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Online since: July 2011
Authors: Zhi Jian Gou
Material of sample: middle carbon steel.
Cutting tool material: YT15; cutter geometry: orthogonal rake=15°, orthogonal clearance =7°, cutting edge angle =45°, end cutting edge angle =15°.
Science. 1980, P.107 [6] Yunyi Y. , Zheng W.
Journal of Chongqing University (Natural Science Edition).
Cutting tool material: YT15; cutter geometry: orthogonal rake=15°, orthogonal clearance =7°, cutting edge angle =45°, end cutting edge angle =15°.
Science. 1980, P.107 [6] Yunyi Y. , Zheng W.
Journal of Chongqing University (Natural Science Edition).
Online since: May 2011
Authors: Yong Ming Sun
Table 2: Combination of appraisal model system
Research of the risk assessment on the oil spill’s diffuseness carried out with the example of M/V “DAQING 50”.As the above mentioned 11 indexes, combined with relative materials and statistical data, 11 indexes of the risk assessment on the oil spill’s diffuseness are as below: single hull oil tank, 10532MT, poorer technical statement, 26 years of vessel age, mean daily transportation amount 295/d, normal course criteria, mean yearly poorer visibility 16 days, assistant-voyage preferably, mean wind speed 32m/s, tidal current of majority ports 1kn, mean oil spilling 4 cases, deficiency port familiarity and short of skills and experience, low crews psychological diathesis and aggregate level of ship manning, low onboard management.
2).
Marine environmental science, 1997 [3] Li Sihai.
The Journal of Grey System,2000(2) Supported by Science & Technology Program of Shanghai Maritime University No. 20100084
Marine environmental science, 1997 [3] Li Sihai.
The Journal of Grey System,2000(2) Supported by Science & Technology Program of Shanghai Maritime University No. 20100084
Online since: January 2011
Authors: Bao Hua Tan, Qing Bo Zhu
A Remote Robot Control System Based on RIA and Flex Platform
TAN Baohua1, 2,3, a, ZHU Qingbo 4,b
1 School of Science, Hubei University of Technology, Wuhan, Hubei, China
2 School of Automobile Engineering, Wuhan University of Technology, Wuhan, Hubei, China
3 Key Lab of Modern Manufacture Quality Engineering, Wuhan, Hubei, China
4 School of Mechanical Engineering, Hubei University of Technology, Wuhan, Hubei, China
a tan_bh@126.com, b zhuqingbo@msn.com
Keywords: Robot control; RIA; Flex; Web Service; Component.
Start the robot control program to receive and enforce the command as well as complete the real-time video collection, coding and sending tasks; the robot receives the command, and process it with application program, if the command is correct, the robot will act accordingly and will send the movement to the operator in the form of video materials to make sure the operator is well informed of the robot’s work conditions.
Journal of Hubei University of Technology,2007,22(4):45-47.
Beijing: University of Electronic Science and Technology, 2006,6.
Start the robot control program to receive and enforce the command as well as complete the real-time video collection, coding and sending tasks; the robot receives the command, and process it with application program, if the command is correct, the robot will act accordingly and will send the movement to the operator in the form of video materials to make sure the operator is well informed of the robot’s work conditions.
Journal of Hubei University of Technology,2007,22(4):45-47.
Beijing: University of Electronic Science and Technology, 2006,6.
Online since: February 2014
Authors: Kamaruzzaman Sopian, Suhaila Sepeai, M. Yusof Sulaiman, Saleem Hussain Zaidi, M. Khairunaz Mat Desa, Mat Daud Norizam, M. Adib Ibrahim
Materials Science and Engineering B, 172 (2010) 43–49
[8] J.Y Lee, Boron Back Surface Field Using spin on dopants by rapid thermal processing, Journal of Korean Physical Society, 44-6 (2004) 1581-1586
Fath, Bifacial solar cells on multi-crystalline silicon, 15th International Photovoltaic Science and Engineering Conference (PVSEC-15), Shanghai, 2005, pp. 885-886
[8] J.Y Lee, Boron Back Surface Field Using spin on dopants by rapid thermal processing, Journal of Korean Physical Society, 44-6 (2004) 1581-1586
Fath, Bifacial solar cells on multi-crystalline silicon, 15th International Photovoltaic Science and Engineering Conference (PVSEC-15), Shanghai, 2005, pp. 885-886
Online since: March 2016
Authors: Shao Po Li, Wen Hua Ding, Li Feng Wang
Experimental Research and Production of Heavy Gauge DNV 485FDU for Deep Water Trunkline Project
Shaopo Li1, 2 ,3, a, Wenhua Ding2, 3, b and Lifeng Wang2, 3, c
1University of Science & Technology Beijing, 30 Xueyuan Road, Beijing, 100083, China.
