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Online since: March 2007
Authors: Chun Gon Kim, Cheol Won Kong, Sang Guk Kang, Myung Gon Kim, Sang Wuk Park
Liquid Nitrogen Storing and Pressurization Test
of a Type III Cryogenic Propellant Tank
Sang-Guk Kang1, Myung-Gon Kim
1, Sang-Wuk Park1, Chun-Gon Kim
1
and Cheol-Won Kong2
1
Division of Aerospace Engineering, Korea Advanced Institute of Science and Technology (KAIST)
373-1 Guseong-dong, Yuseong-gu, Daejeon, 305-701, Republic of Korea
2
Department of Structures and Materials, Korea Aerospace Research Institute (KARI)
45, Eoeun-dong, Yuseong-gu, Daejeon, 305-333, Republic of Korea
1
cgkim@kaist.ac.kr, 2kcw@kari.re.kr
Keywords:�Cryogenic, Composite, Type 3 tank, Liquid nitrogen storing, Pressurization test
Abstract.
Gates: 10th AIAA/ASME/ASCE/AHS adaptive structures forum, 4th AIAA nondeterministic approaches forum, 3rd AIAA gossamer spacecraft forum (2002), p. 1677
Gates: 10th AIAA/ASME/ASCE/AHS adaptive structures forum, 4th AIAA nondeterministic approaches forum, 3rd AIAA gossamer spacecraft forum (2002), p. 1677
Online since: May 2017
Preface
The 7th International Conference on Advanced Materials Research (ICAMR 2017,
January 20-22, 2017, Hong Kong, China) is the interdisciplinary forum on all aspects of advanced
materials encompassing physics, chemistry, material science and engineering and bio-technological
disciplines.
It facilitates the exchanges of ideas, novel and practical techniques and applications in various fields of advanced materials including also composite materials and nanomaterials, chemical and materials engineering, nanotechnology etc.
Krishnamurthy, The National Institute of Engineering, India Dr.
Mohamed Haneef, Ghousia College of Engineering, India Dr.
Shanmugasundaram, Muthayammal College of Engineering Rasipuram, India Sponsor "American Elements, global manufacturer of advanced materials for process engineering in automotive, aerospace, energy, defense, & biotech industries"
It facilitates the exchanges of ideas, novel and practical techniques and applications in various fields of advanced materials including also composite materials and nanomaterials, chemical and materials engineering, nanotechnology etc.
Krishnamurthy, The National Institute of Engineering, India Dr.
Mohamed Haneef, Ghousia College of Engineering, India Dr.
Shanmugasundaram, Muthayammal College of Engineering Rasipuram, India Sponsor "American Elements, global manufacturer of advanced materials for process engineering in automotive, aerospace, energy, defense, & biotech industries"
Online since: July 2006
Authors: Krzysztof Jan Kurzydlowski, Tadeusz Wierzchoń, Halina Garbacz, Wacław Pachla
Kurzydłowski1d
1
Warsaw University of Technology, Faculty of Materials Science and Engineering,
Wołoska 141, 02-507 Warsaw, Poland
2
Institute of High Pressure Physics, Polish Academy of Science, Poland
,Sokołowska 29/37, 01-142 Warsaw, Poland
email: a
haga@inmat.pw.edu.pl, b wacek@unipress.waw.pl, c twierz@inmat.pw.edu.pl,
d
kjk@inmat.pw.edu.pl
Keywords: titanium, intermetallic coatings (Ti-Al), severe plastic deformation, hydrostatic
extrusion
Abstract.
Richert: Reviews on Advanced Materials Science Red.
Kurzydłowski, Materials Science Forum, in press [5] H.
Ossowski, Journal Materials Science Forum, 475-479 (2005) p. 3883 [7] T.Wierzchoń; Materials Science Forum, 426-432(2003) p.2563
Richert: Reviews on Advanced Materials Science Red.
Kurzydłowski, Materials Science Forum, in press [5] H.
