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Online since: July 2012
Authors: Hui Min Huang, Wen Jin Ji, Ai Hua Deng
A permanent magnetic device(ShenZhen YiTian Magnetic Material Co.
Coey, Stephen Cass: Journal of Magnetism and Magnetic Materials Vol. 209 (2000), p. 71-74
Chemical Engineering Science Vol. 62 (2007), p. 2089-2095
Journal of Chemical Industry and Engineering Vol.57 (2006), p.2361-2366
[13] Sergej Knez, Ciril Pohar: Journal of Colloid and Interface Science Vol.281 (2005), p. 377-388
Coey, Stephen Cass: Journal of Magnetism and Magnetic Materials Vol. 209 (2000), p. 71-74
Chemical Engineering Science Vol. 62 (2007), p. 2089-2095
Journal of Chemical Industry and Engineering Vol.57 (2006), p.2361-2366
[13] Sergej Knez, Ciril Pohar: Journal of Colloid and Interface Science Vol.281 (2005), p. 377-388
Online since: August 2016
Authors: Jerzy Warminski, Emil Manoach, Anna Warminska
Dynamics of Beams under Coupled Thermo-Mechanical Loading
Emil MANOACH1,a, Anna WARMINSKA,2,b, and Jerzy WARMINSKI3,c
1Institute of Mechanics, Bulgarian Academy of Sciences, Acad.
They correspond to a glass-epoxy composite material.
Journal of Mechanical Sciences, 62, 1, 120-132, 2012
Mei, Finite element time time domain modal formulation for nonlinear flutter of composite panels, AIAA Journal, 32 (10), 2044-2052, 1994
AIAA Journal, 37, 1035-1032, 1999 [10] A.
They correspond to a glass-epoxy composite material.
Journal of Mechanical Sciences, 62, 1, 120-132, 2012
Mei, Finite element time time domain modal formulation for nonlinear flutter of composite panels, AIAA Journal, 32 (10), 2044-2052, 1994
AIAA Journal, 37, 1035-1032, 1999 [10] A.
Online since: June 2014
Authors: Jun Feng Cui, Shi Yu Wang, Ji Chen
This kind of structures form in low energy environment where is lack of material supply, and develop in the semi-deep and lake environment.
Acknowledgements This study was financially supported by Major special National Science and Technology project s(No. 2011ZX05009-002) and Fundamental Research Funds for the Central Universities (No. 2001PY0205).
References [1]Galloway W E: AAPG Bulletin. 1989, 73: 125-142 [2]Binghua Chen: Oil and Gas Geology.1985, 6(3):335-340(In Chinese) [3]Xian-zheng Zhao, Shuan-qi Jiang, Wei-ning Dan, et al.: Lithological Reservoirs.2010, 22 (1): 12-17(In Chinese) [4]Guanzhong Liang, Jiancai Tan, Li Wei, et al.: Journal of Palaeogeograph.2013, 15(1):31-42(In Chinese) [5]Yong Dong, Liqiao Ma, Fengxia Sun, et al.: Oil and Gas Geology.2007, 28(5):610-614+633(In Chinese) [6]Zaixing Jiang: Sedimentology (Petroleum Industry Press, Beijing, 2010)(In Chinese) [7]Yingtai Yu: Acta Petrolei Sinica.1990, 11(3):12-19(In Chinese) [8]Junfeng Cui, Ji Chen, Guiru Yang, et al.: Journal of Yangtze University(Nar Sci Edit).2013, 10(16):8-11(In Chinese) [9]Xiande Wang, Ruyan Wang, Qun Wang, et al.: Xinjiang Petroleum Geology.2013, 2(1):33-35(In Chinese) [10]Hongjun Li, Kefeng Shen, Fengjun Nie, et al.: Journal of East China Institute of Technology.2012,12(4):301-308(In Chinese) [11]Shanfeng Zhang.: Journal of Southwest
Petroleum Institute.1998,5(2)43-46+4(In Chinese) [12]Zhouqi Cui, Jianping Wu, Li Li, et al.: Journal of Palaeogeography.2001,2(1):25-34(In Chinese) [13]Zhongbao Liu, Xiao Liu, Feng Miao, et al.: Sedimentary Geology and Tethyan Geology.2005,9(3):57-61(In Chinese) [14]Wenchao Zhang, Hongsheng Wang, Yuanjie Wang, et al.: Journal of Xi’an Petroleum Institue(Natural Science Edition) (In Chinese) [15]Ting Yin, Guona Jia, Zinan Li, et al.: Journal of Oil and Gas Technology,2011,12(12):11-16+170(In Chinese)
Acknowledgements This study was financially supported by Major special National Science and Technology project s(No. 2011ZX05009-002) and Fundamental Research Funds for the Central Universities (No. 2001PY0205).
