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Online since: November 2025
Authors: Ionut Mititelu, Ion Aurel Perianu, Catalin Andrei Tugui, Manuela Cristina Perju
Materials and Method Deposition
Base materials.
These materials are used in hydraulic vanes that come into contact with water containing abrasive particles [10].
The ability to store materials with very high melting temperatures, such as WC, that cannot be effectively applied by other conventional methods.
Aydin, Hydro-abrasive erosion resistance of C45 steel in different heat-treated states on a designed wear test apparatus, Materials Testing (2010), 323-331
Wegener, Comprehensive distortion analysis of a laser direct metal deposition (DMD)-manufactured large prototype made of soft martensitic steel 1.4313, Journal of Manufacturing and Materials Processing (2024), 78
These materials are used in hydraulic vanes that come into contact with water containing abrasive particles [10].
The ability to store materials with very high melting temperatures, such as WC, that cannot be effectively applied by other conventional methods.
Aydin, Hydro-abrasive erosion resistance of C45 steel in different heat-treated states on a designed wear test apparatus, Materials Testing (2010), 323-331
Wegener, Comprehensive distortion analysis of a laser direct metal deposition (DMD)-manufactured large prototype made of soft martensitic steel 1.4313, Journal of Manufacturing and Materials Processing (2024), 78
Online since: March 2014
Authors: Johny Wahyuadi Soedarsono, Bambang Suharno, Badrul Munir, Vika Rizkia, Andi Rustandi
[8] j. hou, chung, journal of materials science, 32 (1997) 3113-3121
Ahmad, in: International Conference on Sustainable Materials 2007, 2007
Cai, Materials Letters, 62 (2008) 2441–2443
Shahid, Journal Of Materials Science, 32 (1997) 3775-3781
Cao, Materials Chemistry and Physics, 76 (2002) 228–235
Ahmad, in: International Conference on Sustainable Materials 2007, 2007
Cai, Materials Letters, 62 (2008) 2441–2443
Shahid, Journal Of Materials Science, 32 (1997) 3775-3781
Cao, Materials Chemistry and Physics, 76 (2002) 228–235
Online since: September 2015
Authors: G.N. Arjun, T.L. Lincy, T.S. Sajitha, Deepa Devapal, S. Bhuvaneshwari, Thomas Deepthi
Reddy, Effect of low earth orbit atomic oxygen on spacecraft materials.
Journal of Materials Science 30 (1995) 281–307
Journal of materials science 30 (1995) 308–320
Journal of Applied polymer science 94 (2004) 2368-2375
Journal of materials science 41 (2006) 5764-5766.
Journal of Materials Science 30 (1995) 281–307
Journal of materials science 30 (1995) 308–320
Journal of Applied polymer science 94 (2004) 2368-2375
Journal of materials science 41 (2006) 5764-5766.
Online since: October 2011
Authors: Min Qiang Xu, Jian Hua Sun, Xian Wei Zhang, Chun Rong Wei
Solid explosive-barrier devices technical scheme
Objectives that solid explosive-barrier devices are expected to achieve: ①The explosive-barrierdevices is solid materials;②Automatic control and executive function; ③Speeding in milliseconds; ④No hindering the normal production of coal heading face;⑤No posing new security risk.
Technical solutions shown in figure 1: Fig.1 Solid explosive-barrier devices technical scheme Two layers of solid materials are selected,solid material A and solid material B.A attenuates shock wave and isolates flame .
Rely on resistance blasting door of solid materials to block roadway pathways, prevent burning, explosion fire and pressure along the roadway spread, prevent burning, explosion hazard enlargement.
Because the resistance explosion door and the resistance blasting board are the solid resistance materials which have the damping function of the shock wave of gas explosion and the flame to reduce the harm of gas and dust explosion, when many groups are established, we can control the harm of the shock wave of the gas explosion and the flame in the acceptable scope.
