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In textiles, the major interest in microencapsulation is currently in the application of durable fragrances, phase-change materials, antimicrobial agents[1-4].
Artemsia argyi oil, as susceptible materials from the outer phase, is microencapsulated to increase their stability.
Experimental Procedures Experimental materials.
The reason might be due to the increase of 2D resin, the crosslinking among these materials improved and the release of formaldehyde also accelerated.
Journal of Applied Polymer Science. 102(2006) 4915 [2] D.Y Hu., J.S.

Such parts entered a wide range of applications in the optical, automotive, and communication industry as well as in medical and life sciences [1].
In precision grinding, AE signal can be described as a set of elastic pressure waves generated by the rapid release of energy stored within a material.
C45 steel was selected as the experimental material and its radius was 60 mm.
Zhang, An improved discrete system model for form error control in surface grinding, Journal of Materials Processing Technology. 210 (2010) 1794-1804
Landers, Machining process monitoring and control: The State-of-the-Art, Journal of Manufacturing Science and Engineering. 126(2004) 297-310

Experimental Materials and Procedure MAO coatings were prepared with 10kW DC pulse microarc oxidation system.
Materials Science Forum, 2005, 488:677-679
Journal of Materials Science & Engineering. 2005, 23（2）：262-264
Materials Chemistry and Physics,2008, 107:356-363 [11] Fa he CAO, Long yong LIN, Zhao ZHANG, etal.
Transactions of Materials and Heat Treatment, 2002, 23(1):6-7

Journal of Electronic Materials, 23(8) (1994) 709-713
Journal of Electronic Materials, 32(2) (2003) 63-69
Journal of Electronic Materials, 29(10) (2000) 1207-1213
Journal of Materials Research, 13(10) (1998) 2859-2865
Journal of Electronic Materials, 29(2) (2000) 237-243

Acknowledgements The authors gratefully acknowledge the support of the Key Item of the Natural Science Foundation of China (NSFC-Key) through grant no. 10732020 and the Ph.D.
Ohandley: Journal of Applied Physics Vol. 83 (1998), p. 3263-3270
[5] C.Liang, C.A.Rogers: Journal of Intelligent Material System Structure Vol. 1 (1990), p. 207-234
[6] J.G.Boyd, D.C.Lagoudas: International Journal of P1asticity Vol. 12 (1996), p. 805-873
[7] L.C.Brinson: Journal of Intelligent Material Systems and Structures Vol. 4 (1993), p. 229-242 [8] E.J.Graesser, F.A.Cozzarelli: Journal of Intelligent Material Systems and Structures Vol. 5 (1994), p. 78-89 [9] Y.Ivshin, T.J.Pence: Journal of Intelligent Material Systems and Structures Vol. 5 (1994), p. 455-473 [10] F.Auricchio, J.Lubliner: International Journal of Solids and Structures Vol. 34 (1997), p. 3601-3618

Solid-State Reaction and Gas Sensor Properties of Porous SnO2-In2O3 Composites Yu Cao1,2, Xiaolong Zhou1,2,a, Jianchun Cao1,2, Yuanyuan Peng1,2, Jingchao Chen1,2 and Jie Yu1,2 1 Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, China 2 Key Laboratory of Rare-Precious and Nonferrous Metal Advanced materials (Kunming University of Science and Technology), Ministry of Education, Kunming 650093, China a kmzxlong@163.com Keywords: porous SnO2-In2O3 composites; solid-state reaction; gas sensitivity Abstract: Mixtures of ITO and SnO2 powders were prepared by a solid-state reaction method in order to produce porous composite materials.
Experimental Section Raw materials and ratio.
So, the composite materials get relatively high gas sensitivity with CO.
Journal of Guangzhou University (Natural Science Edition). 5 (2007) 42-46
Materials Chemistry and Physics. 115 (2009) 196-199

Analysis of Processing Equipment for Near-net Shape Manufacturing Technology of Materials Fengquan ZHANG1,a Zhonghan LUO1,b 1National Engineering Research Center for Silicon Steel, Wuhan Iron and Steel Corporation, Wuhan, 430080 a E-mail:FengquanZhang@126.com, b E-mail:wgssri@126.com Key words: Near-net shape, Strip casting, Analysis of processing equipment, High silicon electrical steel, Difficult-to-cut materials Abstract.
The processing equipment for near-net shape technology of materials is introduced in the paper.
According to analysis of industrialized processing equipment and technology testing equipment for difficult-to-cut alloy materials, combined with difficulties in strip casting and features of difficult-to-cut alloy materials, the processing equipment for difficult-to-cut alloy material’s near-net shaping is developed, thus realized single machine-shaping from molten steel to cold rolling product, and improved near-net shape manufacturing technology of materials.
Analysis of Processing Equipment for Near-net Shape Manufacturing Technology Industrialization of Materials Castrip Twin-Roll Strip Continuous Casting Production Line in USA.
Zhu: Journal of Yanshan University.

The other is more manpower, material and financial resources to be devoted to supplement protection arable land and increase its amount with technological advancements.
Acknowledgements This work was financially supported by the Suzhou University Natural Science Project (2012yyb01);Anhui Province Science and Technology Project (11020503084), Anhui Province Universities Young Talents Fund Project(2010SQRW145); Anhui Suzhou University Master Scientific Research Initial Fund Program(2009YSS03).
References: [1] IGBP & HDP Land-use and land-cover change: science/ research plan[J], IGBP Report No·35 & HDP Report No·7，1995
Journal of Natural Resources, 2001,16(2): 121-126
Journal of Heze University,201,33（5）:9-14

W., Friction stir processing: A new grain refinement technique to achieve high strain rate superplasticity in commercial alloys, Superplasticity in Advanced Materials, ICSAM-2000 Materials Science Forum, 357/3 (2001) 507
K., Friction Stir Processing of Commercial AZ31 Magnesium Alloy, Journal of Materials Processing Technology, 191/(1-3) (2007) 77-81
Oh et. al., Capabilities and applications of FEM code DEFORM the perspective of the developer, Journal of Materials Processing Technology, 27 (199l) 25-42 [13] McQueen H.
D., Simulation of extrusion process of AZ31 magnesium alloy, Materials Science and Engineering: A, 499/1 (2009) 221-224
Journal of Material Forming, SUPPL. 1 (2008) 1219-1222

Adding PVA and SA mixed gel to different concentrations of the inorganic carrier materials, prepared composite immobilized activated sludge, and applied to the determination of COD removal rate of wastewater, the results in Table 4.
The COD removal rate is increased by adding inorganic carrier materials, produce composited immobilized activated sludge ball, Overcome the shortcomings of the mass transfer performance of PVA-ball , the mechanical strength is moderate.
Immobilized microorganisms technology and water pollution control [M]．Beijing Science Press，(2002)
The Supporter Materials in Mobilization Cell Technology and Their Applications in Environmental Pollutant Treatment.
Journal of ChongQing JianZhu Uiversity, Vol.22(5) (2000)，P.95～100 [3] Shen Rao Liang et al．Immobilized microbial wastewater treatment technology [M]．Beijing Chemical Industry Press，(2002)