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Kassing, Gas-sensitive properties of nitrogen-rich carbon nitride films, Advanced Materials, 12(9), 2000, pp. 656-660
Ionescu, Characterization of carbon nitride films deposited by hollow cathode discharge process, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 161, 2000, pp. 1002-1006
Malkow, Critical observations in the research of carbon nitride, Materials Science and Engineering: A, 292(1), 2000, pp. 112-124
Awang, Effect of rf power on the chemical bonding and humidity sensing properties of a-cnx thin films, Advanced Materials Research, Trans Tech Publ, (2015) [13] K.
Redhammer, Journal of Spectroscopy, 2013 (2012) [17] S.

Aluminum-induced crystalization of amorphous silicon films deposited by megnetron sputtering Jun Qian1,a, Weimin Shi1,b, Jing Jin1,c, Jirong Li1,d, Yang liao1,e 1School of Material Science and Engineering, Shanghai University, 149 Yanchang Rd., Shanghai, China, 200072 aadele1900@126.com, bwmshi@mail.shu.edu.cn, cjjin@shu.edu.cn,dlijirong890209@sina.com, esunny1172@shu.edu.cn Key Words: Amorphous Si, aluminum-induced crystallization, Poly-silicon Abstracts.
Fuhs:Aluminum-induced crystallization of amorphous silicon , Journal of Non-Crystalline Solids, vol. 299, (2002),p. 5
Shirai: Rapid crystallization of amorphous silicon utilizing a very-high-frequency microplasma jet for Si thin-film solar cells,Solar Energy Materials and Solar Cells, vol. 93, (2009), p. 1154-1157
Kim: Metal induced crystallization of amorphous silicon by using NiCl2 vapor, Journal of the Korean Physical Society, vol. 51, (Jul 2007), p. 84-87
Lee: Crystallization of silicon films by new metal mediated mechanism, Journal of Materials Science: Materials in Electronics, vol. 21, (2009).p. 270-277

Table 2, Physical Properties of Materials S/N PROPERTY VALUE 1.
Science Direct Journal of Construction and Building Materials, 21, 328-337. (2007)
Journal of Materials in Civil Engineering, 17: 553-559. (2005)
Australian Journal of Basic and Applied Sciences, 5(11): 297-308, 2011 ISSN 1991-8178
Australian Journal of Basic and Applied Sciences, 4(10): 5456-5463, 2010 ISSN 1991-8178, INSInet Publication

Materials and Methods Materials and Test Environments.
Hoque, Isolation and Characterization of Bacteria from Rusted Iron Materials, Bangladesh Journal of Botany. 39(2) (2010) 185- 191
Plant Parts, International Journal of Applied Sciences and Biotechnology. 9 (2021) 122- 127
Abdulwahab, Effect of Aqueous Extract of Bitter Leaf Power on Corrosion Inhibition of Al-Si Alloy in 0.5 Caustic Soda Solution, Journal of Minerals and Materials characterization & Engineering. 11 (2012) 667- 670
Murthy, Corrosion mitigation of the oil well steels using organic inhibitors - A review, Journal of Material Environment Science. 3 (2012) 856- 869

Chen: An algorithm for the kinematic design of gear transmissions with high reduction ratio, Materials Science Forum, Vol. 505-507 (2006), p. 1003-1008 [13] L.C.
Chen: On the Kinematics and Statics of Planetary Simple Gear Reducers, Journal of Advanced Materials Research, Vol. 591-593 (2012), p. 2165-2168 [19] L.C.
Tang: The Kinematics of Eight-speed Planetary Gear hubs for Bicycles, Journal of Applied Mechanics and Materials, Vol. 232 (2012), p. 955-960 [20] L.C.
Tang: The Kinematic Design of Three-Speed Automatic Transmission for Electric Motorcycle, Journal of Applied Mechanics and Materials, Vol. 284-287 (2013), p. 979-982 [21] L.C.
Tang: The Kinematic Design of 2K-2H Planetary Gear Reducers With High Reduction Ratio, Journal of Applied Mechanics and Materials, Vol.319 (2013), p. 610-615

Introduction Aluminum alloys have been regarded as one of the candidate liner materials for a high-pressure hydrogen tank in the fuel cell vehicles, since the alloys show high resistance to hydrogen embrittlement rather than the steels and other structural materials [1,2].
Among the commercial alloys, Al-Mg-Si base alloys are believed to be the most promising materials for the metallic tank liner.
If we could utilize the aluminium alloys with higher strength like 7000 series alloys, it has the benefit of the reduction of the weight of the hydrogen tank liner materials.
Ovejero-Garcia: Journal of Materials Science, Vol. 20 (1985), p.2623–2629
Yoshida: Materials Transactions, Vol. 45 (2004), p.315-318.

