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Deng: Key Engineering Materials, Vol. 579-580 (2014), p. 335-339

The Research and Implementation of Virtual Training System Based on DIVISION Mockup and Position Tracker Wusha Huanga, Qiang Chenb , Minzhuo Wangc ,Haonan Yed Department of System and Control Engineering, Nanjing University, Nanjing, 210093, China aemail: huangwusha1987@163.com bemail:chenqia0772@vip.sina.com cemail: njuwangminzhuo@gmail.com demail: echodarkness@sina.cn Keywords: virtual reality, virtual training, DIVISION Mockup, position tracker, hydraulic pump cart.
As an important application of VR, virtual training system is widely used in aerospace, military, manufacture, engineering and other fields.[3-6] In traditional training mode, trainers and trainees need to be in a specific circumstance and make face-to-face contact.
In order to make the model of the hydraulic pump cart lifelike and easy to browse, the landmark scenes, light, virtual material and the behavior property are set up in the DIVISION Mockup software.
DefineDevice FOB fobirds 1 //the peripheral’s name is FOB DeviceOption FOB port com2 //FOB is connected to the computer via com2 port DeviceOption FOB baud 38400 //the baud rate is 38400 DefineDevice Work wanda //the next peripheral’s name is wanda DeviceOption Work port com3 //wanda is connected to the computer via com3 port DefineConnector Shm1 shm out 1 //define the shared memory, sensor number and //the direction of data flow ConnectorOption Shm1 key 4126 //define the mark of the memory address The RapidVRM software is an up-to-the-minute powerful interface that connects with DIVISION Mockup and Trackd10.
International Conference on Electrical and Control Engineering, China (2010).

Box 10, 00015 Montelibretti, Roma, Italy 3Department of Industrial Engineering, University of Rome “Tor Vergata”, 00133 Roma, Italy amatteo.amati@elettra.eu, bbalijepallisantosh@gmail.com, calessio.mezzi@ismn.cnr.it, dsaulius.kaciulis@ismn.cnr.it, eroberto.montanari@uniroma2.it, falessandra.varone@uniroma2.it Keywords: Liquid Pb-Bi eutectic alloy, short range order, micro-chemical inhomogeneity, HT-XRD, XPS, SPEM.
The compatibility of structural materials with liquid LBE at high temperature is one of the key issues for the commercialization of such fast reactors: liquid metal corrosion and embrittlement are the main problems [3-5].
Of course, the cooling rate depends on the distance from the surface where the material experiences the fastest temperature change.
Piero Plini of the Department of Industrial Engineering, University of Rome “Tor Vergata”, for the preparation of the samples used in SPEM experiments.
Bogaerts, Liquid metal corrosion of T19 and A316L materials in Pb-Bi eutectic at temperatures 400-600 °C, Corrosion Science 48 (2006) 577-594

In both cases, the repair geometry such as fasteners size and type, repair plate material and thickness, and parent structure material and thickness are accurately captured.
The above repair scenarios demonstrate how the RAM [3] has enabled the design engineer to perform a rapid DTA.
In the absence of the RAM the design engineer would have to resort to performing a time consuming in-depth DTA.
The design engineer would require a clear understanding of both CI and CG life methodologies.
For CG life the design engineer would need to be proficient in calculating Stress Intensity Factors, Material da/dN vs ΔK curves, SMA spectrum, etc.

Solubility and biological properties of these calcium phosphate materials depend strongly on crystal size, ionic impurities, specific surface area and both macroporosity and microporosity [10].
In 1995, Lehtinen patented [37] the use of bisphosphonates (e. g. clodronate) for the treatment of endo-osteal materials, including titanium or titanium alloy implants coated with a HAp bonebinding layer, that were found to induce a more rapid bone remodeling than untreated implants, when implanted in rabbit tibiae.
Journal of Biomedical Materials Research, Vol.51(4), p.680-684
Key Engineering Materials, Vol.284-286, p.129-132
"Method of treating endo-osteal materials with a bisphosphonate solution."

Experimental Section Materials.
Results and Discussion FTIR analysis of raw materials and the prepared composites.
X-ray diffraction analysis of raw materials and prepared composites.
Adekola, Engineering Review Food Extrusion Technology and Its Applications,J.
Rajarajan, Native cellulose: Structure, characterization and thermal properties, Materials. 7 (2014) 6105-6119

Key Laboratory of Measurement and Control of Complex Systems Engineering, Ministry of Education, Southeast University, Nanjing 210096, China. 2 Department of Transportation, Jiangsu University, Zhenjiang 212013, China a zeropoint@ujs.edu.cn Keywords: Knowledgeable manufacturing cell; Job-shop; Constraint guided; Self-learning Abstract: The job-shop-like knowledgeable manufacturing cell scheduling is a NP-complete problem and there has not been a completely valid algorithm for it until now.
There are kinds of knowledgeable manufacturing cells in KMS such as the modules of manufacturing agents, material transportation equipment agents, industry field bus agents and scheduling decision agents etc.
IEEE Transactions on Knowledge and Data Engineering, 2006, 18(1):47-62
System Engineering—Theory & Practice, 2010, 30(6):1067-1076(in Chinese)

