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Online since: January 2012
Authors: Yan Ling Wang
Logistics supply chain is a network of suppliers, factories, warehouses, distribution centers and retailers where the raw materials are acquired, manufactured to products, which then are delivered to consumers.
Multi Agent Logistics Coordination A logistics supply chain is referred to as an integrated system which synchronizes a series of inter-related business processes in order to: (1) acquire raw materials and parts, (2) transform these raw materials and parts into finished products, (3) add value to these products, (4) distribute and promote these products to either retailers or customers, (5) facilitate information exchange among various business entities (e.g. suppliers, manufacturers, distributors, third-party logistics providers, and retailers).
Acknowledgments This work was supported in part by the National Soft Science Foundation of China (No. 2010GXS5D214), the Natural Science Foundation of Zhejiang Province (No.
Y6090357), the Science Foundation of Zhejiang Wanli University.
Chan, “Effect of information sharing in supply chain with flexibility”, International Journal of Production Research, Vol. 47, No. 1, pp. 213–232, 2009
Multi Agent Logistics Coordination A logistics supply chain is referred to as an integrated system which synchronizes a series of inter-related business processes in order to: (1) acquire raw materials and parts, (2) transform these raw materials and parts into finished products, (3) add value to these products, (4) distribute and promote these products to either retailers or customers, (5) facilitate information exchange among various business entities (e.g. suppliers, manufacturers, distributors, third-party logistics providers, and retailers).
Acknowledgments This work was supported in part by the National Soft Science Foundation of China (No. 2010GXS5D214), the Natural Science Foundation of Zhejiang Province (No.
Y6090357), the Science Foundation of Zhejiang Wanli University.
Chan, “Effect of information sharing in supply chain with flexibility”, International Journal of Production Research, Vol. 47, No. 1, pp. 213–232, 2009
Online since: May 2013
Authors: Chun Tang Zhang, Wan Ying Zhang
Research of Underwater Oil leak and Storage Detection Technique Based on Optical Fiber
Chuntang Zhang1, a, Wanying Zhang2,b
1 College of Automation and Electronic Engineer, Qingdao University of Science &Technology, China
2 College of Automation and Electronic Engineer, Qingdao University of Science &Technology, China
azct1999@163.com, bzwy05291989@163.com
Keywords: underwater oil storage system; optical fiber technology; wavelet transform
Abstract.
According to the feature of fiber grating[8], the petroleum solvent-sensitive material and the grating are fixed together.
Once the material is soaked in the petroleum solvent, it swells, and its expansion stress is transmitted to the fiber grating, resulting in the center wavelength drift of the reflected wave[9,10].
Bucaro, Optical fiber sensor technology, IEEE Journal of Quantum Electronics. 2 (1999) 61-62
[11] Jianwei Luo, Research on Polarization Control of Optical Fiber Sensing Technology for Pipe Leak Detection, Chinese Journal of Scientific Instrument. 31 (2010) 322-325.
According to the feature of fiber grating[8], the petroleum solvent-sensitive material and the grating are fixed together.
Once the material is soaked in the petroleum solvent, it swells, and its expansion stress is transmitted to the fiber grating, resulting in the center wavelength drift of the reflected wave[9,10].
Bucaro, Optical fiber sensor technology, IEEE Journal of Quantum Electronics. 2 (1999) 61-62
[11] Jianwei Luo, Research on Polarization Control of Optical Fiber Sensing Technology for Pipe Leak Detection, Chinese Journal of Scientific Instrument. 31 (2010) 322-325.
Online since: August 2013
Authors: Bei Bei Du, Jing Song Shan
But the dynamic effects caused by inertia and material damping, round-trip reflection of elastic wave resulted from the material differences of pavement structural layers are the reasons leading to the difference between dynamic and static results.
Acknowledgements This research was funded by “Shandong Provincial Natural Science foundation (NO.
Chinese Journal of Applied Mechanics.
The Explicit Solution of Axisymmetic Elastodynamic problem for Multilayered Halfspace, China Journal of highway and transport.
[5] A.TPapagiannakis and R.Raha:Formulation For Viscoelastic Response Of Pavements Under Moving Dynamic Loading,Journal of Transportion Engineering /March/April.
Acknowledgements This research was funded by “Shandong Provincial Natural Science foundation (NO.
Chinese Journal of Applied Mechanics.
The Explicit Solution of Axisymmetic Elastodynamic problem for Multilayered Halfspace, China Journal of highway and transport.
[5] A.TPapagiannakis and R.Raha:Formulation For Viscoelastic Response Of Pavements Under Moving Dynamic Loading,Journal of Transportion Engineering /March/April.
Online since: June 2010
Authors: Gui Yu Lin, Xue Hong He, Liang Dong Ding
Parametric finite element model of crane
boom is built and uncertain parameters are obtained by analyzing characteristics of dimensions,
materials, loads and constraint conditions for crane boom.
