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Online since: March 2009
Authors: Kari Mäntyjärvi, Jussi A. Karjalainen, Marion Merklein
Nevertheless, the advantages favour moving towards using these materials.
Test Materials The test materials were CP960/1000 and CP1100/1250.
Both materials have a dual-phase microstructure consisting of bainite and martensite.
Not measurable Roll forming using a very small radius (1mm) was unsuccessful for both materials.
References [1] Merklein, M. & Geiger, M.: New materials and production technologies for innovative lightweight constructions, Journal of Materials Processing Technology, Vol. 125-126 (2002), p. 532-536 [2] Geiger, M., Merklein, M. & Pitz, M.: Laser and forming technology - an idea and the way of implementation, Journal of Materials Processing Technology, Vol. 151 (2004), p. 3-11 [3] Pitz M., Merklein M., Giera A. & Geiger M.: Laser Assisted Bending and Roll Forming, Proceedings of the International Conference LANE 2004, p. 1147-1155 [4] Groche P., Beiter P., Henkelmann M.: Prediction and inline compensation of springback in roll forming of high and ultra-high strength steels, Prod.
Test Materials The test materials were CP960/1000 and CP1100/1250.
Both materials have a dual-phase microstructure consisting of bainite and martensite.
Not measurable Roll forming using a very small radius (1mm) was unsuccessful for both materials.
References [1] Merklein, M. & Geiger, M.: New materials and production technologies for innovative lightweight constructions, Journal of Materials Processing Technology, Vol. 125-126 (2002), p. 532-536 [2] Geiger, M., Merklein, M. & Pitz, M.: Laser and forming technology - an idea and the way of implementation, Journal of Materials Processing Technology, Vol. 151 (2004), p. 3-11 [3] Pitz M., Merklein M., Giera A. & Geiger M.: Laser Assisted Bending and Roll Forming, Proceedings of the International Conference LANE 2004, p. 1147-1155 [4] Groche P., Beiter P., Henkelmann M.: Prediction and inline compensation of springback in roll forming of high and ultra-high strength steels, Prod.
Online since: September 2013
Authors: Wei Tan, Li Fen Cheng, Yan Xiong Fang
Experimental
Materials and methods
The used notations for the paper samples and the methods of deacidification treatment are as follows:
MS: Samples of a journal of “The Masses”, 1953 (Table1);
BSD: Samples of a journal of “Beauty Star Daily”, 1982(Table2);
CP: AR calcium propionate Ca(CH3CH2COO)2;
MB: AR magnesium bicarbonate Mg(HCO3)2;
CP-SCCO2: SCCO2 treatment with calcium propionate dissolved by 40% ethanol;
CP-IM: Immersion treatment with calcium propionate dissolved by 40% ethanol;
MB-SCCO2: SCCO2 treatment with magnesium bicarbonate dissolved by 40% ethanol;
MB-IM: Immersion treatment with magnesium bicarbonate dissolved by 40% ethanol.
Journal of Cultural Heritage 7 (2006) 264-272
Advanced Materials Research Vols. 347-353(2012) pp 504-507
Journal of Cultural Heritage 10 (2009) 222-231
Journal of Cultural Heritage 1(2013) 16-22.
Journal of Cultural Heritage 7 (2006) 264-272
Advanced Materials Research Vols. 347-353(2012) pp 504-507
Journal of Cultural Heritage 10 (2009) 222-231
Journal of Cultural Heritage 1(2013) 16-22.
Online since: March 2015
Authors: Xiang Yang, Yan Wu, Qiu Yue Wang, Yong Huo Li
Biomass Reduction Roasting-Magnetic Separation of
Low Grade Goethite
Qiuyue Wanga, Yan Wub*, Yonghuo Lic and Xiang Yangd
Faculty of Materials Science and Chemistry, China University of Geosciences,
Wuhan, 430074, China
abaihewqy@126.com, bwuyan@cug.edu.cn, cyonghuo@126.com, dyangying@cug.edu.cn
Keywords: Low-grade goethite, Biomass, Reduction roasting, Magnetic separation.