Ossowski, Journal Materials Science Forum, 475-479 (2005) p. 3883 [7] T.Wierzchoń; Materials Science Forum, 426-432(2003) p.2563
Online since: December 2004
Authors: X.C. Luo, R. Ward, K. Cheng
Materials Science Forum Vols. *** (2004) pp.112-116
online at http://scientific.net
Ó 2004 Trans Tech Publications, Switzerland
Correlating Surface Functionality with Machining Conditions in
Precision Machining Processes
X.C.
The nature of the engineering surface can be categorized in two mechanisms, i.e. contact and spatial distributions.
Advances in Materials Manufacturing Science and Technology 114 Implementation of the Modelling Approach Fig.1 illustrates the implementation of the model approach in MATLAB Simulink environment.
Materials Science Forum Vols. *** 115 Discussions Displacement between cutting tool and workpiece.
Journal of Advanced Manufacturing Technology [3] X.
The nature of the engineering surface can be categorized in two mechanisms, i.e. contact and spatial distributions.
Advances in Materials Manufacturing Science and Technology 114 Implementation of the Modelling Approach Fig.1 illustrates the implementation of the model approach in MATLAB Simulink environment.
Materials Science Forum Vols. *** 115 Discussions Displacement between cutting tool and workpiece.
Journal of Advanced Manufacturing Technology [3] X.
Online since: December 2004
Authors: Heng Li, Mei Zhan, L.G. Guo, L.Y. Li, He Yang
Materials Science Forum Vols. *** (2004) pp.760-764
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Simulation for Guide Roll in 3D-FE Analysis of Cold Ring Rolling
L.G.
Li1,b 1 Department of Materials Forming and Control Engineering, Northwestern Polytechnical University, P.O.
Introduction Ring rolling is an advanced continuous and local deformation process used to manufacture parts with revolved geometries such as bearings, which has many advantages such as considerable saving in energy and material cost, uniform quality, smooth surface, short production time etc.
According to the expression, the ith revolution instantaneous thickness iH of the ring can be computed when the Advances in Materials Manufacturing Science and Technology 762 initial geometry dimensions ( 0 0 0 1, , ,R r H R ) of the ring blank and driver roll as well as the feed rate (v ) of idle roll and rotational speed ( 1n ) of driver roll are given. 2 1 1 0 0 0 1 1 4( 1) 30 , , ( ) ,( 1,2,3, , ) 2( 1) i i i H H a ab v H a b R r H i n a n R − −+ − + = = = + = + L
The circularity of the ring that is defined as the ratio of arbitrary two orthogonal diameters of ring Advances in Materials Manufacturing Science and Technology 764 fluctuates near to 1.0 as illustrated in Fig. 5.
Li1,b 1 Department of Materials Forming and Control Engineering, Northwestern Polytechnical University, P.O.
Introduction Ring rolling is an advanced continuous and local deformation process used to manufacture parts with revolved geometries such as bearings, which has many advantages such as considerable saving in energy and material cost, uniform quality, smooth surface, short production time etc.
According to the expression, the ith revolution instantaneous thickness iH of the ring can be computed when the Advances in Materials Manufacturing Science and Technology 762 initial geometry dimensions ( 0 0 0 1, , ,R r H R ) of the ring blank and driver roll as well as the feed rate (v ) of idle roll and rotational speed ( 1n ) of driver roll are given. 2 1 1 0 0 0 1 1 4( 1) 30 , , ( ) ,( 1,2,3, , ) 2( 1) i i i H H a ab v H a b R r H i n a n R − −+ − + = = = + = + L
The circularity of the ring that is defined as the ratio of arbitrary two orthogonal diameters of ring Advances in Materials Manufacturing Science and Technology 764 fluctuates near to 1.0 as illustrated in Fig. 5.
Online since: July 2015
Authors: A. Aravind Kumar, B. Nagesh Babu, S. Somya
In the current study, the standard two-equation k–ω of shear stress transport model is used for turbulence with buoyancy modifications, because of its wide application in engineering problems and its validation pedigree for wall heat transfer applications [13,15].
Hamed: A Comparative Study of Turbulence Models Performance for Turbulent Flow in a Planar Asymmetric Diffuser, World Academy of Science, Engineering and Technology 53 (2009) [8] SEL. 2000.
