Search results

The weight of bolts and gusset plates are evenly distributed throughout the whole beam structure, which achieved by adjusting the density of the material.
References [1] Jun Wu: Shanxi Science & Technology of Communications Vol. (216) (2012), p. 66-67, in press
[2] Ping Gu and Xueqin Cao: Journal of Shijiazhuang Railway Institute Vol. 15(2) (1994), p. 21-128, in press
[5] Dajin Guo, Jinxiang Liao and Jinquan Zhang: Highway Science & Technology of Communications Vol. 21(8) (2004), p. 71-73, in press

Design of Human-simulation Intelligent PID Based on APMP Refiner Control Wei Tang1, a, Hao Cheng2,b 1,2Department of Paper-making Engineering,Shaanxi University of Science & Technology, Xi’an, Shaanxi, 710021, P.R.
Introduction The quality stability of APMP is affected by different factors, such like the quality of raw material and the disturbances during the refining process.
Acknowledgment This paper was supported by State Monitoring in High-consistency Refiner of High Power and Research in Mill Clearance Accurate Control System (Shaanxi Research and Development Plan of Science & Technology) with a grant number of 2012K09-10.
Wang: Journal of Shanghai Jiaotong University (2002) No.4, p.559-562 (In Chinese)

Through studying available material and analyzing each structural unit of the studied area, following structural characteristics are concluded: (1) Most structures are brachy anticlines(Fanshengtun anticline, Taipingchuan anticline, Sanzhan anticline, and Wuzhan anticline), nose structure(Shengping nose, Dayushu nose, and Zhaoyuan nose), and structure group that consists of faults, fault noses, and fault anticline[2](Zhaobei structure group, Yingshan structure group, Satellite structure group)
Science Technology and Engineering.
Journal of Shan Dong University of Science and Technology.

Application of Game Theory in Bidding Strategy Xuanhua Qin 1, a ,Fen Luo 1,b 1 School of Science, Hubei Institute for Nationalities, Enshi, 445000, China axuanhuaqin@163.com, b ylf19790825@163.com Keywords: Bidding, Game theory, Optimal bidding, Risk factor Abstract.
The so-called sealed bidding is that bidders put the paper with their prices in a sealed envelop after mastering the basic material of the project and their own strength then hand them in at the time arranged before, and the tender will choose the lowest price offer.
Value Engineering, (11). 80-81, (2010) [5] Shuming Guan, Bo Li, Hong Guo.Game theory model in optimal price for bidding[J].Journal of Hebei University of Science and Technology, 31(3), 192-195,213, (2010)

Core material is pure iron.
Acknowledgment This work is supported by the National Natural Science Foundation of China (Grant No.51177105 ).
[3] Ming Zong: Journal of Shenyang University of Technology.
[4] Peng Sun, “Electrical Appliances” Science Press.

Study on Floating Characteristics of an Innovative Liquid Bearing Utilizing Traveling Waves YingJie Li1,a, Ming Zhou1,a , Eiji Shamoto2,b 1 School of Mechatronics Engineering, Harbin Institute of Technology, Harbin, Heilongjiang 150001, RP China 2 Department of Mechanical Science and Engineering, Nagoya University, Furo-cho, Chikusa-ku, Nagoya, Aichi 464-8603, Japan a andrew_wiggin@hit.edu.cn, b shamoto@mech.nagoya-u.ac.jp Keyword: Hydrostatic, Liquid bearing, Traveling wave, Floating displacement Abstract.
The material of support blocks is Ni-resist cast iron D5, whose specific thermal expansion is closed to piezoelectric actuators.
Acknowledgements This work is granted by the lab of UPR in Nagoya University and partly supported by the National High-Tech R&D program (863 program) of China (Grant No. 2012AA040405) and the National Natural Science Foundation of China (Grant No. 51075094).
Wang: International Journal of Machine Tools & Manufacture, Vol. 71 (2013), pp. 1–10

The material properties of the specimens are determined by tensile coupon test.
Acknowledgements This work described in this paper was supported by National Science Found of China (51008200), Program for Liaoning Excellent Talents in University (LJQ2011059) and by Shenyang Science and Technology Program (F12-277-1-31).
Moen, Anna Schudlich and Aaron von der Heyden: submitted to Journal of Structural Engineering (2009) [2] C.D.

