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Online since: January 2014
Authors: Jun Tao Li, Hiroshi Kise, Kun Xia
Optimization of Unidirectional Material Handling System with Short-cut
Kun XIA 1, a Juntao LI 2,b and Hiroshi KISE 3,c
1,2College of Engineering Science and Technology, Shanghai Ocean University/Shanghai
3 Kyoto Institute of technology/Kyoto, Japan
a cherise_kun@163.com, b jtli@shou.edu.cn, c kise@kit.ac.jp
Keywords: Material Handling System; Scheduling; Short-cut; Optimization
Abstract: Unidirectional circulation-type material handling system on a single loop with a shortcut is a typical and basic unit in a flexible manufacturing system (FMS).
Processing stage Vehicle Fig.1 Unidirectional Material Handling System with Short-cut.
Journal of Intelligent Manufacturing, Vol.15 (2004), p. 87-102 [2] Nobuaki Ishii and Joseph J.
The International Journal of Flexible Manufacturing Systems, Vol.6 (1994), p. 69-87 [3] Srinivasan Rajagopalan, Sunderesh S.
European Journal of Operational Research, Vol.178 (2007), p. 85-91
Processing stage Vehicle Fig.1 Unidirectional Material Handling System with Short-cut.
Journal of Intelligent Manufacturing, Vol.15 (2004), p. 87-102 [2] Nobuaki Ishii and Joseph J.
The International Journal of Flexible Manufacturing Systems, Vol.6 (1994), p. 69-87 [3] Srinivasan Rajagopalan, Sunderesh S.
European Journal of Operational Research, Vol.178 (2007), p. 85-91
Online since: July 2012
Authors: Nan Jiang, Jian Bin Xu, Jun Yang
Promoting the expansion of human umbilical cord mesenchymal stem cell in vitro by E-cadherin-Fc as a new smart biological materials
Nan Jiang1, a, Jianbin Xu1, b and Jun Yang*1, b
1 Room 109, The Key laboratory of Bioactive Materials of Education, College of Life Science, Nankai University, 94 Weijin Road, Nankai district, Tianjin, P.
This research aimed to construct a biomimic microenvironment using bioactive materials including the fusion protein of E-cadherin-Fc and promote HUMSC proliferation.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (Grant No. 31070855), the 973 Program (Grant No. 2011CB606202) and Natural Science Foundation of Tianjin (Grant No. 10JCYBJC10400).
Kovacs: The Journal of Cell Biology,Vol.160(2003),p.11–16
[9] Phillip Karpowicz:The Journal of Neuroscience,Vol.29(2009),p.3885–3896.
This research aimed to construct a biomimic microenvironment using bioactive materials including the fusion protein of E-cadherin-Fc and promote HUMSC proliferation.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (Grant No. 31070855), the 973 Program (Grant No. 2011CB606202) and Natural Science Foundation of Tianjin (Grant No. 10JCYBJC10400).
Kovacs: The Journal of Cell Biology,Vol.160(2003),p.11–16
[9] Phillip Karpowicz:The Journal of Neuroscience,Vol.29(2009),p.3885–3896.