Jakovics: Research of Composite Constructions’ Impact on the Energy Efficiency of Buildings, 3rd International Conference Advanced Construction, Kaunas, Lithuania (2012) [11] S.V.
Spalding: Computer Methods in Applied Mechanics and Engineering Forum Vol. 3(1) (1974), p. 269–289 [13] G.
London, Series A Forum Vol. 356 (1748), p. 2835–2854 [14] K.B.
Hamed: A Comparative Study of Turbulence Models Performance for Turbulent Flow in a Planar Asymmetric Diffuser, World Academy of Science, Engineering and Technology 53 (2009) [8] SEL. 2000.
Jakovics: Research of Composite Constructions’ Impact on the Energy Efficiency of Buildings, 3rd International Conference Advanced Construction, Kaunas, Lithuania (2012) [11] S.V.
Spalding: Computer Methods in Applied Mechanics and Engineering Forum Vol. 3(1) (1974), p. 269–289 [13] G.
London, Series A Forum Vol. 356 (1748), p. 2835–2854 [14] K.B.
Online since: February 2011
Authors: Mitsuji Hirohashi, Yun Lu, Liang Hao, Keisuke Toh, Hiroyuki Yoshida
Performance Improvement of TiO2/Ti Composite Photocatalyst Film
by Heat Oxidation Treatment
Yun Lu1, a, Hiroyuki Yoshida2, Keisuke Toh2, Liang Hao2
and Mitsuji Hirohashi1
1Graduate school & Faculty of Engineering, Chiba University, Japan 1-33, Yayoi-cho, Inage-ku, Chiba 263-8522, Japan
2Graduate school, Chiba University, Japan
aluyun@faculty.chiba-u.jp
Keywords: TiO2, composite photocatalyst, film, heat oxidation, mechanical coating technique, activity.
After that, we proposed and performed an advanced MCT, 2-step MCT, to form TiO2/Ti composite photocatalyst film with anatase TiO2 [7].
Hirohashi: The 5th International Forum on Advanced Materials Science and Technology (IFAMST 5), Zhangjiajie, China, 11-17th, June 2006, p.30
Hirohashi: 7th International Forum on Advanced Material Science and Technology (IFAMST 7), Dalian, China, 26-28th, June 2010, No.A-240
After that, we proposed and performed an advanced MCT, 2-step MCT, to form TiO2/Ti composite photocatalyst film with anatase TiO2 [7].
Hirohashi: The 5th International Forum on Advanced Materials Science and Technology (IFAMST 5), Zhangjiajie, China, 11-17th, June 2006, p.30
Hirohashi: 7th International Forum on Advanced Material Science and Technology (IFAMST 7), Dalian, China, 26-28th, June 2010, No.A-240
Online since: September 2025
Authors: Won Jae Lee, Chae Young Lee, Min Kyu Kang, Jung Woo Choi, Su Ho Kim, Seung Jun Lee, Jung Gyu Kim, Jong Hwi Park, Kap Ryeol Ku, Hyong Suk Lee
Optimization of Heat Transfer Design for High Quality
4H-SiC Ingot Growth
Seung Jun Lee1,a, Su Ho Kim1,b, Chae Young Lee1,c, Jong Hwi Park1,d,
Jung Woo Choi1,e, Hyong Suk Lee1,f, Jung Gyu Kim1,g, Kap Ryeol Ku1,h,
Min Kyu Kang2,i and Won Jae Lee2,j*
1Senic, 17-15, 4sandan 7-ro, Jiksan-eup, Seobuk-gu, Cheonan-si, Chungcheongnam-do,
Korea
2Department of Advanced Materials Engineering, Dong-Eui University, 176, Eomgwang-ro, Busanjin-gu, Busan, Korea
asjlee@senic.co.kr, bshkim@senic.co.kr, ccylee@senic.co.kr, djhpark@senic.co.kr, ejwchoi@senic.co.kr, fhslee@senic.co.kr, gjgkim@senic.co.kr, hkrku@senic.co.kr, ikminq980@gmail.com, jleewj@deu.ac.kr
Keywords: Optimizing Heat Transfer, Physical Vapor Transport (PVT), Temperature Gradient, Polytype Stabilization, Hot Zone
Abstract.
