress, X-ray diffraction, Testing, Laser shock forming
Abstract.
Guillen: Materials Science Forum, Vol.404-407 (2002), pp.573-578
Alfred: Zeits Chrift Fuer Metallkunde/Materials Research and Advanced Techniques, Vol.94 (2003) No.8, pp.934-937
Guillen: Materials Science Forum, Vol.404-407 (2002), pp.573-578
Alfred: Zeits Chrift Fuer Metallkunde/Materials Research and Advanced Techniques, Vol.94 (2003) No.8, pp.934-937
Online since: January 2014
Authors: Hao Lei Mou, Jian Ren, Long Xiang Lin, Tian Chun Zou
Reliability Analysis of the Structural Laminated Veneer Lumber [J], Materials Science Forum. 2009, 620-622: 157-160
Analysis of the Strength and Reliability of Hydraulic Support with Finite Element Method [J], Advanced Materials Research. 2012, 619: 225-230
Reliability Analysis of Structure System Considering Failure Modes of Strength, Fatigue and Buckling [J], Key Engineering Materials. 2008, 385-387: 257-260
Analysis of the Strength and Reliability of Hydraulic Support with Finite Element Method [J], Advanced Materials Research. 2012, 619: 225-230
Reliability Analysis of Structure System Considering Failure Modes of Strength, Fatigue and Buckling [J], Key Engineering Materials. 2008, 385-387: 257-260
Online since: October 2006
Authors: Byoung Soo Lee, Dae Heon Joo, Hoon Cho, Hyung Ho Jo, Myung Ho Kim
Aging behavior of Al-Cu alloys produced by melt extrusion process
Byoung-Soo Lee1,a, Dae-Heon Joo2,b, Hoon Cho
1,c, Hyung-Ho Jo1,d and
Myung-Ho Kim
3,e
1
Nano-materials team, Advanced Materials Center, Korea Institute of Industrial Technology, 994-32
Dongchun-Dong, Yeonsu-Ku, Incheon, 406-130, South Korea
2
Dong Yang Piston Co., LTD, 1050, Singil-Dong, Donwon-Gu, Ansan, Kyungki-Do, South Korea
3
School of materials science and engineering, Inha University, #253 Yonghyun-Dong, Nam-Gu,
Incheon, 402- 751, South Korea
a
leebs98@empal.com, bjoodh@bcline.com, choony67@kitech.re.kr, djohh@kitech.re.kr,
e
mhkim@inha.ac.kr
Keywords: semisolid materials; melt extrusion; Al-Cu alloys; segregation.
Kim: Materials Science Forum Vol. 510-511 (2005) [12] I,J.
Kim: Materials Science Forum Vol. 510-511 (2005) [12] I,J.
Online since: July 2013
Authors: Navid Goudarzi, Wei Dong Zhu
However, more advanced power electronics and a precise generator torque balance are required.
[2] “Advanced Wind Turbine Drivetrain Concepts,” U.S.
[6] “WindPACT Advanced Wind Turbine Drivetrain Designs Northern Power Systems, Inc.,” Wind Partnerships for Advanced Component Technology, 2000
[18] Dvorak, P., “Breaking the 9-MW Barrier”,Wind Power Engineering Journal, p.36, 2010
Petch, "Clipper Liberty Series: Advanced Low Wind Speed Technology," California Wind Energy Collaborative Forum, Davis, CA, USA, 2005
[2] “Advanced Wind Turbine Drivetrain Concepts,” U.S.
[6] “WindPACT Advanced Wind Turbine Drivetrain Designs Northern Power Systems, Inc.,” Wind Partnerships for Advanced Component Technology, 2000
[18] Dvorak, P., “Breaking the 9-MW Barrier”,Wind Power Engineering Journal, p.36, 2010
Petch, "Clipper Liberty Series: Advanced Low Wind Speed Technology," California Wind Energy Collaborative Forum, Davis, CA, USA, 2005
Online since: December 2014
Authors: Quan Zhou, Hao Zhang, Sen Zhang
Effects of compound treatment of pulsed magnetic field and mechanical vibration on solidified structure of Mg97Y2Cu1 alloy
Hao Zhang1,a, Quan Zhou1, b and Sen Zhang1,c
1 School of Aeronautical Manufacturing Engineering, Nanchang Hangkong University, Nanchang 330063, China
a1248660274@qq.com, blgclzq@sina.com, c1012601283@qq.com
Keywords: Compound treatment, Pulsed magnetic field, Mechanical vibration, Mg97Y2Cu1 alloy, Solidified structure, Long-period ordered structure
Abstract: The influences of different pulse voltage, pulse frequency, pouring temperature and mold temperature on solidified structure of Mg97Y2Cu1 alloy reinforced by long-period ordered structure with compound treatment of pulsed magnetic field and mechanical vibration were studied.
References [1] L.B.Mordike and T.Ebert: Materials Science and Engineering Vol. 302(2001), p. 37-45 [2] S.Schumann: Materials Science Forum Vol. 488(2005), p.1-8 [3] X.F.Tian, Z.T.Fan and N.Y.Huang: The Chinese Journal Nonferrous Metals.
Vol.16(2006), p.1838-1844(In Chinese) [4] Y.J.Xu, Y.Q.Su and L.S.Luo: Rare Metal Material and Engineering.
Vol.45(2004),p.1994-1998 [9] X.H.Xie, L.P.Chen, C.B.Xiao and X.Tang: Advanced Materials Research Vol. 842(2014), p.332-336 [10] X.H.Xie, L.P.Chen, C.B.Xiao and X.Tang: Advanced Materials Research Vol. 821 (2013), p.877-882 [11] B.Wang, Y.S.Yang and M.L.Sun: Trans.
References [1] L.B.Mordike and T.Ebert: Materials Science and Engineering Vol. 302(2001), p. 37-45 [2] S.Schumann: Materials Science Forum Vol. 488(2005), p.1-8 [3] X.F.Tian, Z.T.Fan and N.Y.Huang: The Chinese Journal Nonferrous Metals.
Vol.16(2006), p.1838-1844(In Chinese) [4] Y.J.Xu, Y.Q.Su and L.S.Luo: Rare Metal Material and Engineering.
Vol.45(2004),p.1994-1998 [9] X.H.Xie, L.P.Chen, C.B.Xiao and X.Tang: Advanced Materials Research Vol. 842(2014), p.332-336 [10] X.H.Xie, L.P.Chen, C.B.Xiao and X.Tang: Advanced Materials Research Vol. 821 (2013), p.877-882 [11] B.Wang, Y.S.Yang and M.L.Sun: Trans.