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Online since: December 2014
Authors: Ting Jiang, Jie Hou, Jun Long Wang, Yao Dong Liang, Yong Jun He
Experimental
Materials.
International Journal of Hygiene and Environmental Health, Vol. 216 (2013) No.4, p.371
Chemical Engineering Journal, Vol. 167, (2011) p.59
World Journal of Microbiology & Biotechnology, Vol. 21 (2005) p.1299
Journal of Hazardous Materials, Vol. 192 (2011) p.314
International Journal of Hygiene and Environmental Health, Vol. 216 (2013) No.4, p.371
Chemical Engineering Journal, Vol. 167, (2011) p.59
World Journal of Microbiology & Biotechnology, Vol. 21 (2005) p.1299
Journal of Hazardous Materials, Vol. 192 (2011) p.314
Online since: November 2013
Authors: Wei Hua Wang
Study on the Structural Model of Human Pose
Weihua Wang1, 2
1School of Software Engineering, Chongqing University of Arts and Sciences, Yongchuan, Chongqing, 402160, China
2Key Laboratory of Machine Vision and Intelligent Information System, Chongqing University of Arts and Sciences, Yongchuan, Chongqing, 402160, China
y2002ww@163.com
Keywords: Human pose model, Computer vision, Structural, Human behavior.
Acknowledgments This research was supported by the science foundation of the Chongqing State Education Commission under grant No KJ111217, the higher education innovation foundation of Chongqing State Education Commission under grant No 09-3-181, the science foundation of Chongqing University of Arts and Science under grant No.Z2012RJ14 and No.
JOURNAL OF COMPUT ER AIDED DESIGN AND COMPUTER GRAPHICS, Vo l. 12, No . 4,Apr . , 2000,245-250 [3] HUANG Jing, KONG Lingfu,LI Haitao.Human Behavior Recognition Based on HMM.Computer Simulation,Vol.28,No.7,PP: 245-248 [4] Li Haojie1, Lin Shouxun1, Zhang Yongdong .A Survey of Video Based Human Motion Capture .JOURNAL OF COMPUT ER-AIDED DESIGN & COMPUTER GRAPHICS, Vol.18, No.11,Nov, 2006.1645-1650 [5] Very material human structure graphic. http://wenku.baidu.com/view/128cf500a6c30c22590 19 e95.html [6] Wang Xir.
Journal of Southwestern Normal University (Philosophy and Social Science Edition),1998,No.3,p:117-119 [7] Zhang Baocai.
Acknowledgments This research was supported by the science foundation of the Chongqing State Education Commission under grant No KJ111217, the higher education innovation foundation of Chongqing State Education Commission under grant No 09-3-181, the science foundation of Chongqing University of Arts and Science under grant No.Z2012RJ14 and No.
JOURNAL OF COMPUT ER AIDED DESIGN AND COMPUTER GRAPHICS, Vo l. 12, No . 4,Apr . , 2000,245-250 [3] HUANG Jing, KONG Lingfu,LI Haitao.Human Behavior Recognition Based on HMM.Computer Simulation,Vol.28,No.7,PP: 245-248 [4] Li Haojie1, Lin Shouxun1, Zhang Yongdong .A Survey of Video Based Human Motion Capture .JOURNAL OF COMPUT ER-AIDED DESIGN & COMPUTER GRAPHICS, Vol.18, No.11,Nov, 2006.1645-1650 [5] Very material human structure graphic. http://wenku.baidu.com/view/128cf500a6c30c22590 19 e95.html [6] Wang Xir.
Journal of Southwestern Normal University (Philosophy and Social Science Edition),1998,No.3,p:117-119 [7] Zhang Baocai.
Online since: September 2013
Authors: Yong Sheng E
I use the residual oil after producting quinoline as raw material, get isoquinoline by distillation twice.
Experiment 2.1 Raw material Raw material is the residual oil after producting quinoline, its composition are shown in Table 1.
Science & Technology in Chemical Industry.
Progress in Pharmaceutical Sciences.
The Chinese Journal of Process Engineering.
Experiment 2.1 Raw material Raw material is the residual oil after producting quinoline, its composition are shown in Table 1.
Science & Technology in Chemical Industry.
Progress in Pharmaceutical Sciences.
The Chinese Journal of Process Engineering.
Online since: May 2014
Authors: Shin Yu Tsai, Chih Hong Huang
Heat transfer in walls, as affected by climatic conditions such as fluctuations in outside air temperature, solar radiation intensity and wind speed as well as wall structures and heat transfer coefficients of materials, becomes a complex and non-steady state.
The aim of this paper is to examine the relationship between total whole-day solar radiation and heat absorbed by and released from materials.
An reduced scale of experiment was conducted using reduced scale precast concrete slabs and focusing on the effect of heat transfer involving solar radiation, building materials and shading rate.