References [1]Galloway W E: AAPG Bulletin. 1989, 73: 125-142 [2]Binghua Chen: Oil and Gas Geology.1985, 6(3):335-340(In Chinese) [3]Xian-zheng Zhao, Shuan-qi Jiang, Wei-ning Dan, et al.: Lithological Reservoirs.2010, 22 (1): 12-17(In Chinese) [4]Guanzhong Liang, Jiancai Tan, Li Wei, et al.: Journal of Palaeogeograph.2013, 15(1):31-42(In Chinese) [5]Yong Dong, Liqiao Ma, Fengxia Sun, et al.: Oil and Gas Geology.2007, 28(5):610-614+633(In Chinese) [6]Zaixing Jiang: Sedimentology (Petroleum Industry Press, Beijing, 2010)(In Chinese) [7]Yingtai Yu: Acta Petrolei Sinica.1990, 11(3):12-19(In Chinese) [8]Junfeng Cui, Ji Chen, Guiru Yang, et al.: Journal of Yangtze University(Nar Sci Edit).2013, 10(16):8-11(In Chinese) [9]Xiande Wang, Ruyan Wang, Qun Wang, et al.: Xinjiang Petroleum Geology.2013, 2(1):33-35(In Chinese) [10]Hongjun Li, Kefeng Shen, Fengjun Nie, et al.: Journal of East China Institute of Technology.2012,12(4):301-308(In Chinese) [11]Shanfeng Zhang.: Journal of Southwest
Petroleum Institute.1998,5(2)43-46+4(In Chinese) [12]Zhouqi Cui, Jianping Wu, Li Li, et al.: Journal of Palaeogeography.2001,2(1):25-34(In Chinese) [13]Zhongbao Liu, Xiao Liu, Feng Miao, et al.: Sedimentary Geology and Tethyan Geology.2005,9(3):57-61(In Chinese) [14]Wenchao Zhang, Hongsheng Wang, Yuanjie Wang, et al.: Journal of Xi’an Petroleum Institue(Natural Science Edition) (In Chinese) [15]Ting Yin, Guona Jia, Zinan Li, et al.: Journal of Oil and Gas Technology,2011,12(12):11-16+170(In Chinese)
Online since: August 2009
Authors: Xue Feng Bi, Gautier List, G. Sutter, Yong Xian Liu
Shaffer: Journal of Applied Mechanics Vol. 18 (1951), p. 405
[4] N.G.
Ko: International Journal Tools and Manufacture Vol. 43 (2003), p. 1209 [6] G.
Sutter: International Journal of Machine Tools and Manufacture Vol. 45 (2005), p. 719 [7] V.R.
Marinov: International Journal of Mechanical Sciences Vol. 43 (2001), p. 415 [8] D.
Philippon: ASME Journal of Heat transfer Vol. 126 (2004), p. 931 [13] A.B.
Ko: International Journal Tools and Manufacture Vol. 43 (2003), p. 1209 [6] G.
Sutter: International Journal of Machine Tools and Manufacture Vol. 45 (2005), p. 719 [7] V.R.
Marinov: International Journal of Mechanical Sciences Vol. 43 (2001), p. 415 [8] D.
Philippon: ASME Journal of Heat transfer Vol. 126 (2004), p. 931 [13] A.B.
Online since: February 2018
Authors: Masanori Fujita, Mamoru Iwata, Kazuhisa Koyano
However, an excessively small clearance causes contact between the core plate and restraining material due to the influence of Poisson’s ratio wherein the restraining material also supports compressive force, causing the α value to increase.
The clearance varies depending on the flatness accuracy of the mortar surface of the restraining material and the varying widths of the unbonded material.
For the purpose of comparing the clearances, the material and dimensions of the core plates and the restraining materials were the same.
In order to compare gaps, the conditions of the core plates and the restraining materials were the same between the specimens, and only the internal gap was used as a parameter.
Midorikawa, M. and Iwata, M.: Fatigue Performance of the Buckling-Restrained Brace Using Steel Mortar Planks, Journal of Structural and Construction Engineering (Transactions of AIJ), No.736, pp.921-928, 2017.6(in Japanese) [3] Murase, R.
The clearance varies depending on the flatness accuracy of the mortar surface of the restraining material and the varying widths of the unbonded material.
For the purpose of comparing the clearances, the material and dimensions of the core plates and the restraining materials were the same.
In order to compare gaps, the conditions of the core plates and the restraining materials were the same between the specimens, and only the internal gap was used as a parameter.
Midorikawa, M. and Iwata, M.: Fatigue Performance of the Buckling-Restrained Brace Using Steel Mortar Planks, Journal of Structural and Construction Engineering (Transactions of AIJ), No.736, pp.921-928, 2017.6(in Japanese) [3] Murase, R.
Online since: April 2021
Authors: Norman Syakir, Sahrul Hidayat, Togar Saragi, Risdiana Risdiana, Muhammad Abdan Syakuur, Maykel Manawan, Gustiani A. Pramesti
Iron sand is a metal mining material that is formed due to the transportation and sedimentation process of sand-sized materials containing iron.
Iron sand is not only used as an additional material for cement and steel, but also in the research and development of nanotechnology materials [1-5].
The Kertajati’s iron sand has very promising prospects for the development of iron materials.