Preface The 4th International Conference on Materials and Applications for Sensors and Transducers, Bilbao, Spain, hosted about 130 oral and poster papers and more than 100 participants.
Publishing the conference proceedings in the form of 4-page papers in a compact volume of Key Engineering Materials which has a certain large impact in CPSI, while long versions of complete research articles are subject of publication in Sensor Letters and the Journal of Optoelectronics and Advanced Materials, both ISI Journals IV.
The Conference Chairmen Evangelos Hristoforou National TU of Athens Dimitrios Vlachos University of Peloponnese Conference details 4th International Conference on Materials and Applications for Sensors and Transducers, June 8-11, 2014, Bilbao Spain Chairmen Jon Gutierez, University of the Basque Country José Manuel Barandiarán, BCMAN, Basque Center for Materials, Applications and Nanostructures E.
Vlachos, University of Peloponnese, Department of Computer Science and Technology Scientific Committee  Spyridon Diplas, Sintef Oslo, Norway  Mihai Popescu, Editor-in-Chief, Journal of Optoelectronics and Advanced Materials
  Peter Svec, Slovak Academy of Sciences  Horia Chiriac, National Institute for R&D in Technical Physics, Iasi, Romania
  Roberto Germano, Promete, Naples, Italy  Ioannis Raptis, NCSR "Demokritos", Athens, Greece
  Raffaele Battaglia, Novaetech Srl
  Christophe Dolabdjian, University of CAEN, France
  Pavel Ripka, Czech Technical University, Czech Republic
  Saci Messaadi, Université de Batna, Algeria
  Nico Avdelidis, TWI, UK
  Faramarz Hossein-Babaei, K.N.
Vladimir Sivakov, Institute of Photonic Technology, Jena, Germany
  Velonia, K., Department of Materials Science and Technology, University of Crete
  Dediu, Valentin Alek, ISMN-CNR, Italy
  Anthopoulos, T., Imperial College London 
  Morent, Rino, Applied Physics - Ghent University  Papakonstantinou, P., University of Ulster, School of Engineering, Engineering Research Institute  Athouël, Laurence, Dr., IMN-CNRS, University of Nantes, France
  Gascon, J., Catalysis Engineering / Delft University of Technology
  C.N.R.

Kaewkhao1,2,f 1Science Program, Faculty of Science and Technology, Nakhon Pathom Rajabhat University, Nakhon Pathom, 73000, Thailand 2Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University, Nakhon Pathom, 73000, Thailand achumphon@thonburi-u.ac.th, bchaipuksa_ch@hotmail.com, cgolfpo@hotmail.com, dpr_2520@hotmail.com,eploveploy@gmail.com, fmink110@hotmail.com Keywords: zirconium alloy; mass attenuation coefficients; partial interaction Abstract.
Introduction Zirconium alloy materials have been popular used as fuel cladding and structural components materials in nuclear power reactors [1].
Superconducter Science & Technology 18(2005) 101–6
Chewpraditkul, Journal of Quantitative Spectroscopy & Radiative Transfer. 109 (2008) 1260–1265
Chewpraditkul, Journal of Quantitative Spectroscopy & Radiative Transfer 109 (2008) 1260–1265

Liu, Science and Technology Review 29 (2011) 55-58
Xie, Journal of Anhui Agri.
Deng, Journal of Chinese Medicinal Materials 30 (2007) 588-591
Chen, Journal of Applied Polymer Science, Doi: 10.1002/app.41112
He, Journal of Science of Teachers' College and University 32 (2012) 50-52

It is found that a large number of cavities are existed in post-SPF materials.
Materials Processing Technology, Vol.72(1992), p.183-187
Materials Science and Technology, Vol.21 (2005), p. 1209-1216
Duncan, International Journal of Mechanical Sciences 12 (1970) 463
Johnson, International Journal of Mechanical Sciences 12 (1970) 479