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Jalil1,c 1School of Material Engineering, Universiti Malaysia Perlis, Kompleks Pusat Pengajian Jejawi 2, 02600 Jejawi, Perlis, Malaysia. 2School of Applied Physic, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 Bandar Baru Bangi, Selangor, Malaysia.
International Journal of Polymeric Materials 56 (3) (2007) 327-338
Materials Science and Engineering B 117 (2005). 27-36
Ceramic International 37 (2011). 3237-3245
Materials Science and Engineering B. 156 (2009).24-31

Al-Hattab2,b* 1,2Chemical Engineering Department, Babylon University, Babylon, Iraq.
Choi et al., "CFD analysis and scale up of a baffled membrane reactor for hydrogen production by steam methane reforming," Computers & Chemical Engineering, vol. 165, p. 107912, 2022
Ma, "Experimental and simulation studies of the production of renewable hydrogen through ethanol steam reforming in a large-scale catalytic membrane reactor," Chemical engineering journal, vol. 303, pp. 302-313, 2016
Yu et al., "Simulation of a porous ceramic membrane reactor for hydrogen production," International journal of hydrogen energy, vol. 30, no. 10, pp. 1071-1079, 2005
Sheintuch, "On-site pure hydrogen production by methane steam reforming in high flux membrane reactor: Experimental validation, model predictions and membrane inhibition," Chemical Engineering Journal, vol. 262, pp. 862-874, 2015.

Synthesis, Characterization and Gas Sensing Properties of Titanium Dioxide Nanoparticles by Sol-Gel Method Shi-guang Shang1,a, Xin Li2, Ling Zhao1, Rui Lu1 and Hai-feng Chen1 1School of Electronic Engineering, Xi'an University of Posts and Telecommunications, Xi'an 710121, China 2School of Electronic and Information Engineering, Xi'an Jiao Tong University, Xi'an, 710049, china ashangshiguang05@163.com Keywords: TiO2 nanoparticles, Calcination temperature, Gas sensing properties Abstract.
[2] AM Bakhshayesh and MR Mohammadi: Ceramics International, Vol. 39 (2013) No.7, p.7343
[8] MB Suwarnkar, RS Dhabbe, AN Kadam and et al: Ceramics International, Vol. 40 (2014) No.4, p.5489
[12] G Korotcenkov: Materials Science and Engineering R, Vol. 61 (2008) No.1, p.1
[13] S.S.Shang, C.C.Zhu and W.L.Liu: Microelectronics Journal, Vol. 39 (2008) No.1, p.85

[10] Mi, Wen, Tian, Jintao, Weiguo and Xiaoyun, Temperature dependent synthesis and optical properties of CdSe quantum dots Ceramics International Ceramics International 38 (2012) 5575-5583 [11] Yordanov, G.G., H.
Dushkin, Fine control of the growth and optical properties of CdSe quantum dots by varying the amount of stearic acid in a liquid paraffin matrix Colloids and Surfaces A: Physicochemical and Engineering Aspects 322(2008) 177-182
[15] Sun, M., et al., Shape evolution of CdSe nanocrystals in vegetable oils: A synergistic effect of selenium precursor Colloids and Surfaces A: Physicochemical and Engineering Aspects 350(2006) 91-100
Xu, Synthesis of CdSe/CdS with a simple non-TOP-based route Journal of Luminescence 126(2007) 853-858
U Masumdar: Journal of Luminescence. 126 (2006) 853-858

Nonlinear Vibration and Stability Analysis of Functionally Graded Nanobeam Subjected to External Parametric Excitation and Thermal Load Fateme Shayestenia1,a, Mohadese Janmohammadi1,b, Seyedabbas Sadatsakkak1,c* and Majid Ghadiri1,d 1Faculty of Engineering, Department of mechanics, Imam Khomeini International University, Qazvin, Iran, P.O.
Eringen, Nonlocal polar elastic continua, International journal of engineering science 10(1) (1972) 1-16
Dasgupta, Mathematical modeling of a fractionally damped nonlinear nanobeam via nonlocal continuum approach, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science (2019) 0954406219866467
Eringen, Theories of nonlocal plasticity, International Journal of Engineering Science 21(7) (1983) 741-751
Edelen, On nonlocal elasticity, International journal of engineering science 10(3) (1972) 233-248