Online since: December 2014
Authors: Adelajda Brzostowicz, Wojciech Polkowski
Matlock, Overview of processing, microstructural and mechanical properteies of UFG bcc steels, Materials Science and Engineering A 441(2006) 1-17
El-Rayes, Enhancement of mechanical properties and grain size refi{TTP}-1279 nement of commercial purity aluminum 1050 processed by ECAP, Materials Science and Engineering A 458 (2007) 226–234
McNelly, Microstructural evolution in commercially purity aluminum during high pressure torsion, Materials Science and Engineering A 410-411 (2005) 277-280
Brzostowicz, Lüders effect in Al 99.7% extruded via the KoBo method, International Journal of Materials Research 105 (2014) 894-899
Horita, Microstructural evolution in pure aluminum processed by high-pressure torsion, Materials Science and Engineering A 503 (2009) 32–36
El-Rayes, Enhancement of mechanical properties and grain size refi{TTP}-1279 nement of commercial purity aluminum 1050 processed by ECAP, Materials Science and Engineering A 458 (2007) 226–234
McNelly, Microstructural evolution in commercially purity aluminum during high pressure torsion, Materials Science and Engineering A 410-411 (2005) 277-280
Brzostowicz, Lüders effect in Al 99.7% extruded via the KoBo method, International Journal of Materials Research 105 (2014) 894-899
Horita, Microstructural evolution in pure aluminum processed by high-pressure torsion, Materials Science and Engineering A 503 (2009) 32–36
Online since: September 2016
Authors: Mohannad Naeem Houshi
Jain, VK, Sidpara, A, Sankar, MR & Das, M 2011, ‘Nano-finishing techniques: a review’, Journal of Mechanical Engineering Science, vol.226, pp.327-346
Jain, VK 2009, ’Magnetic field assisted abrasive based micro-/nano-finishing’, Journal of Materials Processing Technology, vol.209, no. 20, pp. 6022–6038
Kim, TW, Kang, DM & Kwak, JS 2010,’Application of magnetic abrasive polishing to composite materials’, Journal of Mechanical Science and Technology, vol.25, no.5, pp.1029-1034
Mori, T, Hirota, K & Kawashima, Y2003,’ Clarification of magnetic abrasive finishing mechanism’, Journal of Materials Processing Technology, vol.143-144, pp. 682–686
Singh, DK, Jain, VK & Raghuram, V 2004, ‘Parametric study of magnetic abrasive finishing process’, Journal of Materials Processing Technology, vol.149, no.1-3, pp.22-29
Jain, VK 2009, ’Magnetic field assisted abrasive based micro-/nano-finishing’, Journal of Materials Processing Technology, vol.209, no. 20, pp. 6022–6038
Kim, TW, Kang, DM & Kwak, JS 2010,’Application of magnetic abrasive polishing to composite materials’, Journal of Mechanical Science and Technology, vol.25, no.5, pp.1029-1034
Mori, T, Hirota, K & Kawashima, Y2003,’ Clarification of magnetic abrasive finishing mechanism’, Journal of Materials Processing Technology, vol.143-144, pp. 682–686
Singh, DK, Jain, VK & Raghuram, V 2004, ‘Parametric study of magnetic abrasive finishing process’, Journal of Materials Processing Technology, vol.149, no.1-3, pp.22-29
Online since: December 2024
Authors: Ali H. Al-Marzouqi, Waleed Ahmed, Tahir A. Rizvi, Mushtaq Khan, Essam Zaneldin
Materials, 2017. 10(8): p. 952
Materials Science and Engineering: C, 2019. 97: p. 707-714
Journal of the Mechanical Behavior of Biomedical Materials, 2020. 103: p. 103576
International journal of molecular sciences, 2022. 23(19): p. 11235
International Journal of Molecular Sciences. 2023. 24(10): p. 8895
Materials Science and Engineering: C, 2019. 97: p. 707-714
Journal of the Mechanical Behavior of Biomedical Materials, 2020. 103: p. 103576
International journal of molecular sciences, 2022. 23(19): p. 11235
International Journal of Molecular Sciences. 2023. 24(10): p. 8895
Determination of Platinum and Palladium in the Presence of other Metals in the Mineral Raw Materials
Online since: September 2016
Authors: Elvira M. Ustinova, Eduard V. Gorchakov
Determination of Platinum and Palladium in the Presence of other Metals in the Mineral Raw Materials
E.M.
These objects include the poor, fine-disseminated, arsenic ore, small deposits of ore, old tailings beneficiation and gold extracting factory, as well as a special type of mineral raw materials carbonaceous shales, which contain carbonaceous material and abundant halogens [3].
Palladium and platinum are most often found in copper-nickel sulfide ores, which are valuable polymetallic raw materials, as well as some golden sands.
After removal of interfering matrix effects of mineral raw materials, calibration to determine platinum is as follows.
Ustinova, Determination of platinum in mineral raw materials by switching chronoamperometry, IOP Conference Series: Earth and Environmental Science. 21 (1) 012031 (2014).
These objects include the poor, fine-disseminated, arsenic ore, small deposits of ore, old tailings beneficiation and gold extracting factory, as well as a special type of mineral raw materials carbonaceous shales, which contain carbonaceous material and abundant halogens [3].