Acknowledgements This work was supported by Technology Innovation Program (Project Number: 1415185945, Project Name: Development of next-generation power semiconductor based on Si-on-SiC structure), (Project Number: 00402234, Project Name: Development of highly flat, highly clean large area polished SiC single crystal wafers by utilizing advanced process technology for power semiconductor application) funded by the Ministry of Trade, Industry and Energy.
Balkas, Bulk growth of large area SiC crystals, Materials Science Forum 858 (2016) 5-10
Forum 483-485 (2005) 21-24
Aspalli, SiC : an advanced semiconductor material for power devices, IJRET, Vol. 3 (2014) 248-252
Acknowledgements This work was supported by Technology Innovation Program (Project Number: 1415185945, Project Name: Development of next-generation power semiconductor based on Si-on-SiC structure), (Project Number: 00402234, Project Name: Development of highly flat, highly clean large area polished SiC single crystal wafers by utilizing advanced process technology for power semiconductor application) funded by the Ministry of Trade, Industry and Energy.
Balkas, Bulk growth of large area SiC crystals, Materials Science Forum 858 (2016) 5-10
Forum 483-485 (2005) 21-24
Aspalli, SiC : an advanced semiconductor material for power devices, IJRET, Vol. 3 (2014) 248-252
Online since: August 2011
Authors: Dong Ying Ju, G An, T Kumazawa, M Okasabe
., LTD, 77 Shinarami, Tai,Kumiyama-cho, Kuse-gun, Kyoto, Japan
2,3,4 Advance Science Institute, Saitama Institute of Technology, Fusaiji 1690, Fukaya, Saitama, Japan.
He, Magnetite Nanoparticles Surface Coating SiO2 and Magnetic Properties Evaluation, Key Engineering Materials, Vols. 368-372, pp.1366-1369(2008) [2] D.
Nemoto, Fabrication of Magnetite Nanoparticals and Drug Delivery Observation of Hydrophobe Ferrofluid by SPring-8 Synchrotron Radiation, Materials Science Forum, Vol.614,pp.229-232(2009) [3] S.
West, “Implantable, polymeric systems for modulated drug delivery,” Advanced Drug Delivery Reviews, Vol. 54, No. 9, pp. 1225–1235, 2002
Osakabe, Bio-medicine Coating on Surface of Magnetic Nanoparticles and Its Safety Evaluation, Materials Science Forum, Vols. 675-677 (2011) pp 303-306
He, Magnetite Nanoparticles Surface Coating SiO2 and Magnetic Properties Evaluation, Key Engineering Materials, Vols. 368-372, pp.1366-1369(2008) [2] D.
Nemoto, Fabrication of Magnetite Nanoparticals and Drug Delivery Observation of Hydrophobe Ferrofluid by SPring-8 Synchrotron Radiation, Materials Science Forum, Vol.614,pp.229-232(2009) [3] S.
West, “Implantable, polymeric systems for modulated drug delivery,” Advanced Drug Delivery Reviews, Vol. 54, No. 9, pp. 1225–1235, 2002
Osakabe, Bio-medicine Coating on Surface of Magnetic Nanoparticles and Its Safety Evaluation, Materials Science Forum, Vols. 675-677 (2011) pp 303-306
Online since: July 2011
Authors: Eustaquio García Plaza, A. Egido, Angel Ramon Martín, Pedro José Núñez
However, there is often a mismatch between the technical training received by undergraduates at university and the requirements of most technologically advanced industrial sectors.
In recent years technological advances in automated machining [1,2] have underscored the pressing need for a shift in teaching methodology and technical training in industrial engineering.
Schmid, Manufacturing, Engineering and Technology, edited by Pearson Education, (2009)
Forum, Vol. 625, (2009), p. 67 [8] M.
Forum, Vol. 625, (2009), p. 35 [10] H.
In recent years technological advances in automated machining [1,2] have underscored the pressing need for a shift in teaching methodology and technical training in industrial engineering.
Schmid, Manufacturing, Engineering and Technology, edited by Pearson Education, (2009)
Forum, Vol. 625, (2009), p. 67 [8] M.
Forum, Vol. 625, (2009), p. 35 [10] H.