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AIChE Journal, 7(2):5J-6J, 1961
Mathematical and Physical Sciences, 223(1155):446-468, 1954
Nuclear Science and Engineering, 184(3):312-320, 2016
Canadian Journal of Physics, 98(7):650-659, 2020
Engineering Science and Technology, an International Journal, 20(4):1324-1333, 2017

In her opinion, she thinks[1] that supply chain management is to plan, control, coordinate and optimize in order to achieve efficient goods transportation and storage and high-quality services as well as valid information in the process from raw materials to final products so as to satisfy customers’ demands.
In supply chain management under mass customization, enterprises subcontract part or all raw materials, components, transportation and even after-sale services to cooperative enterprises and enterprises themselves are devoted to the core business they are good at to reduce production cost and strengthen supply chain flexibility, which enables enterprises to faster respond to customers’ individualized demands.
Zhou: Journal of Management Sciences in China.
Wang: Modern Management Science.
Wang: Modern Management Science.

The production process of this industry involves a huge amount of transportation, which is of great energy consumption, as well as high energy consumption of raw materials production such as iron and steel, nonferrous metal, cement, wall brick.
Thirdly, we should control energy consumption of residents, develop energy consumption ladder price and transaction costs, plan reasonably the urban traffic, further enhance the convenience of the public transportation, reduce the residents travel public transportation cost, encourages people to purchase and use small cars and clean energy cars; Meanwhile, the government develop reasonably the real estate industry through technological progress developing energy-saving building materials.
Acknowledgements This work was financially supported by The national social science fund project (13BTJ022), Beijing Municipal Education(SZ201310017009) and URT Project (2013J00114).
References [1] Caocao Chen, Yan Zhang, Chunlan Liu, Haihua Wang and Zheng LI: Energy Consumption and GDP Growth in Beijing: Cointegration and Causality Analysis, Environmental Science, Vol.33 No.6 (2012.6).
(In Chinese) [3] Zhongfu Tan: Analysis and Demand Forecasting of Coordination Between Energy and Economy in Beijing, Journal of North China Electric Power University (social science edition), No.4(2011.8).

Ultrafast Relaxation Character of Nonequilibrium Carriers in GaAs Excited by Femtosecond Laser Ming Zhou1,a , Dongqing Yuan1,b , Lipeng Liu1,c , Huixia Liu1 and Naifei Ren1 1 School of Material Science and Engineering, Jiangsu University, Zhenjiang 212013, China a mzhou@ujs.edu.cn, bcumtydq@163.com, clipliu@hotmail.com Keywords: Ultrafast dynamics, Pump-probe, Carriers, Femtosecond laser, GaAs Abstract.
The technology that has both increased the precision of observations and allowed us to explore the behavior of materials under extreme conditions.
By study GaAs can provide new information and reform material and devices capability [1].
Acknowledgement This work is supported by China National Natural Science Foundation (50275069) and major project of National Natural Science foundation of China (the number of approval: 50435030).
Christia: Journal of Applied Physics, Vol.80 (1996), pp.4626

A New Numerical Simulation Model for Shrinkage Defect during Squeeze Casting Solidification Process Hua Hou1,2,a, Honghao Ge1,2,b, Yuhong Zhao1,2,c,* , Weiming Yang1,2,d 1 College of Materials Science and Engineering, North University of China, Taiyuan, China 2 Research Center of Special Liquid Forming Technology, North University of China, China ahouhua@263.net, bgehonghao123@126.com, czyh388@sina.com, dywmywm2006@126.com * Corresponding author.
The casting material is A356, a kind of aluminium alloy; the molding material is H13.
Project supported by the FANEDD (No. 20101420120005), the Shanxi Provincial Foundation for Returned Scholars China (No. 2010-78), the National Natural Science Foundation of China (No. 50975263; 51204147; 51274175), the Special Program for International S&T Cooperation of the Ministry of Science and Technology, China (No. 2011DFA50520).
Shenyang university journal Vol. 27 (2) (2003) p.138 -142.

