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Online since: August 2016
Authors: Geralda Gilvânia Cavalcante de Lima, Fernando Fernandes Vieira, Carlos Antônio Pereira de Lima
Acknowledgement
The authors thank the Research Laboratory and Environmental Sciences - LAPECA Department of Sanitary and Environmental Engineering - DESA State University of Paraíba - UEPB for financial aid.
[2] Qin Huan Yang, Chang Qing Zhao: Advanced Materials Research Vol. 602 (2012), p. 1265
[3] Pei Yao Xu, Xiao Xue Han, Sa Sa Ban: Advanced Materials Research Vol. 383 (2011), 6391
[4] Jun Guo He, Fei Liu, Bao Ping Han, Bo Wei Zhao, Jian Liu: Advanced Materials Research Vol. 403 (2011), p. 625
[6] Nageswara Rao Neti: Materials Science Forum Vol.712 (2012), p. 191
[2] Qin Huan Yang, Chang Qing Zhao: Advanced Materials Research Vol. 602 (2012), p. 1265
[3] Pei Yao Xu, Xiao Xue Han, Sa Sa Ban: Advanced Materials Research Vol. 383 (2011), 6391
[4] Jun Guo He, Fei Liu, Bao Ping Han, Bo Wei Zhao, Jian Liu: Advanced Materials Research Vol. 403 (2011), p. 625
[6] Nageswara Rao Neti: Materials Science Forum Vol.712 (2012), p. 191
Online since: August 2004
Authors: Masaaki Ichiki, Lulu Zhang, Zhen Yang, Tsuyoshi Ikehara, Ryutaro Maeda
Formation and characteristics of ferroelectric film on non-planar substrate with
spray coating method
Masaaki ICHIKI, Lulu ZHANG, Zhen YANG, Tsuyoshi IKEHARA and Ryutaro MAEDA
Institute of Mechanical System Engineering
National Institute of Advanced Industrial Science and Technology
1-2-1 Namiki, Tsukuba, Ibaraki 305-8564, Japan
Keywords: PZT, spray coating method, MEMS, ferroelectric properties, perovskite structure
ABSTRACT
This paper presents a three-dimensional microfabrication and integration technology for MEMS
smart materials utilizing a spray coating method.
Eiju (National Institute of Advanced Industrial Science and Technology) for encouragement in this study, and Ms.
Sakiyama, Advanced process for ferroelectric memory (Science Forum, Tokyo, 1999) 1st Ed.
Eiju (National Institute of Advanced Industrial Science and Technology) for encouragement in this study, and Ms.
Sakiyama, Advanced process for ferroelectric memory (Science Forum, Tokyo, 1999) 1st Ed.
Online since: December 2012
Authors: Valentino Paradiso, Antonino Squillace, Mario Montuori, Stefano Ciliberto, Luigi Carrino
Superplastic Forming of Friction Stir Processed Magnesium Alloys for Aeronautical Applications: a Modeling Approach
Luigi Carrino1,a, Antonino Squillace1,b, Valentino Paradiso1,c, Stefano Ciliberto1,d, Mario Montuori1,e
1 University of Naples Federico II, Department of Materials and Production Engineering,
P.le Tecchio 80, 80126, Naples Italy
aluigi.carrino@unina.it, bsquillac@unina.it, cvalentino.paradiso@unina.it, d stefano.ciliberto@uinna.it, e mamontuiri@unina.it
Keywords: Magnesium Alloys; Friction Stir Processing; Finite Element Modelling
Abstract.
Peng, Development of an advanced superplastic forming process utilizing a mechanical pre-forming operation Int.
Forum 546-549 (2007) 11-24
Forum, 426-432 (2003) 2999-3004 [14] R.
Chen, Gas blow forming of AZ31 magnesium alloy sheet in a heart-shaped closed die, in 6th International Forum on Strategic Technology (IFOST) Harbin 2011 186-189
Peng, Development of an advanced superplastic forming process utilizing a mechanical pre-forming operation Int.
Forum 546-549 (2007) 11-24
Forum, 426-432 (2003) 2999-3004 [14] R.
Chen, Gas blow forming of AZ31 magnesium alloy sheet in a heart-shaped closed die, in 6th International Forum on Strategic Technology (IFOST) Harbin 2011 186-189
Online since: June 2015
Authors: Alexandr Saprykin, E.V. Babakova, E.A. Ibragimov
Now it is used to reduce and simplify a designing cycle of different purpose products including aerospace engineering, automotive equipment, household appliances, etc.
Continuous or pulsing laser beams are used as a heating source for scanning, shaping and sizing the particles and layers in advance.
Geometry of the scanned layers corresponds to the various sections of models set by computer aided engineering system (CAE).