In this study, modes of heat transfer in building exteriors are simplified and divided into the following three parts for investigation, which are validated by a 24-hour experiment.[2, 3] Building exteriors receive most of the heat from external sources that either enters indoors or escape outdoors.[4, 5] As indicated in the equation for surface heat balance, besides increased temperatures of solar radiation and fluctuations in surface energy transfer that affect exteriors, it is important to consider total heat transfer between air and surfaces of exterior walls as well as the reflection by and longwave emissivity of materials themselves.[6] The heat balance is shown as Fig. 1 and its equation for building exteriors is as Equation (1).
Al-Sanea, Thermal performance of building roof elements, Building and Environment.37(2002)665-675 [6] Liu Wenyan, Gengyao Ming,Concrete surface solar radiation absorption rate Experimental Research, China concrete and cement products,4(2004) [7] Giuseppe Oliveti, Natale Arcuri, Marilena De Simone, Experimental evaluations of the building shell radiant exchange in clear sky conditions, Solar Energy,86(2012)1785-1795 [8] Jian Yao, Chengwen Yan, Effects of Solar Absorption Coefficient of External Wall on Building Energy Consumption, World Academy of Science, Engineering and Technology,52(2011)
The aim of this paper is to examine the relationship between total whole-day solar radiation and heat absorbed by and released from materials.
An reduced scale of experiment was conducted using reduced scale precast concrete slabs and focusing on the effect of heat transfer involving solar radiation, building materials and shading rate.
In this study, modes of heat transfer in building exteriors are simplified and divided into the following three parts for investigation, which are validated by a 24-hour experiment.[2, 3] Building exteriors receive most of the heat from external sources that either enters indoors or escape outdoors.[4, 5] As indicated in the equation for surface heat balance, besides increased temperatures of solar radiation and fluctuations in surface energy transfer that affect exteriors, it is important to consider total heat transfer between air and surfaces of exterior walls as well as the reflection by and longwave emissivity of materials themselves.[6] The heat balance is shown as Fig. 1 and its equation for building exteriors is as Equation (1).
Al-Sanea, Thermal performance of building roof elements, Building and Environment.37(2002)665-675 [6] Liu Wenyan, Gengyao Ming,Concrete surface solar radiation absorption rate Experimental Research, China concrete and cement products,4(2004) [7] Giuseppe Oliveti, Natale Arcuri, Marilena De Simone, Experimental evaluations of the building shell radiant exchange in clear sky conditions, Solar Energy,86(2012)1785-1795 [8] Jian Yao, Chengwen Yan, Effects of Solar Absorption Coefficient of External Wall on Building Energy Consumption, World Academy of Science, Engineering and Technology,52(2011)
Online since: May 2015
Authors: Shi Qiao Gao, Hai Peng Liu, Lei Jin
Study on the Energy Harvesting Performance of PE Cantilever Beam
Hai-peng LIU1, a, Shi-qiao GAO 2,b and Lei JIN 3,c
1,2 State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, China
3 School of Mechatronical Engineering, Beijing Institute of Technology, China
alhp@bit.edu.cn(corresponding author), bgaoshq@bit.edu.cn, cjinlei@bit.edu.cn
Keywords: Energy Harvesting, Piezoelectric, Cantilever Beam, Vibration.
Journal of Vibration and Acoustics. 130(2008) 041002-1-15
Journal of Intelligent Material Systems and Structures, 16(2005) 809-823
Journal of Intelligent Material Systems and Structures. 16(2005)799-807
[9] Alper Erturk, Renno J M, lnman D J.Modeling of Piezoelectric Energy Harvesting from an L-shaped Beam-mass Structure with an Application to UAVs, Journal of Intelligent Material Systems and Structures. 20(2009)529-544.
Journal of Vibration and Acoustics. 130(2008) 041002-1-15
Journal of Intelligent Material Systems and Structures, 16(2005) 809-823
Journal of Intelligent Material Systems and Structures. 16(2005)799-807
[9] Alper Erturk, Renno J M, lnman D J.Modeling of Piezoelectric Energy Harvesting from an L-shaped Beam-mass Structure with an Application to UAVs, Journal of Intelligent Material Systems and Structures. 20(2009)529-544.
Online since: July 2013
Authors: Qiang Yu, Solomon Tiruneh Gobu, Yu Jun Cai
Deep draw is the process of pulling a flat “blank” of material over a radii used die edge and into a cavity, producing a closed bottom, round or irregularly shaped cup or cylinder [2].
Acknowledgment This research work is sponsored by “Double Five” Science and Technology Plan of Tianjin University (No.
Thanh-Phong Dao, Shyh-Chour Huang, ” Study on optimization of process parameters for hydromechanical deep drawing of trapezoid cup”, Journal of Engineering Technology and Education, Vol. 8, No.1, March 2011 [2] Information on http://www.larsontool.com/capabilities_deep_drawn_stamping.cfm [3]R.