It is no doubt that material parameters are random for self-defects of material.
The material of crane boom is Q345.
Acknowledgments This paper is supported by National Science and Technology Major Project(Grant No. 2008BAJ09B08-04).
References [1] Xu Lei: Hoisting and Conveying Machinery No.5 (1985), p. 3 [2] Xu Lei: Hoisting and Conveying Machinery No.10 (1998), p. 12 [3] Wang Qiang, Liu Gang: Journal of Wuhan University of Technology Vol.27 No. 5 (2003), p. 702 [4] Zhu Dalin, Fang Zifan: Journal of University of Hydraulic and Electric Engineering Vol.22 No. 2 (2000), p. 153 [5] Beijing Materials Handling Research Institute, China Hoisting & Conveying Quality Inspection Center , in: Design Rules for Cranes, edited by China Standards Press, Beijing (2008), in press
It is no doubt that material parameters are random for self-defects of material.
The material of crane boom is Q345.
Acknowledgments This paper is supported by National Science and Technology Major Project(Grant No. 2008BAJ09B08-04).
References [1] Xu Lei: Hoisting and Conveying Machinery No.5 (1985), p. 3 [2] Xu Lei: Hoisting and Conveying Machinery No.10 (1998), p. 12 [3] Wang Qiang, Liu Gang: Journal of Wuhan University of Technology Vol.27 No. 5 (2003), p. 702 [4] Zhu Dalin, Fang Zifan: Journal of University of Hydraulic and Electric Engineering Vol.22 No. 2 (2000), p. 153 [5] Beijing Materials Handling Research Institute, China Hoisting & Conveying Quality Inspection Center , in: Design Rules for Cranes, edited by China Standards Press, Beijing (2008), in press
Online since: February 2024
Authors: Surasak Suranuntchai, Raschanan Poungprasert, Nattarawee Siripath
Altan, Cold and Hot Forging: Fundamentals and Applications, ASM International, Materials Park, Ohio, 2005
Sucharitpwatskul, Finite Element Modeling of Upper Ball Joint in a Two-Step Hot Forging Process, Key Engineering Materials 934 (2022) 95-102
Bistron, Tribology in Hot Forging, Comprehensive Materials Processing 5 (2014) 211-234
Sadeghi, Study on Hot Ring Compression Test of Nimonic 115 Superalloy Using Experimental Observations and 3D FEM Simulation, Journal of Materials Engineering and Performance 19(5) (2010) 633-642
Button, Application of the finite element method in cold forging processes, Journal of the Brazilian Society of Mechanical Sciences 22 (2000)
Sucharitpwatskul, Finite Element Modeling of Upper Ball Joint in a Two-Step Hot Forging Process, Key Engineering Materials 934 (2022) 95-102
Bistron, Tribology in Hot Forging, Comprehensive Materials Processing 5 (2014) 211-234
Sadeghi, Study on Hot Ring Compression Test of Nimonic 115 Superalloy Using Experimental Observations and 3D FEM Simulation, Journal of Materials Engineering and Performance 19(5) (2010) 633-642
Button, Application of the finite element method in cold forging processes, Journal of the Brazilian Society of Mechanical Sciences 22 (2000)
Online since: May 2014
Authors: Hui Wang, Jiu Peng Zhang
(3) Confirm design parameter of temperature and material
The evaluation and disease cause analysis of cement pavement for XiaFen expressway[J].Shanxi Science & Technology of Communications,2008(6):4-6
Journal of China & Foreign Highway,2013,33(4):80-84
[9] Chunhui Zhang, Jin Lv, Quansheng Zhao, Xizhao Wang.Damage mechanism and prevention of widened embankment[J].Journal of Liaoning Technical University(Natrual Science),2012, 31(2):168-171
[10] Huquan Chen.Several problems in construction of cement-concrete road surface[J].Journal of Liaoning Technical University(Natural Science),2011,30(supplyment):111-113.
The evaluation and disease cause analysis of cement pavement for XiaFen expressway[J].Shanxi Science & Technology of Communications,2008(6):4-6
Journal of China & Foreign Highway,2013,33(4):80-84
[9] Chunhui Zhang, Jin Lv, Quansheng Zhao, Xizhao Wang.Damage mechanism and prevention of widened embankment[J].Journal of Liaoning Technical University(Natrual Science),2012, 31(2):168-171
[10] Huquan Chen.Several problems in construction of cement-concrete road surface[J].Journal of Liaoning Technical University(Natural Science),2011,30(supplyment):111-113.
Online since: May 2012
Authors: Yu Min Bai, Zhen Ming Che, Ya Ge Xing, Wei Yun Guo, Qing Lian Xu, Yu Rao
Materials and methods
Materials.
Journal of Food Engineering. 80 (2007) 292-299
Journal of Food Engineering. 54 (2002) 175-182
Watanabe, Freeze texturing of food materials by ice-nucleation with the bacterium Erwinia ananas, J.