Danilov, Reasons for Negative Formation of Structures in Carbon Steel Processing of Pressure, 7th International Forum on Strategic Technology (IFOST - 2012) Tomsk. 2 (2012) 151-154
Dupont, Fabricationof functionally graded TiC/Ti composites by Laser Engineered Net Shaping, J.
Continuous or pulsing laser beams are used as a heating source for scanning, shaping and sizing the particles and layers in advance.
Geometry of the scanned layers corresponds to the various sections of models set by computer aided engineering system (CAE).
Danilov, Reasons for Negative Formation of Structures in Carbon Steel Processing of Pressure, 7th International Forum on Strategic Technology (IFOST - 2012) Tomsk. 2 (2012) 151-154
Dupont, Fabricationof functionally graded TiC/Ti composites by Laser Engineered Net Shaping, J.
Online since: February 2011
Authors: Zeng Pan, Mei Le, Li Ping Lei
Prediction and Application of Welding Residual Deformation of
Steel Sheets
Mei Le 1,2,a, Zeng Pan 1,2,b , Liping Lei 1,2,c
1Key Laboratory of Advanced Materials Processing Technology, Ministry of Education
2Department of Mechanical Engineering, Tsinghua University, Beijing 100084, China
ameteor_05071003@126.com, bzengp@mail.tsinghua.edu.cn, cleilp@mail.tsinghua.edu.cn
Keywords: Laser Welding; Residual Deformation; Equivalent Bending Moment; Inherent Strain
Abstract.
And as shown in Fig. 4, relative errors are below 10%, with 9.3% the largest, which is permitted in engineering application.
Yuan: Symposium of the Japan Welding Engineering Society.Vol.6-3 (1988), p.348-353
Zeng: Materials Science Forum.
And as shown in Fig. 4, relative errors are below 10%, with 9.3% the largest, which is permitted in engineering application.
Yuan: Symposium of the Japan Welding Engineering Society.Vol.6-3 (1988), p.348-353
Zeng: Materials Science Forum.
Online since: September 2011
Authors: Lan Fang Chen, Gang Wu, Yi Bin Zhang
In this context, it’s necessary to explore the advanced and effective management methods to help construction enterprises to get rid of the trouble.
Britain Strategic Forum points out a series of obstacles influencing supply chain management of the construction industry[1] , including: (1) The inherent characteristics of the construction project; (2) The difficulty of identifying who will benefit from potential efficiency improvements; (3) The high degree of looseness of project organization structure; (4) Lack of transparency of the cost, and often making decisions based on the enterprise's cash flow; (5) The inaccurate pass of the information in the production process; (6) The managers’ lack of confidence and trust in supply chain management.
Acknowledgements This paper is supported by Humanities and Social Science planning Foundation of Ministry of Education of China (NO.10YJA790020) References [1] X.J.Liao and H.Y.Chen: Prices Monthly, (2007) No.11, p.78 (In Chinese) [2] Y.Bai and J.Y.Chen:Journal of Civil Engineering and Management, (2011)No.1,p.6(In Chinese) [3] Z.Y.Liu,W.H.Wang and M.H.Yu:Journal of Wuhan Urban Construction Institute, (2004) No.2, p.27 (In Chinese) [4] H.L.Li: Jiangsu Commercial Forum, (2010) No.2, p.63 (In Chinese) [5] B.C.Huang: Project Management Technology, (2010) No.9, p.39 (In Chinese) [6] H.Zhang: Railway Construction Technology, (2004) No.4, p.65 (In Chinese) [7] J.G.Shi, G.Z.Wu and D.Z.Tang: Soft Science, (2011) No.4, p.44 (In Chinese) [8] S.L.Gu Logistics Technology, (2001) No.3, p.30 (In Chinese)
Britain Strategic Forum points out a series of obstacles influencing supply chain management of the construction industry[1] , including: (1) The inherent characteristics of the construction project; (2) The difficulty of identifying who will benefit from potential efficiency improvements; (3) The high degree of looseness of project organization structure; (4) Lack of transparency of the cost, and often making decisions based on the enterprise's cash flow; (5) The inaccurate pass of the information in the production process; (6) The managers’ lack of confidence and trust in supply chain management.