Table 1 Basic situation of enclosure structure Name of enclosure structure Tectonic level Overall heat transfer coefficient of building envelope/[w/(.k)] Roof structure SBS Modified asphalt waterproof coiled material（4mm）+Fine stone concrete leveling layer（30mm）+EPS Thermal insulation layer（150mm）+ Ceramsite concrete sloping layers （30mm）+ Reinforced concrete floor (100mm）+ Mixed mortar（20mm） 0.29 Exterior wall structure(north, west, ast) EPS Insulation board（80mm）+ Mixed mortar（20mm）+ Sand lime brick wall（370 mm）+ Mixed mortar（20mm） 0.41 Interior wall structure Mixed mortar（20mm）+ Sand lime brick wall（240 mm）+ Mixed mortar（20mm） 1.58 Ground structure Cement mortar（20 mm）+ Fine stone concrete（100 mm） - Window type[3] Double-layer plastic steel glass window 2.68 Outside door type Wooden single-layer solid door 4.65 Thermal-storage wall Steel hollow glass thermal-storage hood + Air layer（80 mm）+ Galvanized iron sheet outer brush dark paint +EPS Insulation board（50mm）+ Mixed mortar（20mm
Acknowledgements This work was financially supported by the Natural Science Foundation of China （51268049）, Corps Industrial Research Project (2011BA027) and Project of Corps Support Xinjiang（2012AB12）.
[5] Hong Jin, Chunyan Zhou: Journal of Harbin Industrial, issue 12, 2008, In Chinese
[9] Shuguang Jiang, Jia Yuan, Lei Wang: Building science, issue 2, 2009, In Chinese

Analysis and Optimization on the Front Supporter of Concrete Mixer Truck Yaodong Gao1, a, Youzheng Ma1, b and Xianggang Kong2, c 1 School of Mechanical Engineering, Inner Mongolia University of Science and Technology, Baotou, Inner Mongolia, China, 014010 2 Inner Mongolia North Baryval Engineering Special Vehicles Corporation Limited, Baotou, Inner Mongolia, China, 014033 ajxxgyd@126.com, b634234910@qq.com, c392077039@qq.com Keywords: Concrete mixer truck, Front supporter, ANSYS, Statics analysis, Modal analysis, Topology optimization, Size optimization Abstract.
Fig.1 Simplified model of the front supporter Fig.2 Maximum equivalent stress Tab.1 Front supporter load case Load position Load size[N] Vertical force of the left part of the front supporter 152 370.5 Longitudinal force of the left part of the front supporter 74 411.9 Vertical force of the right part of the front supporter 86 326.8 Longitudinal force of the right part of the front supporter 67 358.1 The material of the front supporter is Q345B, Young's modulus E=2.06×1011Pa, Poisson`s ratio μ=0.3, density ρ=7850Kg/m3, yield limit σs=345MPa.
References [1] Zhongze Dong: Guide of Sci-tech Magazine Vol. 7(2010), p. 124 [2] Jiaqing Zhao, Qian Liu, Zengquan Wang: Mechanical Design and Manufacturing Vol. 7(2010): 27-29 [3] Haiying Wang: Journal of Chang’an University (Natural Science Edition) Vol. 24(2004), p. 88-91 [4] Yuhui Xia: Wuhan University of Technology Vol. 2009, p. 3-7

Liu2 1Beijing Institute of Technology Beijing, China 2Taiyuan University of Science and Technology, Taiyuan, China aghhong2004@163.com Keywords: service, process equipment, SOA Abstract.
The static information is some basic ones such as type, size, tolerance, material, quantity scrapped and loss, etc.
This work is supported by Shanxi natural science fundation (No.20100110212) and Shanxi Young Foundation (No.20081020).
Yang et al: Journal of intelligentl manufacture Vol. (11) (2010), p.400-412