Journal of Biological Chemistry. 50 (1986) 169-175
Journal of Food Engineering. 80 (2007) 292-299
Journal of Food Engineering. 54 (2002) 175-182
Watanabe, Freeze texturing of food materials by ice-nucleation with the bacterium Erwinia ananas, J.
Journal of Biological Chemistry. 50 (1986) 169-175
Online since: June 2012
Authors: Lei Zhang, Yun Wei Zhao, Zhuo Yang
But the glass-ceramic is hard and brittle material that is not suitable for polishing by conventional methods.
Tsenter, et.al: Journal of Non-Crystalline Solids Vol. 356 (2010), p. 3042-3058
Syoji: Journal of the International Societies for Precision Engineering and Nano technology Vol. 26 (2002), p. 370–380
Lee: Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1293-1299
Zhao: International Journal of Machine Tools and Manufacture Vol. 45 (2002), p. 1461-1467
Tsenter, et.al: Journal of Non-Crystalline Solids Vol. 356 (2010), p. 3042-3058
Syoji: Journal of the International Societies for Precision Engineering and Nano technology Vol. 26 (2002), p. 370–380
Lee: Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1293-1299
Zhao: International Journal of Machine Tools and Manufacture Vol. 45 (2002), p. 1461-1467
Online since: January 2013
Authors: Hui Jie Nan, Guo Long Li, Jia Jia Liu, Wen Jie Zhao, Yun Bo Shi
The main physical parameters of the materials are shown in Table 1.
Table 1 The physical parameters of the materials Materials Thermal conductivity [W/(m K)] Specific heat capacity [J/(kg K)] Resistivity [Ω•cm] Coefficient of thermal expansion [1/℃] AlN 180 740 1013 4.2× Pt 71.6 134 1.0× 8.9× The wind speed sensor is fabricated using MEMS technology and laser micromachining etching technology.
Journal of Scientific Instrument (4)24:318-320
[2] Guangping shen, Zhangye: Wind speed and direction sensor packaged with chip direct mounted [J], Journal of Mechanical Engineering, 2009, (1) 45: 35-40
[6] Paolo Bruschi, Michele Dei, and Massimo Piotto: A Low-Power 2-D Wind Sensor Based on Integrated Flow Meters [J], IEEE SENSORS JOURNAL, VOL. 9, NO. 12, DECEMBER 2009: 863-869
Table 1 The physical parameters of the materials Materials Thermal conductivity [W/(m K)] Specific heat capacity [J/(kg K)] Resistivity [Ω•cm] Coefficient of thermal expansion [1/℃] AlN 180 740 1013 4.2× Pt 71.6 134 1.0× 8.9× The wind speed sensor is fabricated using MEMS technology and laser micromachining etching technology.
Journal of Scientific Instrument (4)24:318-320
[2] Guangping shen, Zhangye: Wind speed and direction sensor packaged with chip direct mounted [J], Journal of Mechanical Engineering, 2009, (1) 45: 35-40
[6] Paolo Bruschi, Michele Dei, and Massimo Piotto: A Low-Power 2-D Wind Sensor Based on Integrated Flow Meters [J], IEEE SENSORS JOURNAL, VOL. 9, NO. 12, DECEMBER 2009: 863-869
Online since: December 2019
Authors: Khairul Anuar Shariff, Haifaa' Auni Mohammad Zaki, Mohamad Hafizi Abu Bakar, Mohamad Nurul Azmi
Materials and Methods
Fabrication of β-tricalcium phosphate foam granules.
Deba, Tailoring brushite for in situ setting bone cements, Materials Chemistry and Physics 130 (2011) 1139–1145
A Comparison Between Porous Materials and Flat Materials, Journal of Functional Biomaterials 2 (2011) 308–337
Ishikawa, Fabrication of self-setting β-tricalcium phosphate granular cement, Journal of Biomedical Materials Research - Part B Applied Biomaterial 106 (2018) 800–807
Tsuru, Fabrication of interconnected porous β-tricalcium phosphate (β-TCP) based on a setting reaction of β-TCP granules with HNO3 followed by heat treatment, Journal of Biomedical Materials Research Part A (2017) 1–8
Deba, Tailoring brushite for in situ setting bone cements, Materials Chemistry and Physics 130 (2011) 1139–1145
A Comparison Between Porous Materials and Flat Materials, Journal of Functional Biomaterials 2 (2011) 308–337
Ishikawa, Fabrication of self-setting β-tricalcium phosphate granular cement, Journal of Biomedical Materials Research - Part B Applied Biomaterial 106 (2018) 800–807
Tsuru, Fabrication of interconnected porous β-tricalcium phosphate (β-TCP) based on a setting reaction of β-TCP granules with HNO3 followed by heat treatment, Journal of Biomedical Materials Research Part A (2017) 1–8