Palladium and platinum are most often found in copper-nickel sulfide ores, which are valuable polymetallic raw materials, as well as some golden sands.
After removal of interfering matrix effects of mineral raw materials, calibration to determine platinum is as follows.
Ustinova, Determination of platinum in mineral raw materials by switching chronoamperometry, IOP Conference Series: Earth and Environmental Science. 21 (1) 012031 (2014).
Online since: October 2014
Authors: Lu Wang, Pu Shi, Yue Jun Liu, Long Ouyang, Fu Zhi Li
Experiments
Materials.
Polymeric Foams Mechanisms and Materials.
MENG, et al: Journal of Functional Materials,2012,43(6): 708-711
[8] Feldman D, Banu D: Journal of applied polymer science, 1997, 66(9): 1731-1744
M: Journal of Applied Polymer Science. 2003, 88: 3139-3150
Polymeric Foams Mechanisms and Materials.
MENG, et al: Journal of Functional Materials,2012,43(6): 708-711
[8] Feldman D, Banu D: Journal of applied polymer science, 1997, 66(9): 1731-1744
M: Journal of Applied Polymer Science. 2003, 88: 3139-3150
Online since: January 2011
Authors: Li Jin Zhu
Department, Heze University, Heze, Shandong, China
zhulijin2@163.com
Keywords: system science; system simulation; sports system simulation; Sports Science Research Methods.
When receiving the manuscript, we assume that the corresponding authors grant us the copyright to use the manuscript for the book or journal in question.
Should authors use tables or figures from other Publications, they must ask the corresponding publishers to grant them the right to publish this material in their paper.
Sports System Simulation is an important subject in sports system engineering science, which is mean to solve the problem of the complexity of the sports field.
And it can also apply computer technology to analyze learners’ actions, even give appropriate feedback, which was carried out with special simulation equipments, and simulation teaching materials (computer courseware).
When receiving the manuscript, we assume that the corresponding authors grant us the copyright to use the manuscript for the book or journal in question.
Should authors use tables or figures from other Publications, they must ask the corresponding publishers to grant them the right to publish this material in their paper.
Sports System Simulation is an important subject in sports system engineering science, which is mean to solve the problem of the complexity of the sports field.
And it can also apply computer technology to analyze learners’ actions, even give appropriate feedback, which was carried out with special simulation equipments, and simulation teaching materials (computer courseware).
Online since: June 2013
Authors: Ryszard Nowosielski, Rafał Babilas, Sabina Lesz
Wang, Progress in Materials Science 52 (2007), p. 540
[2] Y.
Nowosielski, Archives of Materials Science and Engineering, 38(1), (2009), p. 12 [6] H.J.
Sheng, Journal of Materials Science 40,18 (2005), p. 5061 [8] S.
Liu, Journal of Materials Science 39 (2004), p. 3965 [10] A.L.
Poulain , Materials Science Forum 19-20 (1987), p. 11 [14] Z.
Nowosielski, Archives of Materials Science and Engineering, 38(1), (2009), p. 12 [6] H.J.
Sheng, Journal of Materials Science 40,18 (2005), p. 5061 [8] S.
Liu, Journal of Materials Science 39 (2004), p. 3965 [10] A.L.
Poulain , Materials Science Forum 19-20 (1987), p. 11 [14] Z.
Online since: April 2008
Authors: Ji Zhang, Zhu Bin He, Shi Jian Yuan
Investigation of Relationship between Material Flow Direction and Local
Stress Field in Plastic Deformation
Ji ZHANG, Zhubin HE, Shijian YUAN
School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, P.
Journal of Materials Processing Technology 95 (1999), p. 55-64
Journal of Materials Processing Technology 125-126 (2002), p. 588-593 [5] B.
Journal of Materials Processing Technology 54 (1995), p. 120-128 [6] J.J.
Lowhaphandu: Effects of hydrostatic pressure on mechanical behaviour and deformation processing of materials.
Journal of Materials Processing Technology 95 (1999), p. 55-64
Journal of Materials Processing Technology 125-126 (2002), p. 588-593 [5] B.
Journal of Materials Processing Technology 54 (1995), p. 120-128 [6] J.J.
Lowhaphandu: Effects of hydrostatic pressure on mechanical behaviour and deformation processing of materials.