Choi, Sticking Behaviour in Direct Reduction of Iron Ore, Journal Ironmaking & Steelmaking 26, 53-57 (1999)
Sirivat, Synthesis and Characterization of Magnetite Co-precipitation Nanoparticles via the Chemical Method, Materials Science and Engineering B 177, 421-427 (2012)
Iron sand is not only used as an additional material for cement and steel, but also in the research and development of nanotechnology materials [1-5].
The Kertajati’s iron sand has very promising prospects for the development of iron materials.
Choi, Sticking Behaviour in Direct Reduction of Iron Ore, Journal Ironmaking & Steelmaking 26, 53-57 (1999)
Sirivat, Synthesis and Characterization of Magnetite Co-precipitation Nanoparticles via the Chemical Method, Materials Science and Engineering B 177, 421-427 (2012)
Online since: August 2012
Authors: Jefferson Fabricio Cardoso Lins, Claudinei Santos, Cristiane Fonseca de Carvalho, Cláudio Luis Melo-Silva
Anusavice: Science of Dental Materials. (2003), p. 832
Valandro: Dental Materials Journal Vol. 27 (2008), p. 99
Re et al.: The European Journal Of Esthetic Dentistry.
Swain: Journal of Dentistry Vol. 33 (2005), p. 9
Kern: Dental Materials Vol. 26 (2010), p. 44
Valandro: Dental Materials Journal Vol. 27 (2008), p. 99
Re et al.: The European Journal Of Esthetic Dentistry.
Swain: Journal of Dentistry Vol. 33 (2005), p. 9
Kern: Dental Materials Vol. 26 (2010), p. 44
Online since: November 2013
Authors: Yang Yu, Wen Bin Li, Yao Qi Yang, Peng Fei Wang, Hai Juan Wang
China Land Science, (2007), 04:60-64
Coal Science and Technology, (2009), 01:24-25
Fuzhou Journal, (2012), 05:54-57+77
Journal of Shanxi Datong University (NATURAL SCIENCE EDITION), (2012), 06:69-72
Coal Science and Technology,(2012), 11:19-23
Coal Science and Technology, (2009), 01:24-25
Fuzhou Journal, (2012), 05:54-57+77
Journal of Shanxi Datong University (NATURAL SCIENCE EDITION), (2012), 06:69-72
Coal Science and Technology,(2012), 11:19-23
Online since: May 2011
Authors: Hong Yu Zheng, Huai Yan Jiang, Zhi Tao Lu
FRP is now widely used as the material of structures retrofit, strengthening.
Comparing with other types of FRP, CFRP is the most suitable non-metal material for cables in the long-span suspension bridge of the future.
Considering material type of main cable brings a little change to cable shape (according to the author’s privious study), and of saddle may not change remarkably when steel cables were replaced with CFRP one.
Acknowledgements The authors are very grateful for the financial support from the National Natural Science Foundation of China (50178018) and the Foundation for Natural Science of Guangxi University (X081099).
Journal of Highway and Transportation Research and Development, Vol. 16, No. 3 (1999), p. 35
Comparing with other types of FRP, CFRP is the most suitable non-metal material for cables in the long-span suspension bridge of the future.
Considering material type of main cable brings a little change to cable shape (according to the author’s privious study), and of saddle may not change remarkably when steel cables were replaced with CFRP one.
Acknowledgements The authors are very grateful for the financial support from the National Natural Science Foundation of China (50178018) and the Foundation for Natural Science of Guangxi University (X081099).
Journal of Highway and Transportation Research and Development, Vol. 16, No. 3 (1999), p. 35
Online since: July 2017
Authors: Codruta Sarosi, Marioara Moldovan, Monica Laura Dascalu (Rusu), Mândra Eugenia Badea
Material and Methods
To achieve this objective, the search engine PubMed was used.
, Photochemical & photobiological sciences: Official journal of the European Photochemistry Association and the European Society for Photobiology. 3 (2004), 436-50.
Bahador, Clinical approach of high technology techniques for control and elimination of endodontic microbiota, Journal of Lasers in Medical Sciences. 6 (2015), 139-50.
Sasaki Y, et al., Adjunctive application of antimicrobial photodynamic therapy in nonsurgical periodontal treatment: A Review of Literature, International Journal of Molecular Sciences. 16 (2015), 24111-26.
Schmidlin, The in vitro antimicrobial efficacy of PDT against periodontopathogenic bacteria, International Journal of Molecular Sciences. 16(2015), 27327-38.
, Photochemical & photobiological sciences: Official journal of the European Photochemistry Association and the European Society for Photobiology. 3 (2004), 436-50.
Bahador, Clinical approach of high technology techniques for control and elimination of endodontic microbiota, Journal of Lasers in Medical Sciences. 6 (2015), 139-50.
Sasaki Y, et al., Adjunctive application of antimicrobial photodynamic therapy in nonsurgical periodontal treatment: A Review of Literature, International Journal of Molecular Sciences. 16 (2015), 24111-26.
Schmidlin, The in vitro antimicrobial efficacy of PDT against periodontopathogenic bacteria, International Journal of Molecular Sciences. 16(2015), 27327-38.