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Apostolakis: Science.
Lv: Chinese Journal of Computational Mechanics.
Luo: Journal of Mechanical Engineering.
Li: Chinese Journal of Geotechnical Engineering.
Li: Journal of System Simulation.

Beijing: Science Press, 2007.
Journal of Mechanical Engineering, 2009, 45(5): 39-44.
Journal of Shanghai Railway Institute, 1992, 13(3): 17-28.
Journal of Shanghai Railway Institute, 1994, 16(3): 95-99.
Chinese Journal of Mechanical Engineering, 2008, 44(3): 64-69.

Udofia, Review of electrical energy losses in Nigeria, Nigerian Journal of Technology (2020) 246-254
Bashi, Online loss minimization in distribution system incorporating SSS with particle swarm, International Journal of Advance Engineering Research and Science (2016) 170-174 [10] I.S.
International Journal of Electrical and Electronics Engineering Research (2013) 59-64
International Journal of Computer Applications, National Conference on Advancements in Alternate Energy Resources for Rural Applications. (2015) 17-19 [14] S.A.
Shar, Energy efficiency and reliability in electrical distribution network by implementing high voltage distribution system, International Journal of Engineering Science & Research Technology (2018) 164-180 [15] BEDC, Monthly substations report, Benin Electricity Distribution Company Limited, Ado-Ekiti, unpublished. (2021).

Duplication error and repeated error analysis of micro-hole array fabrication by EMM Ying Liu1, Weiliang Zeng1,a, Zhenlong Wang1,2 1 Information Science Department, Harbin Normal University, Harbin, China 2 School of Mechatronics Engineering, Harbin Institute of Technology, Harbin, China a zengwl1002@126.com Keywords: micro-hole array, EMM, duplication error, repeated error, machining gap Abstract.
Introduction In recent years, with the development of modern science toward miniaturization, the role of micromachining technology is also increasingly important.
Non-traditional machining (NTM) is the foreland of machine manufacture for its property of processing without macro-forces, so it develop rapidly and applicate more and more widely, especially in hard machining materials, complex shape, and thin wall parts[1].
The size of the gap influences the material elimination of workpiece greatly.
Munda: Journal of Materials Processing Technology, Vol.140 (2003),pp.287

Müller2 1 College of Materials Science, Northwestern Polytechnical University, Xian 710072, P.
This technology combines the advantages of standard silicon wafer-based technology, namely ruggedness, durability, good electronic properties and environmental soundness with the advantages of thin-films, specifically low material use, large monolithic construction and a desirable glass substrate configuration.
Lee, and et al, Solar Cells and Solar Energy Materials. 80 (2004) 220-225 [3] B.
Yang, Journal of Rare Earths. 23 (2005) 228-230 [4] A.
Schmid-Fetzer, Materials Science and Engineering, B34 (1995) 224-228 [8] M.

Material property, module of elasticity E=210GPa, Poisson's ratio mu=0.3.
Acknowledgment This work is supported by the Tianjin and Ministry of Education Key Laboratory of Advanced Textile Composite Materials Foundation under Grant 50375091 and the Science & Technology Research Foundation for Key Program of Ministry of Education of China.
Mukha: Bulletin of the Polish Academy of Sciences, Tech.
Erzincanli: Materials and Design, Vol. 28 (Feb, 2007), p.441 [5] H.N.
(in Chinese) [7] Liu WZ, Guo BD, Li Q, Li WG: Journal of inner hongolia polytechnic university Vol. 22 (Jan. 2003), p.67

Journal Citation (to be inserted by the publisher) Copyright by Trans Tech Publications Polymer- stabilized Co Nanocrystals.
O'Connor1 , Vladimir Golub 1 , Cuiying Wang 1 , Moo-Jin Jun 3 1 Advanced Materials Research Institute, University of New Orleans New Orleans, LA70148, USA 2 Nano-Material Research Center, Korea Institute of Science and Technology P.O box131, Cheongryang, Seoul 130-650, Korea 3 Department of chemistry, Yonsei University, Seoul, Korea Keywords: Thermal-decomposition, Polymer-stabilized Co Nanocrystals, Seed-mediated methods.
Introduction Nanostructured transition metal crystals are excellent samples of advanced materials.
Cobalt octacarbonyl was purchased from Gelest, poly (N-vinyl pyrrolidone) (PVP, Mw ≈ 2500) from Polysciences, trioctylphospine (90 %) from Aldrich, and ethylene glycol (98 %) from EM Science.
Granqvist: Handbook of Inorganic Electrochromic Materials (Elsevier, Amsterdam, 1995)

However, as reinforcements for manufacturing high performance composite materials, carbon fibers have poor wettability and adsorption with most polymers because carbon fiber (CF) surface is non-polar and compound of highly crystallized graphitic basal planes with inert structures [2].
Experiment Materials and Surface Treatment.
Zhou: Polymer-Plastics Technology and Engineering Vol. 50 (2006), p. 260 [3] K.Ma, et al.: Applied Surface Science.
Davis: Journal of Physics and Chemistry of Solids Vol. 69 (2008), p. 2932 [8] H.
Liu: Materials Letter 63 (2009), p. 1531

SPH analysis on formation manner of wavy joint interface in impact welded Al/Cu dissimilar metal plates Junto Nishiwaki1,a*, Yuya Sawa1,b, Yohei Harada1,c and Shinji Kumai2,d 1 Department of materials Science and Engineering, Tokyo Institute of Technology, 4259 Nagatsuta-cho Midori-ku, Yokohama, 226-8502, Japan 2 Department of Metallurgy and Ceramics Science, Tokyo Institute of Technology, 2-12-1 O-okayama Meguro-ku, Tokyo, 152- 8552, Japan aemail, nishiwaki.j.aa@m.titech.ac.jp, bemail, sawa.y.aa@m.titech.ac.jp cemail, harada.ah.ah@m.titech.ac.jp, demail, kumai.s.aa@m.titech.ac.jp Keywords: Explosive welding, Intermediate phase, Al/Cu, Cu/Ni.
The present authors also simulated the impact welding for various material combinations and collision velocities.
Physical, chemical, and mechanical properties of the materials were selected from the built-in material library of the software.
SPH method works by dividing the material into a set of discrete elements, referred to as particles.
Guinan, A constitutive model for metals applicable at high-strain rate, Journal of Applied Physics, 51 (1980) 1498–1504

Synthesis of Nanosized TiO2-Ag-SiO2 Sols by Modified Sol-Gel Method and Their Application for Methane Hydrate Formation Ju Dong Lee1, Hyoung-Chan Kim 2, Young Seok Kim 1, Yangdo Kim 3 and Man Sig Lee1,a 1 Korea Institute of Industrial Technology, Busan Research Center, Advanced Manufacturing Technology Team, Jangjeon-dong, Geumjeong-gu, Busan 609-735, Korea 2 School of Materials Science and Engineering, Seoul National University, San 56-1, Sillim-dong, Gwanak-gu, Seoul 151-742, KOREA 3 School of Materials Science and Engineering, Pusan National University, Jangjeon-dong, Geumjeong-gu, Busan 609-735, Korea a Corresponding author: lms5440@kitech.re.kr Keywords: nanosized TiO2-Ag-SiO2 sol, sol-gel method, methane hydrate, promoter Abstract.
Introduction Particles smaller than tens of nanometers in primary particle diameter (nanoparticles) are of interest for the synthesis of new materials because of their low melting point, special optical properties, high catalytic activity, and unusual mechanical properties compared with their bulk material counterpart[1].
Mohseni, Journal molecular catalysis, 242, (2005), p.135 [3] K.