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Introduction Stirred reactor is a type of mixing equipment, widely used in chemical, pharmaceutical, metallurgy, paper making, cosmetics, coating materials, food, feed and water treatment and other industries, especially the use of chemical industry [1].
In the PVC polymerization reactor, the main role is to promote the stirring reactor material flow, so that the material is uniformly distributed in the reactor, increasing the mass and heat transfer coefficient.
Materials and catalysts is unevenly distributed, it will affect the quality of PVC, also can cause the polymer sticking to the wall, the polymerization process is not very good.
Journal of East China University of Science and Technology (NATURAL SCIENCE EDITION), 2005,2(31):232-235
Chemical Engineering Journal,2001,3(52):241-245.

Obtained data could find application in identifying the causes of fires and exact assessment of fire risk not only for materials but also for buildings in which the materials form an important part of the fire risk.
For completeness it should be added that the comprehensive assessment of fire risk of certain materials (e.g. construction materials with static or fire separating function) is necessary to know the change of mechanical properties during fire.
According to [19-20] is an important factor affecting the thermal resistance of wood and wood materials the density of materials.
European Journal of Environmental and Safety Sciences.
European Journal of Environmental and Safety Sciences.

It is suitable for many varieties, medium duty and high quality of advanced composite materials’ molding.
It can use a variety of fiber strength materials and resin system, and the products have an excellent surface.
Journal of Composite Materials, July 2002 [6] Jinglan Deng, Xuhui Wang, Jun Lian, the Computer Simulation of RTM Filling Mould Process (Ⅰ) : Establish Mathematics Model, In Chinese.
Journal of Wuhan University of Science and Technology, 2003 [7] Jinglan Deng, Xuhui Wang, Jun Lian, the Computer Simulation of RTM Filling Mould Process (Ⅱ) : Finite Element Analysis, In Chinese.
Journal of Wuhan University of Science and Technology, 2003

ACI Journal.
Journal of Hohai University(Natural Sciences).
Journal of Hunan Institute of Science and Technology (Natural Sciences).
Journal of Tongji University(Natural Science). 37(4)( 2009) , p.475-480.
Journal of Structural Division.

[2] Bochao, L., Youngkoo, and Hongsheng, D., Effects of rheocasting and heat treatment on microstructure and mechanical properties of A356 alloy, Materials Science and Engineering A. 528 (2011) 986–995
[4] Chaudhury, S.K. and Apelian, D., Effects of rapid heating on aging characteristics of T6 tempered Al – Si – Mg alloys using a fluidized bed, Journal of Materials Science. 41(14) (2006) 4684–4690
Effect of processing conditions and microstructure, Materials Science and Engineering A. 385 (2004) 200–211
[8] Lee, C.D., Effect of T6 heat treatment on the defect susceptibility of fatigue properties to microporosity variations in a low-pressure die-cast A356 alloy, Materials Science & Engineering A. 559 (2013) 496–505
[13] Roy M.J. and Maijer, D.M., Response of A356 to warm rotary forming and subsequent T6 heat treatment, Materials Science and Engineering A. 611 (2014) 223–233

International Journal of Rock Mechanics and Mining Sciences 41(Suppl 1): 26-30
Suggested methods for determining tensile strength of rock materials.
International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts 15(1): 99-103
Journal of Rock Mechanics and Mining Sciences 34(5): 831-849
Advanced Materials Research 250-2531: 1448-1451

Materials and methods Materials.
Journal of Hazardous Materials.
Journal of Hazardous Materials.
Environmental Engineering Science.
Journal of Hazardous Materials, 133-1/3(2006), p. 212-217

Experiment Materials APMOC fiber, imported from Russia, offered by Xi’an Aerospace Composite Materials Institute.
Journal of Materials Engineering 2011, No.7. p. 85-89 [4] ZHANG Qi, HUANG Gu.
Journal of Hunan University of Science & Technology(Nutural Science Edition), Vol.24, No.4 Dec. 2009. p.35-38
JOURNAL OF DONGHUA UNIVERSITY(NUTURAL SCIENCE) Vol.35, No.3, Jun. 2009. p.329-331
Beijing: Science Press, 2003. p.20-60.

Gasification characteristics of MSW RDF Yang Fei-hua1, Zhang Qiang1, LI Chun-ping2, Zhan Jia-yu2 1University Of Science and Technology Beijing, Beijing 100083, China; 2Beijing Building Materirals Academy of Science Research/Solid Waste Resources Utilization and Energy Saving Building Materials State Key Laboratory, Beijing 100041, China chyangfeihua@126.com Keywords: municipal solid waste (MSW); refuse derived fuel (RDF); gasification, output ratio, gas composition Abstract.
Materials and Methods (1) Experimental material MSW was collected from Beijing transfer station in August, 2012.
Cumulative gas production means the amount of fuel gas produced by materials complete gasification which is the most basic material gasification indexes and can be roughly represent materials potential gasification.
Chinese Journal of environmental science, 2005, 25 (1): 34~38.
Journal of solar energy, 2001, 22 (3): 286~290.

References [1] Huan Yu, Bowen Xiong, Qingsong Yan, Zhifeng Xu, Changchun Cai: Advanced Materials Research Vol.129-131(2010), p.189
[2] E.Momchilov: Journal of Materials Science and Technology Vol.2 (1994), p.3
[6] G.D.Chandley: Material Reseacher Innovate Vol.31 (1999), p.14
Clegg: Material Science and Technology Vol.15 (1999), p. 812
[9] C.H.Caceres, C.J.Davidson, J.R.Griffiths: Metallurgic Materials Transactions A Vol.30A (1999), p. 2611