Sun, Progress in China's Beneficiation Technology for Complex Refractory Iron Ore, Chinese Journal of Metal Mine. 3 (2006) 11-13
Bao, The reduction mechanism of biomass roasting of goethite ores, Advanced Materials Research. 560-561 (2012) 441-446
Chi, An investigation on reduction and magnetization of limonite using biomass, Chinese Journal of Pr℃ess Engineering. 6 (2009) 508-513
Morrish, Magnetite to maghemite transformation in ultrafine particles, Journal de Physique. 38 (1977) 321-323
Sun, Progress in China's Beneficiation Technology for Complex Refractory Iron Ore, Chinese Journal of Metal Mine. 3 (2006) 11-13
Bao, The reduction mechanism of biomass roasting of goethite ores, Advanced Materials Research. 560-561 (2012) 441-446
Chi, An investigation on reduction and magnetization of limonite using biomass, Chinese Journal of Pr℃ess Engineering. 6 (2009) 508-513
Morrish, Magnetite to maghemite transformation in ultrafine particles, Journal de Physique. 38 (1977) 321-323
Online since: August 2013
Authors: Wen Zhong Fan, Li Li Wang, Zhao Xing Xie, Peng Cheng Shi, Shen Junan
Materials and testing procedures
To determine the effect of the additives on the properties of the binder, four asphalts were used: Taixing base asphalt, SK base asphalt, Ruixin SBS modified asphalt and Shell SBS modified asphalt.
Journal of Materials in Civil Engineering, Vol. 23, No. 9, 2011, pp. 1328–1337
Canadian Journal of Civil Engineering, Vol.37, No. 1, 2010, pp. 17-24
American Journal of Engineering & Applied Sciences.
International Journal of Pavement Engineering.
Journal of Materials in Civil Engineering, Vol. 23, No. 9, 2011, pp. 1328–1337
Canadian Journal of Civil Engineering, Vol.37, No. 1, 2010, pp. 17-24
American Journal of Engineering & Applied Sciences.
International Journal of Pavement Engineering.
Online since: May 2012
Authors: Long Wang, Xu Gao, Yu Feng Xu, Jin Song Guo
The results suggest that the adsorption on CTMAB zeolite involves adsorption process and distribution role and zeolites performs well as reusable materials for adsorption.
Materials and Methods 2.1 Preparation of CTMAB zeolite The surface modification of zeolite with cationic surfactant was done by adopting previous technique [7,8].
These results indicate that the zeolites performs well as reusable materials for adsorption.
The results suggest that the adsorption on CTMAB zeolite involves adsorption process and distribution role and zeolites performs well as reusable materials for adsorption.
Journal of Solid State Chemistry, 2005, 178(1): 142–152
Materials and Methods 2.1 Preparation of CTMAB zeolite The surface modification of zeolite with cationic surfactant was done by adopting previous technique [7,8].
These results indicate that the zeolites performs well as reusable materials for adsorption.
The results suggest that the adsorption on CTMAB zeolite involves adsorption process and distribution role and zeolites performs well as reusable materials for adsorption.
Journal of Solid State Chemistry, 2005, 178(1): 142–152
Online since: September 2011
Authors: Mei Yun Zhang, Ling Hua Guo, Xin Hua Guo
GRACoL7 breaks with tradition by raising gray balance to a more important status to realize the different printing materials with the same appearance.
The purpose of the G7 is in the printing process to realize "shared appearance" between the different printing methods or different materials [2].A good method to define print 'appearance' is with a characterization data set containing colorimetric (CIE or spectral reflectance) values from a standard characterization target like the IT8 is shown fig1.
NPDC ensures a density match and better contrast between multiple devices and materials.
Owing to the gravure printing, the plate-making is engraving, the materials are newsprint paper and Kraft paper which basis weigh is 35~70g/m2.The ink viscosity is low.
We also thank the ShaanXi University of Science & Technology and JiNan University for their experimental equipments.
The purpose of the G7 is in the printing process to realize "shared appearance" between the different printing methods or different materials [2].A good method to define print 'appearance' is with a characterization data set containing colorimetric (CIE or spectral reflectance) values from a standard characterization target like the IT8 is shown fig1.
NPDC ensures a density match and better contrast between multiple devices and materials.
