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Online since: March 2010
Authors: Le Cao, Hai Long Huang, Fei Liu
As the connectivity between the management
and the bottom of bridges in production companies, Dynamic Reconfigurable Manufacturing
Execution System (DRMES) provided the implementation of the plan, tracking as well as all
resources (operators, equipments, materials, customer demand, etc.) of the current status.
System Integration Framework Enterprise resource layer Model of Data management Model of Planning and scheduling Model of production management and control Model of Online quality management Model of material management Model of Work-in-progress management Model of operator management Model of equipment Model of Production tool management Model of query and analysis Database History information system interface Document XML Model of document management Dynamic reconfigurable manufacturing process model library System Supporting Layer Dynamic reconfigurable manufacturing process layer Service presentation layer Portlets GUI Web Browse WSRP WAP …… orders scheduling dispatch material machining inventory quality finish Model of shop Floor organization Dynamic reconfiguration Figure 1 The framework of DRMES 1.
Acknowledge This Research is supported by the National Natural Science Foundation of China (No.50775228).
Mehrabi, Galip Ulsoy, Yoram Koren: Reconfigurable manufacturing systems and their enabling technologies, International Journal of Manufacturing Technology and Management, Vol.1, No.1 (2000), p. 114-131
[4]Qian Ling: Research on Reconfigurable Virtual Manufacturing System, Nanjing University of Science&Technology (2005)
System Integration Framework Enterprise resource layer Model of Data management Model of Planning and scheduling Model of production management and control Model of Online quality management Model of material management Model of Work-in-progress management Model of operator management Model of equipment Model of Production tool management Model of query and analysis Database History information system interface Document XML Model of document management Dynamic reconfigurable manufacturing process model library System Supporting Layer Dynamic reconfigurable manufacturing process layer Service presentation layer Portlets GUI Web Browse WSRP WAP …… orders scheduling dispatch material machining inventory quality finish Model of shop Floor organization Dynamic reconfiguration Figure 1 The framework of DRMES 1.
Acknowledge This Research is supported by the National Natural Science Foundation of China (No.50775228).
Mehrabi, Galip Ulsoy, Yoram Koren: Reconfigurable manufacturing systems and their enabling technologies, International Journal of Manufacturing Technology and Management, Vol.1, No.1 (2000), p. 114-131
[4]Qian Ling: Research on Reconfigurable Virtual Manufacturing System, Nanjing University of Science&Technology (2005)
Online since: May 2014
Authors: Thapanun Sudhawiyangkul, Songmoung Nundrakwang, Don Isarakorn
Sodano, “A review of power harvesting using piezoelectric materials (2003-2006),” Smart Mater.
Kim, “Analysis of piezoelectric materials for energy harvesting devices under high-g vibrations,” Jpn.
[14] Jianmin Hou and Yi Gao, “Greenhouse Wireless Sensor Network Monitoring System Design Based on Solar Energy”, 2010 International Conference on Challenges in Environmental Science and Computer Engineering, pp. 475-479, 2010
Jongsintawee “Energy Harvesting Using an Impact Type Piezoelectric Energy Harvester” International Conference on Engineering, Applied Sciences, and Technology, pp. 344-347, 2012
[16] Rajeev Piyare and Seoung-ro Lee, “Performance Analysis of XBee ZB Module Based Wireless Sensor Networks”, International Journal of Scientific & Engineering Research, Volume 4, Issue 4, April-2013, pp. 1615-1621.
Kim, “Analysis of piezoelectric materials for energy harvesting devices under high-g vibrations,” Jpn.
[14] Jianmin Hou and Yi Gao, “Greenhouse Wireless Sensor Network Monitoring System Design Based on Solar Energy”, 2010 International Conference on Challenges in Environmental Science and Computer Engineering, pp. 475-479, 2010
Jongsintawee “Energy Harvesting Using an Impact Type Piezoelectric Energy Harvester” International Conference on Engineering, Applied Sciences, and Technology, pp. 344-347, 2012
[16] Rajeev Piyare and Seoung-ro Lee, “Performance Analysis of XBee ZB Module Based Wireless Sensor Networks”, International Journal of Scientific & Engineering Research, Volume 4, Issue 4, April-2013, pp. 1615-1621.
Online since: August 2011
Authors: Balázs Tukora, Tibor Szalay, Mátyás Horváth
The force coefficients and the exponents are material properties you can find them in handbooks.
For this reason the image based methods are executed by the graphics hardware of the computer, since the data structure of the manufactured object can be described by depth-images, and as the material removal method and the z-buffer rasterization procedure of computer graphics (CG) are practically the same [10].
Our aim was to exploit the abilities of the GPGPUs and the related APIs in material removal simulation.
