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Adhesion additive influence on polyamide nano polymer composite properties, Defect and Diffusion Forum 368 (2016) 142-145
Prediction and Verification of Compatibility of MMT Nanofiller in PA6 Matrix, Key Engineering Materials 635 (2015) 194-197
Baird, Preparation of polymer-clay nanocomposites and their properties, Advances in Polymer Technology 25 (2006) 270-285
Baron, Gate location and its impact to flowing characteristics of plastic moldings, Key Engineering Materials 669 (2016) 36-43
Selected Properties of Composites with Polypropylene after Ageing, Key Engineering Materials 635 (2015) 212-215

Introduce Descartes rectangular coordinate system where axis is directed along gasification fire front; –axis is vertical; and axis is directed along the mine-working axis toward gasification fire advance.
Engineering Geology, (151), 120-127. doi:10.1016/j.enggeo.2012.09.007 [2] Liu, S., Wang, Y., Yu, L., & Oakey, J. (2006).
Advanced Engineering Forum. (25), pp. 1-10.
Engineering Geology, (185), 63-70. doi:10.1016/j.enggeo.2014.11.013 [27] Otto, C., & Kempka, T. (2015).
Archives of Civil and Mechanical Engineering, 18(4), 1183-1197. doi:10.1016/j.acme.2018.01.012 [30] Saik, P.B., Dychkovskyi, R.O., Lozynskyi, V.H., Malanchuk, Z.R., & Malanchuk, Ye.Z. (2016).

Fabrication of SiC devices requires also engineering and recovery of defects.
Most common utilized methods of defects engineering in SiC are ionic implantation and doping steps.
Harima, Raman scattering characterization on SiC, Microelectronic Engineering. 83 (2006) 126‑129
Tomobe, Raman characterization of damaged layers of 4H-SiC induced by scratching, AIP Advances. 6 (2016) 015207
Chante, High electrical activation of aluminium and nitrogen implanted in 6H-SiC at Room Temperature by RF annealing, Materials Science Forum. 353–356 (2001) 571.

An ANN Approach in Prediction of Microhardness in a Furnace Cooled Sintered P/M 6061 Aluminium Compacts Solay Anand S 1, a and Mohan B 2, b 1Research Scholar, ARM College of Engineering and Technology, Anna University, Chennai, India. 2Associate Professor, Department of Production Technology, MIT Campus, Anna University, Chennai, India asolayarm@yahoo.com, bmohan@mitindia.edu Keywords: Powder Metallurgy, Particle size, cooling rate, Porosity, Artificial Neural Network, Back propagation algorithm.
Journal of Automobile Engg., Vol.27, 2002, pp52 [3] Schaffer GB Material Forum 24, 2000, pp109 – 125
Journal of Materials Science Engineering A, vol.346, 2003, pp266-272
[6] Chawala N Babic D Williams JJ Polasik SJ Marcucci M Narasimhan KS, Advances in Powder Metallurgy and Particulate Materials.
Material Science Engineering A, vol.308, 2001,pp180-188

Journal of Systems Engineering and Electronics, 12(2):19-22 (2001)
Forum on Advances in Structural Engineering[C].Beijing, China: China Architecture & Building Press, 853-860 (2008)

Kim 3, d 1 Department of Mechanical and Aerospace Engineering Carleton University 1125 Colonel By Drive, Ottawa, ON, K1S 5B6, Canada 2 Structures and Materials Performance Laboratory, Institute for Aerospace Research National Research Council Canada, Ottawa, ON, K1A 0R6, Canada 3 Division of Materials and Process, UES, Dayton, OH 45432, USA a dlaurin@connect.carleton.ca, bdongyi.seo@nrc-cnrc.gc.ca, chsaari@mae.carleton.ca, d ywkim@ues.com Keywords: titanium aluminide, powder metallurgy, hot isostatic pressing, beta phase Abstract.
Future work on these alloys include hot forging tests to evaluate the hot workability, as well as heat treatments to remove the beta phase and create a microstructure that is suitable for high temperature applications in gas turbine engines. 0 1 2 3 4 5 6 7 8 9 10 1150 1200 1250 1300 1350 β-Phase (vol. %) HIP temperature (°C) G2Acknowledments This research has been supported by the Natural Science and Engineering Research Council of Canada through the Discovery Grants Program and the Postgraduate Scholarships Program.
Forum Vol. 539-543 (2007), p. 1531 [4] F.
Kim, "Advances in gamma alloy technology," presented at ASM/TMS Spring Symposium, Niskayuna, NY, 2005.

