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EPD is a technologically facile and largely scalable technique, which allows for the deposition of materials onto semiconductor wafers whose diameter (several inches) is broadly used by industry.
ACS Applied Materials & Interfaces 3 (2011) 3611-3615
Semiconductor Science and Technology 28 (2013) 045006
Journal of Colloid and Interface Science 215 (1999) 159-166
Journal of the American Ceramic Society 83 (2000) 1399-1401.

For specimen S3 the notch was positioned in the finer grain size material, Figure 1(b) and for specimen S4 it is vice versa.
Petch: Journal of the Iron and Steel Institute 174(1953), p25
[4]M.J.N.VPrasad, S.Suwas, and A.H.Chokshi: Materials Science and Engineering a-Structural Materials Properties, Microstructure and Processing 503(2009), p86
Materials Science and Technology 26(2010), p591
Flewitt, and D.J.Smith: Materials Science and Engineering A-Structural Materials Properties, Microstructure and Processing 527(2010), p7387.

And the size of pore diameters are different, is one of mesopore materials presenting high quality filler and catalyzer carrier.
Choosing chrysotile asbestos tailing, kaolin tailing waste and waste alumina were as raw materials in thermal treatment experiments.
Experimental Materials.
And the size of pore diameters are different, is one of meso-pore materials present high quality filler and catalyzer carrier.
Gerle, Thermal decomposition of asbestos-containing materials, J thermanal calorim. 7(2013)179-188

Journal of Nanjing university of technology,2004, 26(2):18-23
Journal of safety science and technology of China,2010,6(3):163-166
Journal of natural gas industry,2005, 25(6):132-133
Beijing: science press,2005:83-88
Journal of industrial safety and dustproof, 1999(5):1-4.

Journal of Loss Prevention in the Process Industries, 23, 498-506
Journal of Loss Prevention in the Process Industries, 6(1), 15-19
Fire Safety Journal, 38, 147-163
Journal of Loss Prevention in the Process Industries, 12, 189-194
Journal of Hazardous Materials, 165, 1248–1252.

Journal, 55 (2016) 1151-1157
Shafie, Unsteady MHD free convection flow of Casson fluid past over an oscillating plate embedded in a porous medium, Engineering Science. and Technology International Journal, 18 (2015) 309-317
Amin, Hydromagnetic transport phenomena from a stretching or shrinking nonlinear nanomaterial sheet with Navier slip and convective heating: a model for bio-nano-materials processing, Journal of Magnetism Magnetic Mater, 368 (2014) 252–261
Kar,S.N.Sahoo,P.K.Rath,G.C.Rath, Heatandmass transfer effects on a dissipative and radiative viscoelastic MHD flow over a stretching porous sheet, Arabian Journal Science Engineering, 39 (5) (2014) 3393–3401
Anjali Devi, M.Prakesh, Temperature dependent viscosity and thermal conductivity effects on hydromagnetic flow over a slandering stretching sheet, Journal of the Nigerian Mathematical Science. (2015)

China 2School of Materials Science and Engineering, China University of Mining & Technology, Xuzhou, Jiangsu 221116, China 3Jiangsu province xuzhou technician institute, Xuzhou, Jiangsu 221116, China aweifuxiang2001@163.com, byugengxi@126.com Keywords: CIVA; welding cladding; austenitic stainless steel; defect Abstract: In the paper, ultrasonic testing of austenitic stainless steel pipeline welding cladding is stimulated based on ultrasonic testing software CIVA.
Thus, in-depth understanding of acoustic beam propagation behaviors in anisotropic material and accurate prediction of echo signal received by testing system can provide important theoretical guidance for ultrasonic nondestructive assessment of the materials[5].
Acknowledgements This work was supported by " Jiangsu Key Laboratory of Large Engineering Equipment Detection and Control " (JSKLEDC201206) and China Postdoctoral Science Foundation (20110491471).
Bovik: International Journal of Solids and Structures Vol. 40 (2003), p. 3493 [3] X.
Xu: Journal of Nondestructive Evaluation Vol. 29 (2010), p. 105 [4] M.

These materials with high transition temperature were researched.
This technique was known for its simplicity, low cost, easy to add doping materials and the possibility of varying the film properties.
Zeng, Ferromagnetism and possible application in spintronics of transition-metal-doped ZnO films, Materials Science and Engineering: R: Reports, 62 (2008) 1-35
Phani, Microwave-assisted synthesis and characterization of flower shaped zinc oxide nanostructures, Materials Letters, 63 (2009) 242-245
Yan, Ferromagnetic co-doped ZnO film and fine patterns prepared using photosensitive sol–gel method, Journal of sol-gel science and technology, 54 (2010) 325-328

Particle packing model are always utilized to investigate and predict micro structure performance of material.
Therefore, our model is suitable to research material properties of resin concrete.
Tan: Journal of Computer-Aided Design & Computer Graphics, Vol. 23 (2011) No.7, p.1244
Chen: Computational Material Science, Vol. 51 (2012), p.172
Wang: Journal of Dalian University of Technology, Vol. 46 (2006), p.105.

Development Of Multi-Ferroic Actuator/Sensor Material And Device for Intelligent/Smart Technology --- Baisc Design And Experimantal Verification--- Yasubumi Furuya1 , Teiko Okazaki2 Faculty of Science and Technology, Hirosaki University 3, Bunkyo-cho, Hrosaki-shi, 036-8560, Japan, 1 furuya@cc.hirosaki-u.ac.jp , 2 teiko28@cc.hirosaki-u.ac.jp Key Words: Multi-ferroic effect, Multifunctional Material, Composite Actuator, Smart materials, SAW Device Sensor, Abstract.
Introduction An ideal actuator/sensor material has high response, high strength, large displacement, and high energy conversion efficiency and smartness having a sensor/actuator functions simultaneously. [1] [2] As one of such a high performance and multi-functional materials and devices, the category of multi-ferroics materials is gathering strong interest in material science and engineering field.[3] The basic concept and category of ferroic and multi-ferric materials are mentioned briefly (see, Fig.1), and technical importance of multi-ferroic approach for designing advanced multi-functional actuator/sensors based on a mutual coupling effect between each ferroic material elements will be pointed out for intelligent/smart technology. as shown in Fig.2. [4] In this figure, E, H andσ mean Fig.1 Multi-ferroic materials and their mutual relationship with material functions.
Fig.1 Multi-ferroic materials and their mutual relationship with material functions.the electric energy, magnetic energy and elastic (strain) energy respectively.
For instance, ferromagnetic shape memory alloys ,i.e.NiMnGa,FePd , megnetoelectric materials,i.e.BiFeO3 and PMN-PT as shown in the overlapping area in Fig.1."
(On-line Journal) [5] Y.FuruyaM.Wuttig, I.Takeuchi: Kinzoku 76-4 pp.367-372(2006) [6] I.Takeuchi: Combinatorial Materials Syntheses , edited by I.Takeuchi and Xiao-Dong Xiang, publisher: Marcel Dekker,2003(ISBN:0-8247-4119-6) [7] V.Varadan: Tutorial Lecture, 3rd Inter.