Yücesan, Y.Altintas: Prediction of Ball-End Milling Force, ASME Journal of Engineering for Industry, February 1996, Vol. 118, pp. 95-103 [9] M.Horváth M: Automated planning of part production processes (in Hungarian), Thesis of DSc in Hungarian Academy of Sciences 1985
[12] B.Tukora, T.Szalay: Fully GPU-based volume representation and material removal simulation of free-form objects.
For this reason the image based methods are executed by the graphics hardware of the computer, since the data structure of the manufactured object can be described by depth-images, and as the material removal method and the z-buffer rasterization procedure of computer graphics (CG) are practically the same [10].
Our aim was to exploit the abilities of the GPGPUs and the related APIs in material removal simulation.
Yücesan, Y.Altintas: Prediction of Ball-End Milling Force, ASME Journal of Engineering for Industry, February 1996, Vol. 118, pp. 95-103 [9] M.Horváth M: Automated planning of part production processes (in Hungarian), Thesis of DSc in Hungarian Academy of Sciences 1985
[12] B.Tukora, T.Szalay: Fully GPU-based volume representation and material removal simulation of free-form objects.
Online since: June 2014
Authors: Yan Zhang, Rong Yang, Jia Ping Li
Based on different concentrations of biological activity water,this article does research on the effect of corn seeds germination and seedling growth,it provides data support and theory basis to the promotion and application of biological activity water in planting industry.Corn seeds zheng dan 985 which is commonly planted in our country is choosed to be the experimental material.
Experimental analysis Experiment reagent and material Reagent of determination of the content of chlorophyll calcium carbonate,quartz sand,95% ethanol solution,biological activity water(the chemical characteristics of biological activity water is EC=0.2170ds/m ;pH=8.3).
After cleaning,drying and shearing leaves which have already germinated,we should weigh accuracy 50mg,then put them in research pot,add 3ml 95% ethanol,and grind till the material completely turn to be white,then add 7ml 95% ethanol,grinding,and filtrate,take supernate and measure optical density which wavelength is between 665nmand 650nm,calculate content of chlorophyll according to the following formula: Chlorophyll a(g/mg)=13.95×D665-6.88×D650;chlorophyll b(g/mg)=24.96×D650-7.32×D665; total chlorophyll(g/mg)=20.2×D650+8.02×D665;repeat the test 3 times,and conduct the date with statistical analysis.
[4] Liu Yonghai,Yu Le.Effect of naphthalene acetate on the growth of root and bud in rice[J].Guangxi Agricultural Science,2004,35(3):179-180
[6] Ye Xingyuan,Fan Hongwei.Effects of NAA on Wheat Root and Shoot Growth[J].Journal of Anhui Agricultural Sciences,2009,37(8):22-23.
Experimental analysis Experiment reagent and material Reagent of determination of the content of chlorophyll calcium carbonate,quartz sand,95% ethanol solution,biological activity water(the chemical characteristics of biological activity water is EC=0.2170ds/m ;pH=8.3).
After cleaning,drying and shearing leaves which have already germinated,we should weigh accuracy 50mg,then put them in research pot,add 3ml 95% ethanol,and grind till the material completely turn to be white,then add 7ml 95% ethanol,grinding,and filtrate,take supernate and measure optical density which wavelength is between 665nmand 650nm,calculate content of chlorophyll according to the following formula: Chlorophyll a(g/mg)=13.95×D665-6.88×D650;chlorophyll b(g/mg)=24.96×D650-7.32×D665; total chlorophyll(g/mg)=20.2×D650+8.02×D665;repeat the test 3 times,and conduct the date with statistical analysis.
[4] Liu Yonghai,Yu Le.Effect of naphthalene acetate on the growth of root and bud in rice[J].Guangxi Agricultural Science,2004,35(3):179-180
[6] Ye Xingyuan,Fan Hongwei.Effects of NAA on Wheat Root and Shoot Growth[J].Journal of Anhui Agricultural Sciences,2009,37(8):22-23.
Online since: October 2012
Authors: Quan Xiao Liu, Wen Cai Xu, Yan Na Yin
Study on Cationic Polyacrylate Emulsion to Paper Printing Performance
Quanxiao Liua, Wencai Xu and Yanna Yin
Beijing Key Laboratory of Printing & Packaging Materials and Technology,
Beijing Institute of Graphic Communication Beijing, 102600, P.R.
Experimental Raw materials and equipment.
Acknowledgements This work was financially supported by Funding Project for Academic Human Resources Development in Institutions of Higher Learning under the Jurisdiction of Beijing Municipality (PHR-IHLB)) (2010), Cooperation Project of College and Enterprise of Industrialization and Achievement Transfer of Beijing Municipal Education Commission (2011), Plan Project of Science and Technology of Beijing Municipal Education Commission (KM201110015006), Science Research plan of University Student (08150112033).