The vegetation remote sensing phenology of Qinling Mountains based on the NDVI and the response of temperature to it Ma Xin-ping1,a, Bai Hong-ying1,b, He Ying-na2,c,Li Shu-heng1,d 1College of Urban and Environmental Science , Northwest University, Xi′an , Shaanxi, China 2Shaanxi Huawei Consulting Group, Xi′an, Shaanxi, China amaxinping_2007@126.com, bhongyingbai@163.com, cyingnahe@163.com,dshuhengli@sina.com Keywords:Remote sense phenology;Qinling Mountains Region; Dynamic threshold method ; GIS; MODIS-NDVI Abstract: The acquisition vegetation phenology information by using time series of satellite data is an important aspect of the application of remote sensing and climate change research .
Fig. 1 The study area administrative unit and the distribution of meteorological data sites 2 Materials and methods 2.1 Data sources and preprocessing The data used in this study include :2000- 2010 's MODIS VGT-NDVI data set , the data from the "eco- decade project in Shaanxi Province " data sets, After the atmospheric correction, radiometric correction, geometric correction and stretching of source data, the 10d maximum synthetic NDVI data was generated, The spatial resolution of 250m, data projection for Albers projection, coordinate with WGS-84.
The monthly mean temperature data of 24 ground stations in study area in 1960-2012; other auxiliary materials include: the county community map of Qinling Mountains area, 1:100 million vegetation type map in Qinba mountainous area, field survey data of GPS . 2.2Research methods The threshold method is through setting the vegetation index threshold conditions to determine the start and end of the growing season.
,African land-cover classification using satellite date.Science.1985. 227(4685): 369-375 [2] Fang X Q,Yu W H,PROGRESS IN THE STUDIES ON THE PHENOLOGICALRESPONDING TO GLOBAL WARMING,Advance In Earth Sciences, 2002, 17（5）：714-720 [3] Liu L L,Liu L Y,Hu Y.Assessment and Intercomparison of Satellite-derivedStart-of-Season (SOS) Measures in Eurasia for 1982-2006, Progress in Geography, 2012, 31（11）：1433-1442 [4] Studer S, Appenzeller C, Defila C.
International Journal of Remote Sensing, 1990,11(12) :2269 - 2279

The material properties of the CFRP plate and cohesive glue used in the flexural tests are given in Table 2.
Table2: Material properties of CFRP plate and cohesive glue.
Material Tensile strength Tensile elastic Modulus Elongation CFRP plate 2.57×103 MPa 1.73×105 MPa 1.7% cohesive glue 45MPa 3395.2 MPa 1.6% Prestressing Aanchorage System.
Acknowledgements This work was financially supported by the Guangxi Natural Science Foundation Key Project (0832002Z), Guangxi Science Research and Technology Development Project (0992001-13) and Guangxi Natural Science Foundation (2010GXNSFB013006).
Green: Journal of Composites for Construction, Vol. 12(2008) No.3, p.274

EFFECTS OF DODECANOIC ACID MODIFIED SIO2 ON FILLER DISPERSION AND IONIC CONDUCTIVITY OF PMMA/ENR 50/LIBF4 ELECTROLYTES SITI IZZATI HUSNA Mohd Azuana*, FAMIZA Abdul Latifb and SHARIL FADLI Mohamad Zamric Faculty of Applied Sciences, UniversitiTeknologi MARA, 40450 Shah Alam, Selangor, Malaysia ahusnaazuan@gmail.com, bfamiza@salam.uitm.edu.my, csharil7240@salam.uitm.edu.my Keywords: Polymer blend, ENR 50, PMMA, Chemically modified SiO2, Polymer electrolyte.
Sharma, Role of Salt Concentration on Conductivity and Discharge Characteristics of PMMA Based Polymer Electrolyte System, International Journal of Scientific and Research Publications 2(12) (2012) 10–14
Aziz, The Anti-Plasticization Effects of Dimethyl Carbonate Plasticizer in Poly (Methyl Metacrylate) Electrolyte Containing Rubber, Materials Sciences and Applications 4 (2013) 663–666
Zhu, Surface-modification of SiO2 nanoparticles with oleic acid, Applied Surface Science 211(1-4) (2003) 315–320
Latif, SiO2 Filler as Interface Modifier in PMMA/ENR 50 Electrolytes, Advanced Materials Research 812 (2013) 120–124

Materials and methods Phosphogypsum samples were from Pingba phosphoric acid plant and Machangping phosphoric acid plant in central Guizhou Province.
Acknowledgements This project was financially supported by Project of Education Ministry of China (2009-1599-20) and National Nature Science Foundation of China (40961030).
Samek: The Science of the Total Environment Vol.149(1994), P. 1–38 [2] A.
Delgado: The Science of the Total Environment Vol.403(2008), P. 80–88 [4] C.G.
Nieto: Journal of Hazardous Materials Vol.148(2007), P. 745–750

Loboda2 1Department of Materials Science and Engineering, Stony Brook University, Stony Brook, NY, 11790 2Dow Corning Compound Semiconductor Solutions, Midland, Michigan, 48686 amichael.dudley@stonybrook.edu Keywords: wide band gap semiconductor, epitaxial growth, stacking fault, threading dislocation Abstract.
Topography experiments were carried out at the Stony Brook Synchrotron Topography Facility, Beamline X-19C, at the NSLS, BNL (DOE Office of Basic Energy Sciences Contract no.
Bagano, Journal of Crystal Growth, 310 (2008) 757-765 [5] M.
Materials Science Forum, 679-680 (2011) 269-272 [6] M.