2Shougang Research Institute of Technology, 69 Yangzhuang Street, Beijing, 100043, China.
3Beijing Energy Steel Engineering Technology Research Center, 69 Yangzhuang Street, Beijing, 100043, China.
Journal of Iron and Steel Research, 2008(10): 36-39
Ahn, “Correlation of Microstructure and Charpy Impact Properties in API X70 and X80 Line-pipe steels”, [J], Materials Science and Engineering, A458(2007)281-289
Journal of Iron and Steel Research, 2008(10): 36-39
Ahn, “Correlation of Microstructure and Charpy Impact Properties in API X70 and X80 Line-pipe steels”, [J], Materials Science and Engineering, A458(2007)281-289
Online since: January 2009
Authors: Bogdan Sapiński
An Investigation of an Electromagnetic Induction Device
for a Small-scale MR Damper
Bogdan Sapiński
1, a
1
Department of Process Control - University of Science and Technology
30 Mickiewicz Ave., 30-059 Cracow, Poland
a
deep@agh.edu.pl
Keywords: electromagnetic induction device, magnetorheological damper, vibration
Abstract.
Smart Materials and Structures, 1, p. 707-714 (2005)
AGH University of Science and Technology Press, Cracow, Poland (2006)
Journal of Theoretical and Applied Mechanics (to be published 2008)
Smart Materials and Structures, 1, p. 707-714 (2005)
AGH University of Science and Technology Press, Cracow, Poland (2006)
Journal of Theoretical and Applied Mechanics (to be published 2008)
Online since: October 2011
Authors: Qing Ning Li, Chang Gao, Xian Li Yan, Li Ying Wang
Acknowledgements
This work was financially supported by Natural Science Foundation of China (51078306), Higher School Special Research Fund for the Doctoral Programs (20106120110004), Significant Technological Project Innovation Fund in Xi’an University of Architecture and Technology (ZX0901), Special Funds in Key Discipline Construction Projects in Shanxi Province (E01004), Talent and Technology Fund Projects of Xi’an University of Architecture and Technology (RC1027).
China Communications Press, 1999 (In Chinese) [3] Chengchuan Liu, Liling Chen: China Building Materials Science & Technology, 2009, (03), 100-101 (In Chinese) [4] Jingbo Liu, Xiuli Du: Dynamics of Structures [M].
China Machine Press, 2005 (In Chinese) [5] Zi Cao, Suduo Xue, Xuesheng Wang, Yinchun Liu: Spatial Structures, 2008, 14 (3), 3-8 (In Chinese) [6] Junchang Bai, Jinping Jin: Shanxi Architecture, 2007, 33(3), 62-63 (In Chinese) [7] Wenyuan Hu, Jinghua Zhou: Journal of Southern Institute of Metallurgy, 2003, 24 (4), 25-28 (In Chinese) [8] JTG/T B02-01-2008.
China Communications Press, 1999 (In Chinese) [3] Chengchuan Liu, Liling Chen: China Building Materials Science & Technology, 2009, (03), 100-101 (In Chinese) [4] Jingbo Liu, Xiuli Du: Dynamics of Structures [M].
China Machine Press, 2005 (In Chinese) [5] Zi Cao, Suduo Xue, Xuesheng Wang, Yinchun Liu: Spatial Structures, 2008, 14 (3), 3-8 (In Chinese) [6] Junchang Bai, Jinping Jin: Shanxi Architecture, 2007, 33(3), 62-63 (In Chinese) [7] Wenyuan Hu, Jinghua Zhou: Journal of Southern Institute of Metallurgy, 2003, 24 (4), 25-28 (In Chinese) [8] JTG/T B02-01-2008.
Oxide Growth Mechanism and Oxidation Resistance in Mechanically Alloyed Ni-20Cr-20Fe-5Nb-1Y2O3 Alloy
Online since: January 2005
Authors: S.I. Kwun, Il Ho Kim
Kwun b
Division of Materials Science and Engineering, Korea University, Seoul 136-701, Korea
a
gsystem@korea.ac.kr, bsookkwun@korea.ac.kr
Keywords: ultra-fine grain, oxidation, ODS alloy, mechanical alloying
Abstract.