Performance Analysis on Variable Injectors to Improve the Internal Velocities and Flow Rates in a Fuel System for Natural Gas Vehicles Kwonse Kim1,a, Dooseuk Choi2,b* 1Department of Mechanical Engineering, Graduate School, Kongju National University, 1223-24, Cheonan-daero, Seobuk-gu, Cheonan-si, Chungcheongnam-do, 31080, Korea 2Division of Mechanical & Automotive Engineering, Kongju National University, 1223-24, Cheonan-daero, Seobuk-gu, Cheonan-si, Chungcheongnam-do, 31080, Korea akimkwonse@kongju.ac.kr, bdschoi@kongju.ac.kr Keywords: Natural gas, NG Injector, Plunger, Mass flow diffusion, Fuel consumption Abstract.
Acknowledgement This work was supported by the Industrial Strategic Technology Development Program (10053151, Development of the 800kPa Fuel System of a High Pressure Precision Control for NGV) funded by the Ministry of Trade, Industry & Energy (MI, Korea) References [1] Kwonse Kim, Dooseuk Choi, Analytic Visualization on Chocking Characteristics of Velocity according to a Change in Mass Flows and Plunger Gaps within NGV Injector, Advances and Applications in Fluid Mechanics, 19 (3), 2016, pp. 631-642
[3] Kwonse Kim, Dooseuk Choi, Optimized Pressure Determined in Accordance with Variable Plunger Stroke of Internal Injector NGV, Defect and Diffusion Forum, 307(2016), pp. 41-51

Innovation Design Method of Product Base On Materials Innovation Technologies  Yuan Guo1, a, Xin Shi1, b 1College of Mechanical-Electric and Automotive Engineering, Chongqing Jiaotong University,Chongqing,400074, P R China agymg12@126.com, bwxsx@tom.com Keywords: Product Innovation, Material Technology, Transformation, Design methods Abstract.
Conclusions Advances in materials technology for product design and innovation bring an immense untapped space, designers should not only understand the properties of characteristics of various materials, but also dare to explore the new possibilities of materials’ application methods and to grasp future product design trends.
References [1] Min Wang, Yajie Lu: Design· Material· Emotion (Changchun Literature and Art Forum Press, Changchun 2011) [2] Rudolf Arnheim: Visual Thinking (People Press, Sichuan 1997) [3] Information on http://www.dezeen.com [4] Jing Chen, Minzhi Wang: Packaging Engineering.

Chemical Reduction Behaviour of NiO under Various Concentration of Carbon Monoxide Using TPR and XRD Techniques Salma SAMIDIN1,a,*, Maratun Najiha ABU TAHARI1,b, Siti Sarahah SULHADI1,c, Fairous SALLEH1,d, Norliza DZAKARIA2,e, Wan Nor Roslam WAN ISAHAK3,f, Muhammad Rahimi YUSOP1,g, and Mohd Ambar YARMO1,h,* 1Department of Chemical Science, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor, Malaysia 2School of Chemistry and Environment, Faculty of Applied Sciences, Universiti Teknologi MARA, Cawangan Negeri Sembilan, Kampus Kuala Pilah, Pekan Parit Tinggi, 72000 Kuala Pilah, Negeri Sembilan, Malaysia 3Department of Chemical Process Engineering, Faculty Engineering and Built Environment, Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor Darul Ehsan asalmasamidin@ymail.com, bmaratunnajiha@gmail.com, csitisarahahsulhadi@gmail.com, dfairoussalleh@gmail.com, enorlizadzakaria75@gmail.com, fwannorroslam@ukm.edu.my, grahimi@ukm.edu.my hambar@
X-ray diffractometer (XRD) model Bruker AXS D8 Advance with Cu Kα (40 kV, 40 mA) x-ray radiation source was used to characterize metal oxide phases before and after reduction.
Forum, vol. 888, pp. 524–528, 2017

Effect of Melt Overheating Treatment on the Melt Structure and Solidified Structures of Al75Bi9Sn16 Immiscible Alloy Peng Jia1, a, Yang Liu1, b, Jinyang Zhang1, c, Yuyao Ma1, d, Chen Wu1, e, Haoran Geng1, 2, *, f, Degang Zhao1, g, Zhongxi Yang1, h, Min Zuo1, i, Zhuwei Lv1, j, Yijun Ding1, k, Shun Zhang1, l 1School of Materials Science and Engineering, University of Jinan, No. 336, West Road of Nan Xinzhuang, Jinan 250022, Shandong, China 2Shandong Provincial Key Laboratory of Preparation and Measurement of Building Materials, University of Jinan, No. 336, West Road of Nan Xinzhuang, Jinan 250022, Shandong, China amilai19871219@163.com, b17854172002m@sina.cn, c18766127678@163.com, dmyy820602081@163.com, ezzwuchen@126.com, fmse_genghr@ujn.edu.cn, gmse_zhaodg@ujn.edu.cn, hmse_yangzx@ujn.edu.cn, imse_zuom@ujn.edu.cn, j15053102052@163.com, k603888739little@163.com, l17862915675@163.com Keywords: Al-based immiscible alloy, Liquid phase separation, Melt overheating treatment, Core-shell
As an important engineering alloy, monotectic alloys have a wide range of applications and great potentials as important structural and functional materials, such as self-lubricating materials, electrical contact materials, superconducting materials, giant magnetoresistance materials and fabrication of porous materials, due to its special microstructures and properties [14–19].
The cylinder disks were cut from the central cross-section of the casting samples, mounted into phenolic plastics, ground and polished mechanically without etch to examine their phase constitution, macroscopic morphologies and component using an X-Ray diffraction (XRD, Bruker D8 Advance) with a Cu Kα irradiation and a field emission scanning electron microscope (FESEM, FEI QUANTA FEG 250) coupled with an energy dispersive spectroscopy (EDS).
Forum 331 (2000) 155-160