Acknowledgement It is a project supported by the High-Tech Research and Development Program of China (863 Program) (2008AA12A214).East coal electrical-controlled project of Heilongjiang province References [1] Khan Faisal I, Abbasi SA:Journal ofLossPreven-tion in theProcess Industries Vol.12(1999), p.361-378 [2] Boquan Lin and Bohui Chen:Journal of China University of Mining and Technology Vol. 1(2000) ,p.45-47, in Chinese [3] Congyin Wang and Xueqiu He:China Safety Science Journal Vol. 11(2001), p.60-64, in Chinese [4] Baisheng Nie,Xueqiu He and Jinfeng Zhang:Journal of China Coal Society Vol. 33(2008), p.903 -907, in Chinese [5] Jianliang Yu, Wei Meng and Yajie Wang: Energetic Mater Ials Vol. 13(2005),p.416-421, in Chinese [6] Zhouquan Cai and Huimin Li:Mining Safetyand Environmental Protection Vol. 33(2006),pp.15-17, in Chinese [7] Ying Wang,Ruiyun Ren and Hongyu Jiang:Mining Machinery Vol.13(2005),p.30-31,in Chinese
Technical solutions shown in figure 1: Fig.1 Solid explosive-barrier devices technical scheme Two layers of solid materials are selected,solid material A and solid material B.A attenuates shock wave and isolates flame .
Rely on resistance blasting door of solid materials to block roadway pathways, prevent burning, explosion fire and pressure along the roadway spread, prevent burning, explosion hazard enlargement.
Because the resistance explosion door and the resistance blasting board are the solid resistance materials which have the damping function of the shock wave of gas explosion and the flame to reduce the harm of gas and dust explosion, when many groups are established, we can control the harm of the shock wave of the gas explosion and the flame in the acceptable scope.
Acknowledgement It is a project supported by the High-Tech Research and Development Program of China (863 Program) (2008AA12A214).East coal electrical-controlled project of Heilongjiang province References [1] Khan Faisal I, Abbasi SA:Journal ofLossPreven-tion in theProcess Industries Vol.12(1999), p.361-378 [2] Boquan Lin and Bohui Chen:Journal of China University of Mining and Technology Vol. 1(2000) ,p.45-47, in Chinese [3] Congyin Wang and Xueqiu He:China Safety Science Journal Vol. 11(2001), p.60-64, in Chinese [4] Baisheng Nie,Xueqiu He and Jinfeng Zhang:Journal of China Coal Society Vol. 33(2008), p.903 -907, in Chinese [5] Jianliang Yu, Wei Meng and Yajie Wang: Energetic Mater Ials Vol. 13(2005),p.416-421, in Chinese [6] Zhouquan Cai and Huimin Li:Mining Safetyand Environmental Protection Vol. 33(2006),pp.15-17, in Chinese [7] Ying Wang,Ruiyun Ren and Hongyu Jiang:Mining Machinery Vol.13(2005),p.30-31,in Chinese
Online since: September 2021
Authors: Paul Eric C. Maglalang, Blessie A. Basilia, Araceli Magsino Monsada
The Use of Composite Materials in 3D Printing.
Journal of Composite Science, 4, 42, 1-22.
Use of Composite Materials for FDM 3D Print Technology.
Materials Science Forum, 862, 174–181.
Materials, 10, pages 1-16.
Journal of Composite Science, 4, 42, 1-22.
Use of Composite Materials for FDM 3D Print Technology.
Materials Science Forum, 862, 174–181.
Materials, 10, pages 1-16.
Online since: October 2018
Authors: Dong Hui Yang, Si Yu Wei, Lei Wang, Chang Wei Yao
Science and Technology of Advanced Materials. 2005, 6(3-4): 312-318
Journal of Materials Science. 2017, 52(2): 1106-1122
Journal of Materials Chemistry, 2009, 19(36):6451-6464
Materials, 2009, 2(4):61-70
Journal of Materials Processing Technology, 1998, 83(1-3):115-120
Journal of Materials Science. 2017, 52(2): 1106-1122
Journal of Materials Chemistry, 2009, 19(36):6451-6464
Materials, 2009, 2(4):61-70
Journal of Materials Processing Technology, 1998, 83(1-3):115-120
Online since: March 2012
Authors: Hong Lei Jia, Bao Gang Wang, Yun Hai Ma, Jin Tong, Fu Dong Lin
All raw materials were mixed using a blender (EBR100, Electrolux) for 10 min.
Composites Science and Technology, 67( 2007) 2707-2714
Materials Chemistry and Physics, 129( 2011) 275-280
Journal of Materials Processing Technology, 183( 2007) 155-159
Wear performance and wear debris of semimetallic automotive brake materials.
Composites Science and Technology, 67( 2007) 2707-2714
Materials Chemistry and Physics, 129( 2011) 275-280
Journal of Materials Processing Technology, 183( 2007) 155-159
Wear performance and wear debris of semimetallic automotive brake materials.