Kim S., “Optimum process design in sheet metal forming with finite element analysis” Journal of engineering material and technology, Vol. 123, (2001), pp. 477- 481
[5] Altair Hyperworks student Manual [6] Tekkaya A E, State-of-the- art of simulation of sheet forming, Journal of Materials Processing Technology, 103 (2000) pp. 14-22 [7] Sheng ZQ, Jirathearanat S, Altan T, Adaptive FEM Simulation for Prediction of Variable Blank Holder Force in Conical Cup Drawing, International Journal of Machine Tools and Manufacture, 44 (2004) pp. 487-494
Acknowledgment This research work is sponsored by “Double Five” Science and Technology Plan of Tianjin University (No.
Thanh-Phong Dao, Shyh-Chour Huang, ” Study on optimization of process parameters for hydromechanical deep drawing of trapezoid cup”, Journal of Engineering Technology and Education, Vol. 8, No.1, March 2011 [2] Information on http://www.larsontool.com/capabilities_deep_drawn_stamping.cfm [3]R.
Kim S., “Optimum process design in sheet metal forming with finite element analysis” Journal of engineering material and technology, Vol. 123, (2001), pp. 477- 481
[5] Altair Hyperworks student Manual [6] Tekkaya A E, State-of-the- art of simulation of sheet forming, Journal of Materials Processing Technology, 103 (2000) pp. 14-22 [7] Sheng ZQ, Jirathearanat S, Altan T, Adaptive FEM Simulation for Prediction of Variable Blank Holder Force in Conical Cup Drawing, International Journal of Machine Tools and Manufacture, 44 (2004) pp. 487-494
Online since: September 2011
Authors: S. Morel, N. Dourado
It is nowadays firmly established that the size effect of notched structures constituted by quasibrittle materials such as concrete, mortar, rocks or wood is an energetic size effect and not a statistical one in the sense of the Weibull's statistics [1].
Bazant: Journal of Engineering Mechanics Vol. 110 (1984), p. 518
Bazant: International Journal of Fracture Vol. 83 (1997), p. 19
Bazant: Proceedings of the National Academic Sciences Vol. 14 (2004), p. 13400
Morel: International Journal of Fracture Vol. 154 (2008), p. 15
Bazant: Journal of Engineering Mechanics Vol. 110 (1984), p. 518
Bazant: International Journal of Fracture Vol. 83 (1997), p. 19
Bazant: Proceedings of the National Academic Sciences Vol. 14 (2004), p. 13400
Morel: International Journal of Fracture Vol. 154 (2008), p. 15
Online since: July 2014
Authors: Peng Cheng Zhu, Yin Zhi Zhou, Ming Kang Gou
The properties of the materials that were used are given in Table 1.
[4] Yusuf Ozcatalbas, Alpay Ozer, Material and Design 28 (2007) 1988-1993
Journal of Constructional Steel Research.66(2010)248-255
Journal of Constructional Steel Research . 65(2009)308-313
Journal of Structural Engineering, Vol.136,NO.9( 2010) 1131-1139
[4] Yusuf Ozcatalbas, Alpay Ozer, Material and Design 28 (2007) 1988-1993
Journal of Constructional Steel Research.66(2010)248-255
Journal of Constructional Steel Research . 65(2009)308-313
Journal of Structural Engineering, Vol.136,NO.9( 2010) 1131-1139
Online since: December 2010
Authors: Hua Peng, Chun Hua You, Ye Long Deng, Hong Yu Zhang, Jin Zhang
The section size of each member is 20 mm × 20 mm, and Table 1 shows the material properties.
Sammana: Journal of Sound and Vibration Vol. 145(1991), p. 321-332
Zhang: Journal of Wuhan University of Technology Vol. 28(2004), p. 855-858.
Zhang: Journal of Ship Mechanics Vol. 10(2006), p. 115-121.
Zhang, Y.Q Tu: Journal of PLA University of Science and Technology Vol. 10(2009), p. 57-63.
Sammana: Journal of Sound and Vibration Vol. 145(1991), p. 321-332
Zhang: Journal of Wuhan University of Technology Vol. 28(2004), p. 855-858.
Zhang: Journal of Ship Mechanics Vol. 10(2006), p. 115-121.
Zhang, Y.Q Tu: Journal of PLA University of Science and Technology Vol. 10(2009), p. 57-63.
Online since: September 2013
Authors: Ming Qiang Lin, Feng Juan Dai, Shi Yan Song
References
[1] Fan Yingfang,Zhang Yingzi,Hu Zhiqiang:Journal of building materials:2006,vol(9) nov(1).
[2] Chang Haijuan in : Science and technology in China western:2008,vol(7) nov (20).
Journal of building materials:2003,vol(6) nov(3).
[7] Jin Weiliang: Corroded Concrete Structures (Science Publications, Beijing 2011).
[8] Niu Ditao: Durability and Life Forecast of Reinforced Concrete Structure (Science Publications, Beijing 2003).
[2] Chang Haijuan in : Science and technology in China western:2008,vol(7) nov (20).
Journal of building materials:2003,vol(6) nov(3).
[7] Jin Weiliang: Corroded Concrete Structures (Science Publications, Beijing 2011).
[8] Niu Ditao: Durability and Life Forecast of Reinforced Concrete Structure (Science Publications, Beijing 2003).