Owing to the gravure printing, the plate-making is engraving, the materials are newsprint paper and Kraft paper which basis weigh is 35~70g/m2.The ink viscosity is low.
We also thank the ShaanXi University of Science & Technology and JiNan University for their experimental equipments.
Online since: May 2011
Authors: Jing Liu, Xin Tao Xia, Long Chen
Acknowledgements
This project was funded by the National Natural Science Foundation of China (Grant No. 51075123) and by the Natural Science Research Project of the Education Department of Henan Province (Grant No. 2010B460008).
[3] Chen Long, Xia Xintao and Qiu Ming: Analysis and control of fretting wear for blade bearing in wind turbine, Advanced Mechanical Engineering, Applied Mechanics and Materials, Vol.26-28(2010), pp. 167-170
[7] Xia Xintao, Lv Taomei and Meng Fannian: Gray chaos evaluation model for prediction of rolling bearing friction torque, Journal of Testing and Evaluation, Vol.38, No.3(2010), pp. 291-300
Antoni: Cyclic spectral analysis of rolling-element bearing signals: Facts and fictions, Journal of Sound and Vibration, Vol.304(2007), pp. 497-529
Antoniadis: Effect of rotational speed fluctuations on the dynamic behaviour of rolling element bearings with radial clearances, International Journal of Mechanical Sciences, Vol.48(2006), pp. 809-829
[3] Chen Long, Xia Xintao and Qiu Ming: Analysis and control of fretting wear for blade bearing in wind turbine, Advanced Mechanical Engineering, Applied Mechanics and Materials, Vol.26-28(2010), pp. 167-170
[7] Xia Xintao, Lv Taomei and Meng Fannian: Gray chaos evaluation model for prediction of rolling bearing friction torque, Journal of Testing and Evaluation, Vol.38, No.3(2010), pp. 291-300
Antoni: Cyclic spectral analysis of rolling-element bearing signals: Facts and fictions, Journal of Sound and Vibration, Vol.304(2007), pp. 497-529
Antoniadis: Effect of rotational speed fluctuations on the dynamic behaviour of rolling element bearings with radial clearances, International Journal of Mechanical Sciences, Vol.48(2006), pp. 809-829
Online since: February 2014
Authors: Wen Min Han, Jing Liu, Liang Mei
The Resource Conflict Resolution Problem for Virtual Cellular Manufacturing Inter-cell Scheduling Under the Conditions of Resource Sharing
Wenmin Han1,a,Jing Liu1,b and Liang Mei1,c
1School of Economics and Management, Jiangsu University of Science and Technology, 2 Mengxi Road, Zhenjiang, Jiangsu, 212003, China
awlmh63@163.com, blj88just@163.com,cjskdml@126.com
Keywords: virtual cellular inter-cell scheduling, resource sharing, resource conflict resolution, particle swarm optimization algorithm
Abstract.
Acknowledgments This work was supported by the National Natural Science Foundation of China (71271105), Ministry of Education, Humanities and Social Sciences Planning Fund(12YJA630036) .
References [1] R.Jayachitra: International Journal of Engineering Science and Technology.Vol.2(6),2010,P.1708 [2] K.L.Mak, J.S.K.Lau, X.X.Wang:International Journal of Production Research.Vol.43(12),2005, P.2423 [3] Tavakkoli Moghaddam, R.
Gholipour Kanani:Expert Systems with Applications.Vol.37(3),2010,P.2661 [4] Atabak Elmi:Computers & Industrial Engineering.Vol.61(1),2011,P.171 [5] Tang Jiafu, Wang Xiaoqing:Journal of Intelligent Manufacturing.Vol.21(4),2009 [6] Wenmin Han, Juan Chen, Xiangzun Bu:The 2012 International Conference on Information Technology and Management Innovation,Guangzhou(2012) [7] Wenmin Han, Xiangzun Bu, Juan Chen:The 3rd International Conference on Advanced in Materials and Manufacturing Processes, Beihai(2012) [8] Pohsian H:Computer and Electrical Engineering.Vol.29(7),2003,P.757 [9] Chen J:Journal of Intelligent and Robotic Systems.Vol.37(3),2003,P.307 [10]H.Rezazadeh,M.Ghazanfari,S.J.Sadjadi:Journal of Applied Research and Technology.Vol. 7(1),2009,P.83 [11]Qie He, Ling Wang:Engineering Applications of Artificial Intelligence.Vol.20(2),2007,P.89
Acknowledgments This work was supported by the National Natural Science Foundation of China (71271105), Ministry of Education, Humanities and Social Sciences Planning Fund(12YJA630036) .