Online since: August 2017
Authors: M. Mary Jaculine, D.J. Vidhya Raj, J. Ermine Jose, S. Jerome Das, L. Ansel Mely, K. Raja, P. Annie Vinosha
Jerome Das, Zinc stannate nanoflower (Zn2SnO4) photoanodes for efficient dye sensitized solar cells, Materials Science in Semiconductor Processing 25 (2014) 52-58
Nagaraju, Growth and photovoltaic performance of SnS quantum dots, Materials Science and Engineering: B 177 13 (2012) 1023-1028
[18] Yanbao Zhao, Zhijun Zhang, Hongxin Dang, Weimin Liu, Synthesis of tin sulfide nanoparticles by a modified solution dispersion method, Materials Science and Engineering: B 113 2 (2004) 175-178
Jerome Das, Hydrothermal synthesis of zinc stannate nanoparticles for antibacterial applications, Journal of Taibah University for Science 10 4 (2016) 601-606
Ruck, Andreas Markwitz, Murmu, Characterization of the structural and electrical properties of ion beam sputtered ZnO films, In Materials Science Forum, 700 49-52.
Nagaraju, Growth and photovoltaic performance of SnS quantum dots, Materials Science and Engineering: B 177 13 (2012) 1023-1028
[18] Yanbao Zhao, Zhijun Zhang, Hongxin Dang, Weimin Liu, Synthesis of tin sulfide nanoparticles by a modified solution dispersion method, Materials Science and Engineering: B 113 2 (2004) 175-178
Jerome Das, Hydrothermal synthesis of zinc stannate nanoparticles for antibacterial applications, Journal of Taibah University for Science 10 4 (2016) 601-606
Ruck, Andreas Markwitz, Murmu, Characterization of the structural and electrical properties of ion beam sputtered ZnO films, In Materials Science Forum, 700 49-52.
Online since: September 2016
Authors: Apiluck Eiad-Ua, Khattiya Chalapat, Peerawith Sumtong
., Ladkrabang, Bangkok, Thailand 10520
ap.sumtong@gmail.com, bapiluck.ei@kmitl.ac.th, ckchalapat@gmail.com
Keywords: Aluminum Oxide, Anodic Aluminum Oxide (AAO), Nanoporous Materials, Anodization, Nano-Filters, Nanomaterials, Nanoelectronics
Abstract.
Fawcett, “Progress in Nano-Engineered Anodic Aluminum Oxide Membrane Development”, Materials, vol.4, pp. 487-526, Feb. 2011
Bojara, “Fabrication of anodic aluminum oxide with incorporated chromate ions”, Applied Surface Science, vol. 259, pp. 324-330, Jul. 2012
Cauda, “The Effects of the Film Thickness and Roughness in the Anodization Process of Very Thin Aluminum Films,” Journal of Materials Science & Nanotechnology, vol. 1, pp. 1-9, Jul. 2014
Wong, “Decoupling two-step anodization in anodic aluminum oxide,” Journal of Applied Physics, 106, 104305 (2009) [13] O.
Fawcett, “Progress in Nano-Engineered Anodic Aluminum Oxide Membrane Development”, Materials, vol.4, pp. 487-526, Feb. 2011
Bojara, “Fabrication of anodic aluminum oxide with incorporated chromate ions”, Applied Surface Science, vol. 259, pp. 324-330, Jul. 2012
Cauda, “The Effects of the Film Thickness and Roughness in the Anodization Process of Very Thin Aluminum Films,” Journal of Materials Science & Nanotechnology, vol. 1, pp. 1-9, Jul. 2014
Wong, “Decoupling two-step anodization in anodic aluminum oxide,” Journal of Applied Physics, 106, 104305 (2009) [13] O.
Online since: June 2012
Authors: Shi Qiong Zhou, Li Hao, Ze Guo Liu, Gui Fang Guo, Liang Wang
The research is supported by a grant from National Natural Science Foundation of China (No. 51166012).
Bergheau: A new local/global approach for the modelling of welded steel component distortions, In: The institute of Materials, London, p.573-590(2002)
Bergheau: Modelling of bimetallic welds, In: The institute of Materials, London, p.769-791(2002)
[9] ANSYS Lab-Material Nonlinearity. http://www.asiri.net/courses/meng412/Lab
International Journal of Material Forming, vol.1,p.367-370 (2008).
Bergheau: A new local/global approach for the modelling of welded steel component distortions, In: The institute of Materials, London, p.573-590(2002)
Bergheau: Modelling of bimetallic welds, In: The institute of Materials, London, p.769-791(2002)
[9] ANSYS Lab-Material Nonlinearity. http://www.asiri.net/courses/meng412/Lab
International Journal of Material Forming, vol.1,p.367-370 (2008).