Acknowledgement This work was supported by the 2003 Nuclear Basic Research Program of the Korea Institute of Science and Technology Evaluation and Planning.
Quadakkers : Journal de Physique Ⅲ .
Acknowledgement This work was supported by the 2003 Nuclear Basic Research Program of the Korea Institute of Science and Technology Evaluation and Planning.
Quadakkers : Journal de Physique Ⅲ .
Online since: October 2010
Authors: Suo Huai Zhang, Ming Wei Wan
Structural
stiffness and damping of material is also constant.
Moving trainset, number: nA Standing trainset, number: nB nA+nB=n m2 m1 mnA mnA+1 mn-1 k1 c1 k2 c2 knA-1 c nA-1 knA c nA knA+1 c nA+1 kn-2 c n-2 x1 xnA x2 xn-1 xnA+1 mn kn-1 c n-1 xn Fig. 2 The relation of force and stroke between two vehicles Fi ∆xi vi>0 vi<0 k0 kcg ks k'0 f0 O A B C D E G k'cg k'cg In Fig. 2 and Eq.3, iF is the action force between two vehicles, ix∆ is the relative displacement between two vehicles, i.e. stroke of the buffer, 1i i ix x x +∆ = − , iv is the relative velocity, 0k is the stiffness of the buffer in compress course, cgk' is the stiffness of a coupler and vehicle, 0k' is the stiffness of the buffer in comeback course, cgk is the stiffness of spherical rubber jointer, sk is initial stiffness of the buffer when initial force 0f exists, ms is the maximum stroke of the buffer, es is the initial stroke of the buffer when initial force exists, gdc is the structural damping of material
Yang: Chinese Journal of Mechanical Engineering, Vol. 42 (2006) No. 1, pp. 212-216.
Wei: China Railway Science, Vol. 23 (2002) No.1, pp. 77-85.
Sun: Subway Vehicle Coupler-buffer Strength Analysis and Dynamics Analysis, (MS., Shaanxi University of Science and Technology, China 2008), pp. 26-32.
Moving trainset, number: nA Standing trainset, number: nB nA+nB=n m2 m1 mnA mnA+1 mn-1 k1 c1 k2 c2 knA-1 c nA-1 knA c nA knA+1 c nA+1 kn-2 c n-2 x1 xnA x2 xn-1 xnA+1 mn kn-1 c n-1 xn Fig. 2 The relation of force and stroke between two vehicles Fi ∆xi vi>0 vi<0 k0 kcg ks k'0 f0 O A B C D E G k'cg k'cg In Fig. 2 and Eq.3, iF is the action force between two vehicles, ix∆ is the relative displacement between two vehicles, i.e. stroke of the buffer, 1i i ix x x +∆ = − , iv is the relative velocity, 0k is the stiffness of the buffer in compress course, cgk' is the stiffness of a coupler and vehicle, 0k' is the stiffness of the buffer in comeback course, cgk is the stiffness of spherical rubber jointer, sk is initial stiffness of the buffer when initial force 0f exists, ms is the maximum stroke of the buffer, es is the initial stroke of the buffer when initial force exists, gdc is the structural damping of material
Yang: Chinese Journal of Mechanical Engineering, Vol. 42 (2006) No. 1, pp. 212-216.
Wei: China Railway Science, Vol. 23 (2002) No.1, pp. 77-85.
Sun: Subway Vehicle Coupler-buffer Strength Analysis and Dynamics Analysis, (MS., Shaanxi University of Science and Technology, China 2008), pp. 26-32.
Online since: May 2010
Authors: Xue Fei Wang, Hai Ming Bai, Wei Li, Wei Ping Yan
Introduction
Microfluidic technology is a new branch of biotechnology over the past decade [1], it integrates the
microchannels, pumps, valves, pool reservoirs and microdetection devices on the matrix materials
by using MEMS (Micro-Electro-Mechanical Systems) technology, and the biochemical reaction
and detection could be achieved through controlling the sample flow in the micro-channel, so it has
been widely applied in biochemical analysis.
Acknowledgements This paper is supported by National Natural Science Fund of China (60574092).
[3] Zhaolun Fang: Micro Fluidic Chip (Science Press, Beijing 2003)
Ortis De Solorzano: Journal of Microscopy.
Acknowledgements This paper is supported by National Natural Science Fund of China (60574092).
[3] Zhaolun Fang: Micro Fluidic Chip (Science Press, Beijing 2003)
Ortis De Solorzano: Journal of Microscopy.