Acknowledgements This paper is supported by Humanities and Social Science planning Foundation of Ministry of Education of China (NO.10YJA790020) References [1] X.J.Liao and H.Y.Chen: Prices Monthly, (2007) No.11, p.78 (In Chinese) [2] Y.Bai and J.Y.Chen:Journal of Civil Engineering and Management, (2011)No.1,p.6(In Chinese) [3] Z.Y.Liu,W.H.Wang and M.H.Yu:Journal of Wuhan Urban Construction Institute, (2004) No.2, p.27 (In Chinese) [4] H.L.Li: Jiangsu Commercial Forum, (2010) No.2, p.63 (In Chinese) [5] B.C.Huang: Project Management Technology, (2010) No.9, p.39 (In Chinese) [6] H.Zhang: Railway Construction Technology, (2004) No.4, p.65 (In Chinese) [7] J.G.Shi, G.Z.Wu and D.Z.Tang: Soft Science, (2011) No.4, p.44 (In Chinese) [8] S.L.Gu Logistics Technology, (2001) No.3, p.30 (In Chinese)
Online since: April 2010
Authors: Michael S. Mazzola, John Adjaye
Mazzola2,b
1
Alcorn State University, Department of Advanced Technologies, 1000 ASU Drive, Alcorn
State, MS, 39096, U.S.A.
2
Mississippi State University, Department of Electrical and Computer Engineering,
Mississippi State, 39579, U.S.A.
Forum Vols. 457-460 (2004), p. 1193-1196 [2] N.
Los, Materials Science Forum Vols. 527-529 (2006), pp 1247-1250 [4] S.
Forum Vols. 457-460 (2004), p. 1193-1196 [2] N.
Los, Materials Science Forum Vols. 527-529 (2006), pp 1247-1250 [4] S.
Online since: February 2014
Authors: Tsunenobu Kimoto, Hajime Okumura, Atsushi Shimozato, Yasunori Tanaka, Junji Senzaki, Takashi Nakamura, Hironori Yoshioka
Accurate characterization of interface state density of SiC MOS structures and the impacts on channel mobility
Hironori Yoshioka1,2,a*, Takashi Nakamura3,b, Junji Senzaki2,c, Atsushi Shimozato2,d, Yasunori Tanaka2,e, Hajime Okumura2,f,
and Tsunenobu Kimoto1,g
1Department of Electronic Science and Engineering, Kyoto University, Kyoto 615-8510, Japan
2Advanced Power Electronics Research Center, National Institute of Advanced Industrial Science and Technology, Ibaraki 305-8568, Japan
3New Material Devices R&D Center, Rohm Co., Ltd., Kyoto 615-8585, Japan
ahironori-yoshioka@aist.go.jp, btakashi.nakamura@dsn.rohm.co.jp, cjunji-senzaki@aist.go.jp, da-shimozato@aist.go.jp, eyasunori-tanaka@aist.go.jp, fh-okumura@aist.go.jp, gkimoto@kuee.kyoto-u.ac.jp
Keywords: SiC, MOS capacitor, MOSFET, interface state, field-effect mobility, subthreshold slope, impedance, conductance, NO anneal, pyrogenic oxidation.
Palmour, Materials Science Forum 717-720, 1059 (2012)
Namikawa, Materials Science Forum 740-742, 506 (2013)
Palmour, Materials Science Forum 717-720, 1059 (2012)
Namikawa, Materials Science Forum 740-742, 506 (2013)
Online since: April 2010
Authors: Vito Raineri, Filippo Giannazzo, Fabrizio Roccaforte, Stefano Leone, Ming Hung Weng, Jens Eriksson, Salvatore Di Franco
Ferro, Advanced Functional Materials Vol. 16 (2006), p. 975
[2] A.A.
Davis, Materials Science and Engineering Vol.
Forum Vol. 600-603 (2009), p. 107 [8] S.
Forum Vol. 338-342 (2000), p.1085 [9] F.
Davis, Materials Science and Engineering Vol.
Forum Vol. 600-603 (2009), p. 107 [8] S.
Forum Vol. 338-342 (2000), p.1085 [9] F.
Online since: May 2013
Authors: Vit Černý, Rostislav Drochytka, Pavel Sokol, Ester Helanová
., Komenského 534, 253 01 Hostivice, Czech Republic
2Brno University of Technology, Faculty of Civil Engineering, Institute of Technology of Building Materials and Components, Veveří 331/95, 602 00 Brno, Czech Republic
apavel.sokol@cez.cz, bdrochytka.r@fce.vutbr.cz, ccerny.v@fce.vutbr.cz, venhodova.e@fce.vutbr.cz
Keywords: Fly ash, power plant, artificial aggregate, environment.
CZ.1.05/2.1.00/03.0097, as an activity of the regional Centre AdMaS Advanced Materials, Structures and Technologies.
Černý, Popílky jako kvalitní surovina pro stavební hmoty, Odpadové forum 10 (2011) 15 - 15.
Waste forum. 2011) [4] A.
CZ.1.05/2.1.00/03.0097, as an activity of the regional Centre AdMaS Advanced Materials, Structures and Technologies.
Černý, Popílky jako kvalitní surovina pro stavební hmoty, Odpadové forum 10 (2011) 15 - 15.
Waste forum. 2011) [4] A.