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Evaluation of Ni62Nb38 Bimetallic Glass Formation under Hydrostatically Pressurised Quenching Mouparna Manna1,a, Snehanshu Pal2,b* 1Department of Physics, Birla Institute of Technology, Mesra, India 835215 2Department of Metallurgical and Materials Engineering, National Institute of Technology, Rourkela, India 769008 amouparnamanna26@yahoo.in; bpals@nitrkl.ac.in *Corresponding Author: Dr.
Introduction Metallic Glasses (MGs), discovered several decades before [1], are a class of materials with no long range translational order and orientational order aswell, and this ordering plays ambiguous role in glass transition [2].
Understanding dynamics of supercooled liquids have attracted substantial scientific exploration which spawned the materials and manufacturing engineering.
Voronoi tessellation analysis proves to be a powerful tool for demonstrating the local atomic ordering in amorphous materials.
Furthermore, the insights derived in this work suggests the potential functional properties of Ni62Nb38 MG and utilisation as Future Materials.

Analysis on the Contact Interaction between Thresher and Corn Ears based on the DEM Yu Yajun1, a, Yu Jiyang1, b, Li Qinglong1, c, Yu Jianqun1,d and Fu Hong2,e 1 School of Biological and Agricultural Engineering, Jilin University, Changchun 130022, China; 2 College of Computer Science and Technology, Jilin University, Changchun 130012, China ayy19830202@yahoo.com.cn, bjyyu11@mails.jlu.edu.cn, cqlli11@mails.jlu.edu.cn, dyujianqun@jlu.edu.cn, efuhong@jlu.edu.cn Keywords: DEM, Optimal Design, Corn Ear, Grain Threshing, Simulation Analysis.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51175219) and Jilin University Key Laboratory of Bionic Engineering of Ministry of Education Open Fund (K2010082).
Biosystems Engineering, 2008, 99: 532-539 [2] Miu P I, Kutzbach H D.
Transactions of the Chinese Society of Agricultural Engineering, 2012, 28(8): 167-174 [6] Yu Yajun, Yu jianqun, Chen Zhong, et al.
Journal of Jilin University (Engineering and Technology Edition), 2012, 42(4): 997-1002 [9] Wu Xuanchen.

Exoskeletal robot technology for upper limbs rehabilitation is a new interdisciplinary research field of mechanical engineering and medical rehabilitation at present.
[5] Sugar T G, He Jiping, Koeneman E J, et al., “Design and control of RUPERT: A device for robotic upper extremity repetitive therapy”, IEEE Trans. on Rehabilitation Engineering, Vol. 15, No. 3, 2007, pp. 336-46
[10] Krebs H I, Hogan N, Aisen M L, et al., “Robot-aided neurorehabilitation”, IEEE Transactions on Rehabilitation Engineering, Vol. 6, No. 1, 1998, pp. 75-87
[11] Schmidt H, Hesse S, Werner C, et al., “Upper and lower extremity robotic devices to promote motor recovery after stroke-recent developments”, Proc. 26th IEEE International Conference on Engineering in Medicine and Biology Society, 2004, pp. 4825-28
[15] Zhang H H, Wang J, Yang H C, “Surface electromyographic dynamics during biceps brachii eccentric and concentric contractions”, Journal of Zhejiang University(Engineering Science), Vol. 40, No. 11, 2006, pp. 1937-41

Chinese Internal Combustion Engine Engineering Vol. 28 (2007), p. 82-84.
Proceedings of the 2009 International Conference on Advances in Construction Machinery and Vehicle Engineering (2009).
Chinese Internal Combustion Engine Engineering Vol. 33 (2012), p. 45-51.
Chinese Internal Combustion Engine Engineering Vol. 6 (2003), p. 18-21.
Feed and Industrial Raw Material (2007) p. 350-353.

Influence of Restraining Stiffness on Mechanical Properties of Suspen-Dome Jiamin Guo 1,a, Shilin Dong 2,b,Xingfei Yuan2,c, Yongli Hou3,d 1College of Ocean Environment and Engineering, Shanghai Maritime University, Shanghai, 200135,China; 2Space Structures Research Center, Zhejiang University, Hangzhou 310027, China 3Civil Engineering Institute, Inner Mongolia University of Technology,Huhhot, 010051, china aguojiamin@zju.edu.cn.com , b dsl2008@zju.edu.cn,c yuanxf@zju.edu.cn,d yl_hou@163.com Keywords：Radial Restraining Stiffness; Suspen-Dome; Mechanical Response; Single Layer Lattice Shell Abstract: Suspen-dome is a kind of large-span prestressed hybrid structure, To understand the influence of radial restraining stiffness to structural mechanical response, and to ensure radial restraining stiffness reliable during designing, a rib 3 type suspen-dome and corresponding single layer lattice shell were selected, their static response under different radial restraining stiffness were
The important parameter that influence mechanical response of suspen-dome include: structural geometrical configuration, element section character, material character, prestress value, radial restraining stiffness[5-6].
(a) Suspen-dome and single layer lattice shell when KR=0 (b) Suspen-dome and single layer lattice shell when KR =∞ (c) Single layer lattice shell under different KR (d) Suspen-dome under different KR Fig.5 Key points displacement under different radial constrain It can be seen from Fig. 5, vertical displacement of suspen-dome are almost 10% that of single layer lattice shell when KR is equal to zero.
China Civil Engineering Journal,2009,41(12):1-7.
Earthquake Engineering and Engineering Vibration,2005,25(1):67-75.