Liu College of Mechanical Engineering, Guangxi University, Nanning 530004, People's Republic of China, E-mail: glenlzj@126.com Keywords: Francis turbine-generator, nonlinear vibration, frequency reliability Abstract.
Fig.2 Diagram of the main shaft system of Francis turbine-generator units Turbine guide bearing Turbine runner Lower guide bearing Generator rotor Upper guide bearing Thrust bearing 34U 32U 24U 14U 17U 7 6 4 3 2 1 15U 13U 6U 2U 1U Z Y X 30U 3U 4U 12U 18U 33U 5U 7U 8U 9U 10U 11U 16U 19U 20U 21U 22U 23U 25U 26U 27U 28U 29U 31U 35U 5 OBy the finite element method, the dynamic equations of the main shaft system of Francis turbine-generator unit can be expressed as [8]: 0X 11 1 2 0 0 T T 3 0 1 2 0 T 3 0 12 0 13 0 M ( ) [ g g cos t J g sin t cos t sin t cos t sin t ] ε ε ε ε ε ε ε ε ε ε + − = ε − + + Ω − Ω + + Ω − Ω + Ω + Ω − MU K K U F MU MU MU MU MU U K U MU U K U MU U K U K U K U CU && & + (1) where M , C , K are respectively the 35th-order mass matrix, damping matrix and stiffness matrix of the system, which are related to the structural parameters and the material
Acknowledgement The research was supported by the National Natural Science Foundation of China (No.50565001), Guangxi Natural Science Foundation of China (No. 0991055) and Director Project of Guangxi Key Laboratory of Manufacturing System & Advanced Manufacturing Technology (No. 07109008_003_Z).
Cai: Chinese Journal of Mechanical Engineering Vol. 18(2) (2005), p. 302 [2] C.G.
Zhang: Journal of Hydroelectric Engineering Vol. 25(4) (2006), p. 139 (In Chinese)

Microstructure and Tensile Deformation Behavior of a Hot-rolled Directly Quenched and Dynamically Partitioned Steel Containing Proeutectoid Ferrite Xiaodong Tan1, a*, Yunbo Xu1, b, Xiaolong Yang1, c, Zhiping Hu1, d, Fei Peng1, e, Xiaowei Ju2, f, Yongmei Yu3, g and Di Wu1, h 1State Key Laboratory of Rolling Technology and Automation, Northeastern University, No. 11, Lane 3, Wenhua Road, Heping District, Shenyang, Liaoning 110819, China 2CERI LONG PRODUCT CO., LTD., A-18 Tongjinan Road Beijing Economic-Technological Development Zone, Beijing 100176, China 3School of Mechanical Engineering, Shenyang University of Chemical Technology, No. 11 Street, Shenyang Economical &Technological Development Zone, Shenyang, Liaoning 110142, China atanxiaodong163@163.com, byunbo_xu@126.com, ce21303086@163.com,dhzp535368926@126.com, epengfeiral@126.com, fjuxiaowei@ceri.com.cn, gyongmei_yu@126.com, hwudi@mail.neu.edu.cn Keywords: HDQ&DP steel, Proeutectoid ferrite, Microstructure, Mechanical property
Experimental Material and Procedure The steel with the chemical composition reported in Table 1 was produced using a vacuum induction furnace.
(a) (b) Fig. 6 Mechanical properties of the tested specimens Fig. 7 shows the engineering stress-strain curves and corresponding work hardening rate curves accompanying with true stress-strain curves of the tested specimens.
(b) (a) Fig. 7 Engineering stress-strain curves and work hardening rate curves accompanying with true stress-strain curves of the tested specimens Conclusions HDQ&DP processes were applied to a low carbon steel.

Development of Electric Rust Preventive Machining Method - Improvement of Electric Rust Preventive Chip Sedimentation System - N Nishikawa1, a, Y Sato1, F Andou1, T Sawa2, Y Hagihara1, H Kato1, N Yoshihara1, H Okawai1, T Murase1, T Iyama1, M Mizuno1 and S Tsukamoto3 1Faculty of engineering, iwate university, 4-3-5 ueda, morioka, iwate, 020-8551, Japan 2Department of Mechanical Engineering, Tokyo Denki University, 5 Senju-asahicho, Adachi-ku, Tokyo, 120-0026, Japan 3Faculty of engineering, okayama university, 3-1-1 tsushima-naka, okayama, okayama, 700-8530, Japan ankawa@iwate-u.ac.jp Keywords: electric rust preventive machining method, environmental harmonic machining, grinding, cutting, machining, machining fluid, effluent treatment, water machining, sludge, chip, iron, rust, water, recycle, turbidity, colour, water quality, sedimentation, electric rust prevention, filtration Abstract.
Yamanaka, Cutting fluid and Grinding fluid, Saiwaishobo Co.Ltd., Japan, 1982, pp.244-264 [3] TECHNICAL RESEARCH INSTITUTE Japan Society for the Promotion of Machine Industry, Material Processing Data File Text Vol:15 (Grinding), TECHNICAL RESEARCH INSTITUTE Japan Society for the Promotion of Machine Industry, Japan, 2002, pp.32-33 [4] N.
VI Key Eng.