Li: Daqing oil college journal, Vol. 22 (2008) No.3, pp. 56-58
Experimental Raw materials and equipment.
Acknowledgements This work was financially supported by Funding Project for Academic Human Resources Development in Institutions of Higher Learning under the Jurisdiction of Beijing Municipality (PHR-IHLB)) (2010), Cooperation Project of College and Enterprise of Industrialization and Achievement Transfer of Beijing Municipal Education Commission (2011), Plan Project of Science and Technology of Beijing Municipal Education Commission (KM201110015006), Science Research plan of University Student (08150112033).
Li: Daqing oil college journal, Vol. 22 (2008) No.3, pp. 56-58
Online since: October 2012
Authors: Da Chen, Na Wang, Chao Hua Jiang
The study can provide a base for later study on setting up mechanical theory model to reflect concrete material subjected to sulfate attack.
Experimental Material and Methodology Materials.
Acknowledgements Supported by National Natural Science Foundation of China (Grant No.51009061, 51137002) and Ministry of Water Resources' funds for Science and Technology Promotion (Grant No.TG1137).
Chen: China Civil Engineering Journal, Vol. 43 (2010), p. 48-53 (In Chinese) [5] H.A.F.
Experimental Material and Methodology Materials.
Acknowledgements Supported by National Natural Science Foundation of China (Grant No.51009061, 51137002) and Ministry of Water Resources' funds for Science and Technology Promotion (Grant No.TG1137).
Chen: China Civil Engineering Journal, Vol. 43 (2010), p. 48-53 (In Chinese) [5] H.A.F.
Online since: January 2012
Authors: Li Mei Bai, Zhi Tao Yuan, Yue Xin Han, Guang Zhao Li
Introduction
Depressant, which refers to materials that destroy or weaken the adsorption of minerals on collector, enhance the hydrophily of the mineral surface to depress floatability of the minerals, can be classified into inorganic depressants and organic depressants.
Experimental Materials.
Journal of Changsha University of Science and Technology (Natural Science), NO.7(2010), p.74-79.
Experimental Materials.
Journal of Changsha University of Science and Technology (Natural Science), NO.7(2010), p.74-79.
Online since: April 2009
Authors: Rafał Leszek Abdank-Kozubski, L. Zosiak, Andrzej Biborski
Kozubski
Interdisciplinary Centre for Materials Modelling, M.
Acknowledgement Work pursued within the European Actions COST 535 and COST P19 and supported by the Polish Ministry of Science and Higher Education: Grant no.
Donhue, Journal of Chem.
Massobrio, W.Pfeiler, Materials Science and Engineering, 11-15, (2002)
Acknowledgement Work pursued within the European Actions COST 535 and COST P19 and supported by the Polish Ministry of Science and Higher Education: Grant no.
Donhue, Journal of Chem.
Massobrio, W.Pfeiler, Materials Science and Engineering, 11-15, (2002)
Online since: July 2011
Authors: Yan Sun, Fu Tian Qu, Zhong Gang Liu
Materials & Methodology
Fig. 2 DEM of Tanggu
Materials.
Science of Surveying and Mapping Vol. 33 (2008), p. 61, 85-86
Geography and Geo-Information Science Vol. 20 (2004), p. 26-30
Journal of Liaoning Technical University Vol. 26 (2007), p. 345-347.
Science of Surveying and Mapping Vol. 33 (2008), p. 61, 85-86
Geography and Geo-Information Science Vol. 20 (2004), p. 26-30
Journal of Liaoning Technical University Vol. 26 (2007), p. 345-347.
Online since: October 2011
Authors: Hong Tie Zhao, Qi Fang Xie, Jian Yang Xue, Jun Fang Hu
Davalos (2001)[5] researched the influences of cohesive materials on the bond behavior between FRP and wood.
Materials The wood used in experiment is Korean pine grown at northeast of China.
Fujian Construction Science & Technology, 2006(5): 18-19 [03] Xi Ren.
Journal of Reinforced Plastic and Composite, 2005:405-412 [07] Rongzhong Zhuang, Yongxin Yang, Quanfeng Wang, et al.
Sichuan Building Science, 2009, 35(1):36-39 (in Chinese) [11] Huitao Ren.
Materials The wood used in experiment is Korean pine grown at northeast of China.
Fujian Construction Science & Technology, 2006(5): 18-19 [03] Xi Ren.
Journal of Reinforced Plastic and Composite, 2005:405-412 [07] Rongzhong Zhuang, Yongxin Yang, Quanfeng Wang, et al.
Sichuan Building Science, 2009, 35(1):36-39 (in Chinese) [11] Huitao Ren.