Roga2, b 1Professor, Department of Mechanical Engineering, NIT Silchar, Assam-788010, India 2Research Scholar, Department of Mechanical Engineering, NIT Silchar, Assam-788010, India akmpandey2001@yahoo.com, bsukanta.me42@gmail.com Keywords: CFD, hydrogen fuel, scramjet combustor, ramp injector, supersonic combustion.
Introduction Scramjet is the key enabling technology for hypersonic flights.
Fig.1: Ramp Injectors Material and Methods.
Sivasakthivel, CFD Analysis of Mixing and Combustion of a Hydrogen Fueled Scramjet Combustor with a Strut Injector by Using Fluent Software, IACSIT International Journal of Engineering and Technology, Vol. 3, No. 5, (October 2011)
Singh, Computational Analysis of Supersonic Combustion Using Wedge-Shaped Strut Injector with Turbulent Non-Premixed Combustion Model, International Journal of Soft Computing and Engineering (IJSCE) ISSN: 2231-2307, Volume-2, Issue-2, PP.344-353, (May 2012)

Comparison of Non-Covalent Interactions Between a Series of N-Phosphoryl Dipeptide or Methyl Esters and Cytochrome C by Electrospray Ionization Mass Spectrometry* Liming Qiang1, Xuru Dong1, Mingxiu Lü 1, Kui Lu1*,Yufen Zhao2,3,Shuxia Cao3 1Department of Material and Chemical Engineering Henan Institute of Engineering Zhengzhou, Henan Province 450007, China 2College of Chemistry and Chemical Engineering Xiamen University Xiamen, Fujian Province 361005, China 3Department of Chemistry Zhengzhou University Zhengzhou, Henan Province 450052, China qianglm@yahoo.com.cn, csx@zzu.edu.cn Keywords: N-Phosphoryl dipeptide (or methyl esters); non-covalent weak interaction; cytochrome C; ESI-MS Abstract.
The key factors influencing their complexes were discussed.
D09004) and the program for innovative research team (No. 2009IRTHNIE05) in Henan Institute of Engineering and Zhengzhou University for financial support and help in sample testing.
Lu; this work is also partially supported by the Doctor Foundation #D09004 and the program for innovative research team #2009IRTHNIE05 in Henan Institute of Engineering to L.

Research on a Removing Fouling Technology for the Sewage Heat Exchanger Zhao-yi Zhuang1,a, Hong-xia Xiao2,b, Xiao-xin Liu1,c, De-xing SUN1,d 1School of Municipal and Environmental Engineering, Harbin Institute of Technology, Harbin, 150090, China 2Department of Energy and Power Engineering, Shenyang Institute of Engineering, Shenyang, 110136, China ahit6421@126.com, bxiaohongxia05@sina.com, cliuxiaoxin@126.com, dsundx0331@sina.com Keywords: Sewage Heat Exchanger; Remove Fouling; Draw-ring; Heat Transfer Abstract.
However, the key technical difficulty of using the non-clean water as the low cool and heat source is how to prevent sewage to block and pollute the pipe of the heat exchanger.
(2) Cable: Cable would be wire rope, chain or new material rope.
Petroleum Refinery Engineering, 24, 3(1994), p: 57-62
Chinese Journal of Mechanical Engineering, 37, 7 (2001), p: 41-43

Experimental Study on Critical Stress for Sediment Incipient Motionin Deep Channel of North Passage of Yangtze River Estuary Qixiu Panga, Chunpeng Wenb, Ruibo Zhangc Tianjin Research Institute for Water Transport Engineering, Key Laboratory of Engineering sediment of Ministry of Transport, Tianjin 300456, China apangqixiu@163.com, bwencp25@sina.com,creberry@126.com Keywords: Yangtze River estuary; Deep channel; Sediment; Incipient motion; Critical stress; Flume experiments Abstract.
Butfor engineering practice, it is significant only when a large number of sediment is suspended to water.Therefore, in these experiments, the sediment incipient motion is defined as the sediment suspending generally and the concentration surveyed by the OBS increasing evidently.The experimental phenomena are as followed
Proceedings of the Conference on Hydraulic Modeling Applied to Maritime Engineering Problems, ICE, London, England(1981): 47-55
Effects of bed material properties on cohesive sediment erosion.
Journal of Hydraulic Engineering, (1998),29(8): 47-51

The key is to adopt Xiaotong production technology according to local conditions according to Xiaotong reservoir
[7] Xiong Biao, heavy oil recovery technology and prospect [J], chemical engineering equipment, 2016.02:169-171
System engineering theory and practice, 2014,34 (2): 538-544
New materials and new technologies, 2016, 42 (10): 46-49
Research and analysis of thermal oil recovery engineering technology [J].