Bartolo1,c 1 CDRSP Centre for Rapid and Sustainable Product Development, Polytechnic Institute of Leiria, Portugal ageoffrey.mitchell@ipleiria.pt, bmarco.domingos@ipleiria.pt, cpaulo.bartolo@ipleiria.com Keywords: Scaffolds, Tissue engineering, Biomanufacturing, Biodegradable polymers Abstract.
Materials and Biomanufacturing Tissue engineering sets out to generate biological substitutes that help restore tissue function or in some situations generate whole organs.
The available materials are largely ceramic-based but polymers have also been explored [6].
Conclusions A wide variety of methodologies have been proposed for processing polymers into porous scaffolds for tissue engineering.
References [1] AS Rowlands, SA Lim et al Biomaterials Vol.28 (2007) p.2109 [2] Y Nagai, LD Unsworth et al Journal of Controlled Release Vol.115, (2005) p.18 [3] M Domingos, D Dinucci, S Cometa, M Alderighi, P Bartolo and F Chiellini International Journal of Biomaterials (2009) 239643 [4] P.J.

Hanada: Materials Science and Engineering A,Vol. 346 (2003), p. 65-74
DeVan : International Journal of Refractory Metals & Hard Material, Vol.18 (2000), p.237-243
Mrowec: Materials Science and Engineering, A Vol. 267(1999), p.267-276
Tsakiropoulos and Materials Science and Engineering A Vol. 441 (2006) p. 26- 38
Hanada: Materials Science and Engineering A Vol. 364 (2004) p.151-158.

It is composed of a resonant piezoelectric ceramics motor, a linear bearing and a linear encoder .
System structure The high-precision and super-slow motion stage is composed of resonant piezoelectricity motor, linear bearings and exposed linear encoders (shown in figure 1).The stage is driven by motor drive head which moves in ellipse track and frictions with ceramics bar which adheres to the motion stage.The resonant piezoelectricity motor is used to provide linear motion.
Zhang and et al: Journal of Materials Processing Technology, Vol.129 (2002), pp. 485-489
Qu: Proceedings of the IEEE International Conference on Industrial Technology (1996), pp.771-775
Angelo: Power Engineering Journal, (June, 2002), pp.105-11.

Comparision of the Preparation Methods of Mesoporous Phosphate Compounds Belonging to NZP Family Zheng Peng1,a, Zhu Linhua2,b*, Si Tian3,c, Sun Yanlin4,d 1,2,3,4Chemical Engineering Faculty of Kunming University of Science and Technology, Kunming, China a530984395@qq.com, bhualing67731@hotmail.com, cjayzhou-521@163.com, de410303a@163.com Key words: mesoporous phosphate compounds with NZP structure; template PEO; sol-gel method; coprecipitation (CP); mechenochemical activity (MA) Abstract: Using polyethylene oxide (PEO) as template, the new types of mesoporous phosphate compound which belongs to NaZr2(PO4)3(NZP) family were synthesized by copreciptate, sol-gel and mechanochemical activation(MA) route respectively.
The above research results indicate that it is promising to expand the application field of the powder of NZP family from low thermal expansion ceramics to catalytic materials.
Therefore, investigation of preparation methods to obtain the porous NZP family compounds is the first step to explore its application from ceramic to catalysis material.
International Union of Pure and Applied Chemistry (IUPAC) defined four different types of mesopore shape according to the adsorption-desorption hysteres loops in mesoporous materials [4].
Journal of Chinese Ceramic Society, 10(2009) 1640-1644 [3] Kruk M, Jaroniec M.

Wan3 1 The Advanced Manufacturing Technology Research Centre, Department of Industrial and Systems Engineering, The Hong Kong Polytechnic University, Hung Hom, Hong Kong 2 State Key Lab of Pulp & Paper Engineering, South China University of Technology, Guangzhou, Guangdong Province, P.R.
China 510640 3 Faculty of Electromechanical Engineering, Guangdong University of Technology, Guangzhou, Guangdong Province, P.R.
Acknowledgement The research work was supported by the State Key Lab of Pulp & Paper Engineering of South China University of Technology and the Hong Kong Polytechnic University.
Monaghan: International Journal of Machine Tools and Manufacture, 40, (2000), p.1351-1366 [4] N.
Yue and Z.N Guo: World Journal of Engineering. 5(4) (2008), p.539-540