References [1] R.Jayachitra: International Journal of Engineering Science and Technology.Vol.2(6),2010,P.1708 [2] K.L.Mak, J.S.K.Lau, X.X.Wang:International Journal of Production Research.Vol.43(12),2005, P.2423 [3] Tavakkoli Moghaddam, R.
Gholipour Kanani:Expert Systems with Applications.Vol.37(3),2010,P.2661 [4] Atabak Elmi:Computers & Industrial Engineering.Vol.61(1),2011,P.171 [5] Tang Jiafu, Wang Xiaoqing:Journal of Intelligent Manufacturing.Vol.21(4),2009 [6] Wenmin Han, Juan Chen, Xiangzun Bu:The 2012 International Conference on Information Technology and Management Innovation,Guangzhou(2012) [7] Wenmin Han, Xiangzun Bu, Juan Chen:The 3rd International Conference on Advanced in Materials and Manufacturing Processes, Beihai(2012) [8] Pohsian H:Computer and Electrical Engineering.Vol.29(7),2003,P.757 [9] Chen J:Journal of Intelligent and Robotic Systems.Vol.37(3),2003,P.307 [10]H.Rezazadeh,M.Ghazanfari,S.J.Sadjadi:Journal of Applied Research and Technology.Vol. 7(1),2009,P.83 [11]Qie He, Ling Wang:Engineering Applications of Artificial Intelligence.Vol.20(2),2007,P.89
Online since: December 2012
Authors: Xiao Ling Liang, Yu Wang, Wen Xing Wu
Introduction
Mass customization (MC) supply chain network system is composed of nodes of suppliers, manufacturers, distributors, retailers and customers, raw materials along each node converted into personalized products for customers.
International Journal of Production Research, 2000,38 (17):4061–4070
International Journal of Agile.Management Systems, 2000, 2 (1), 54–61
International Journal of Production Economics, 2008, 113(2):943~956
International Journal of Production Research. 2011, 52(4): 1–15
International Journal of Production Research, 2000,38 (17):4061–4070
International Journal of Agile.Management Systems, 2000, 2 (1), 54–61
International Journal of Production Economics, 2008, 113(2):943~956
International Journal of Production Research. 2011, 52(4): 1–15
Online since: January 2014
Authors: Yan Jun Wu, Shi Dong Ji, Li Jiang Jia
Acknowledgements
This work was supported by Ministry of Education, Humanities and Social Sciences Project (No. 13YJA630016); Natural Science Foundation of Heilongjiang Province (No.
QC2011C076); Heilongjiang Province Natural Science Foundation (No.
[2] Bernstein J I, “The structure of Canadian inter-industry R&D spillovers and the rates of return to R&D”,The Journal of Industrial Economics,vol. 37, no. 3, pp. 3125–3328, 1998
[4] Kumbhakar S C, “Production Frontiers,Panel Data and Time-Varing Technical Inefficiency”, Journal of Econometrics,vol. 46, no. 8, pp. 201-211, 1990
Formulation and Estimation of Stochastic Frontier Production Models”, Journal of Econometrics,vol. 6, no. 1, pp. 21-37,1997
QC2011C076); Heilongjiang Province Natural Science Foundation (No.
[2] Bernstein J I, “The structure of Canadian inter-industry R&D spillovers and the rates of return to R&D”,The Journal of Industrial Economics,vol. 37, no. 3, pp. 3125–3328, 1998
[4] Kumbhakar S C, “Production Frontiers,Panel Data and Time-Varing Technical Inefficiency”, Journal of Econometrics,vol. 46, no. 8, pp. 201-211, 1990
Formulation and Estimation of Stochastic Frontier Production Models”, Journal of Econometrics,vol. 6, no. 1, pp. 21-37,1997