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AIAA Journal 2003;41(5):933-940
Journal of Composite Materials 2013; DOI:10.1177/0021998313502741 [4] A.
Journal of Composite Materials 2013; DOI:10.1177/0021998313502742
Composite Science and Technology 2011;71(6):836-846
Progressive damage modeling in fiber-reinforced materials.

Results and Discussion Raw Materials.
Materials Letters. 1999;39:6-11
Materials Letters. 1995;22:163-8
Journal of Materials Science Letters. 1999;18:1595-7
Materials Letters. 2013;111:211-3

INTRODUCTION Composite materials play a vital role in the aerospace industry since 1970s, for its multiple advantages.
Therefore, the monitoring of the structural health of CFRP materials by means of electrical conductivity is feasible by exploiting the inherent conductivity of the carbon fiber.
Ali, Structural health management using wave propagation techniques, in: Proceedings of ISSS 2005 International Conference on Smart Materials Structures and Systems, July 28–30, 2005, Bangalore, India
Composite Science and Technology 2002;62:629–39
Advance Composite Materials 2004; 13/2:107–20

Otherwise, shopping malls have air conditioning, it belong to the confined space, and most of the Pb in the dust comes from indoor building materials.
World Applied Sciences Journal, 20(5): 628-636
World Applied Sciences Journal, 19(2): 183-191
World Applied Sciences Journal, 20(1): 80-86
Journal of Aerosol Science 33, 237-255

In the study, the influence law of chloroform removal rate were investigated by a combining of one, two or three materials.
The three materials are Fe0, TiO2 - EP and AC.
It was very similar with the reaction of Fe0 and CCl4[[] Bradley R.Helland, Pedro J.J.Alvarez, Jerald L: Journal of Hazardous Materials, Vol.14(1995), p205. ].The precipitation of resultants cover on the iron surface.
The actions among these three materials are affected by coupled actions of active sites which have an independent existence.
Therefore, the mutual reaction process, mechanism and kinetic model among three materials are necessary to be researched in future.

Similar processes are performed using four different materials.
Dong S.B. and Selna L.G., Natural Vibrations of Laminated Orthotropic Shells of Revolution, Journal of Composite Materials, Jan 1970; vol. 4: pp. 2 - 17
Dai Gil Lee, Calculation of Natural Frequencies of Vibration of Thin Orthotropic Composite Shells by Energy Method, Journal of Composite Materials, Jan 1988; vol. 22: pp. 1102 - 1115 [6].
A. and Yaniv G., Buckling of Circular Cylindrical Composite Shells under Axial Compression and Bending Loads, Journal of Composite Materials, Feb 1991; vol. 25: pp. 162 - 187
Jones R.M., “Mechanics of composite Materials”, Second edition, Material and sciences Series, Taylor & Francis Inc, 1999.

Surface modification of magnetic materials with silica-containing many silanol groups is very effective compared to using only magnetic materials [17,18].
Shang, Remediation of mercury contaminated sites – A review, Journal of Hazardous Materials. 221–222 (2012) 1–18
Snyder, Achieving very low mercury levels in refinery wastewater by membrane filtration, Journal of Hazardous Materials. 215–216 (2012) 98–107
Wang, Room-Temperature Voltage Stressing Effects on Resistive Switching of Conductive-Bridging RAM Cells with Cu-Doped SiO2 Films, Advances in Materials Science and Engineering. 2014 (2014) 1–6
Lee, Magnetic antimicrobial nanocomposite based on bacterial cellulose and silver nanoparticles, Journal of Materials Chemistry. 20 (2010) 6948

Preparation and Performance of AlN-ZrO2 Multiphase Material Wang Rong-lina, Wang Zhi-fa b, Bu Jing-longc and Zhang Li-fang College of Material Science and Engineering, Hebei Polytechnic University, Tangshan 063009, China a wrl@heut.edu.cn, bwangzf@heut.edu.cn, cbjl@heut.edu.cn Keywords: Aluminum nitride; Zirconia; Nitriding reaction; Thermal expansion Abstract.
AlN-ZrO2 composites were prepared by solid state reaction in N2 atmosphere at 1500°C for 4h with PSZ and Al powders as raw materials.
Raw materials mixtures were mixed for 2h by wet ball method.
Han: Journal of Functional Materials.
Ivanov: Journal of Materials Science.

Journal Citation (to be inserted by the publisher) Copyright by Trans Tech Publications Porosity-Grading Porous Materials by Centrifugal Sintering Y.
Uchimura 2 1 National Institute of Advanced Industrial Technology and Science, Moriyama, Nagoya 463-8560, Japan, y.kinemuchi@aist.go.jp 2 Shinto V-Cerax, ltd., Honohara, Toyokawa 442-8506, Japan Keywords: Porous Materials, Centrifugal Force, Grading Material, Sintering Abstract.
The acceleration was generated by high-speed rotation of ceramics, which allows pressing materials gradually along the radius of rotation.
Among those technologies, it is widely accepted that specifically designed microstructures, on both the micro- and macro-scale, with designated pore diameter, porosity and specific surface area are the key to improving these materials' performance.
Under the centrifugal force, materials are subjected to pressure which gradually changes along the radial direction of rotation.

There are presented aspects regarding the welding of ferrous metal materials (DD13), couples of non-ferrous metallic materials (Al Cu range) and steels with aluminum.
For welding tools, the optimal materials, sizes and geometries are adapted for each couple of materials to be welded and for each developed FSW welding technology.
Hirsch – Automotive Trends in Aluminium – The European Perspective, Materials Froum Vol. 28, Institute of Materials Engineering Australasia Ltd, 2004 [2] T.
Ionescu – „Innovative solutions for ultrasonic joining“, Welding and Material Testing Journal, Year XXVI, No. 1, pp. 3-5, 2017, ISSN 1453-0392, 2017
Ciucă – Application of Thermography in Materials Science and Engineering, Chapter in the book: Raghu Prakash “Infrared Thermography”, pp.27-52, available at http://www.intechopen.com/books/infrared-thermography, ISBN: 978-953-51-0242-7, Publisher InTech, March, 2012