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Materials Science Engineering, 323:409, 2002
Advanced Engineering Materials, 5(5):296, 2003
Materials Science Forum, (503-504):299-304, 2006

Analysis of The Characteristics of Gongqing DigiEcoCity Planning Xiaoqiong Li1, a, Wei Zhang2, b, Chunyuan Tao3, c, Yingxiang Wang4, d 1 Poyang Lake Eco-economy Research Center & Civil Engineering and Construction Institute of Jiujiang University, Jiujiang, Jiangxi Province, China, 332005 2 Jiujiang Branch of 707 Institute of China Shipping Industry Corporation, Jiangxi Province, China, 332000 3 Poyang Lake Eco-economy Research Center of Jiujiang University, Jiujiang, Jiangxi Province, China, 332005 4Gongqing Management and Investment Ltd, jiujiang, Jiangxi Province, China, 332000 atm_lixiaoqiong@jju.edu.cn; bzhangweipracticer@126.com; cchunyuan_tao@163.com; dwyingxiang@126.com Keywords: Digital City; Ecological City; Smart City; Comparison Method Abstract.
In 2009 December, the “Development Plan of Sino-Finland Digital Eco Industrial Base in Gongqing City” which was prepared by Jiangxi Engineering Technology Consulting Company was approved by Jiangxi Development and Reform Commission.
The existing natural environment in the planning area offers a good natural ecological basis for the construction of Gongqing Digital Eco city. 3.2 Technologies from Finland Finland has the best bio energy and biomass burning technology advanced waste management technology, sewage treatment and sludge water treatment technology, renewable energy technology, environmental monitoring technology in the world.
In the index of environmental sustainability of the World Economic Forum (ESI), the country have been ranked among 146 countries for 3 times.

Midson2,d, Qiang Zhu3,e 1General Research Institute for Nonferrous Metals, Beijing, 100088, China 2Colorado School of Mines, Golden, Colorado, 80401, USA 3Department of Mechanical and Energy Engineering, Southern University of Science and Technology, 518055, Shenzhen, China ae-mail: zhaohaiyuetzj@163.com, be-mail: lidaquan@grinm.com, ce-mail: lm_grinm@163.com, de-mail: smidson@mines.edu, ee-mail: zhuq@sustc.edu.cn Keywords: Hot tearing; semi-solid; Al-Zn-Mg-Cu alloys; intensification pressure; grain refiner Abstract.
Advanced Materials Research, 2013, 739:190-195. ,[] J.
Materials Science Forum, 2011, 690(1):355-358. ].
Engineering Failure Analysis, 2017, 79:592-605. ] have revealed that grain refinement reduces the susceptibility for hot tearing by accommodating local strains.

Kabir1 and Steve Yue1 1 Department of Mining and Materials Engineering, McGill University, 3610 Rue University, Montreal, Quebec, Canada H3A 0C5 Keywords: High speed rolling, Recrystallization, Texture Abstract.
Applications of magnesium alloys in automotive engineering. in: Bettles C, Barnett M, (Eds.).
Advances in Wrought Magnesium Alloys Fundamentals of Processing, Properties and Applications Woodhead Publishing Limited, 2012
Advances in Wrought Magnesium Alloys Fundamentals of Processing, Properties and Applications Woodhead Publishing Limited, 2012
Forum 618-619 (2009) 483-386

Effect of TIG Welding and Manual Metal Arc Welding on Mechanical Properties of AISI 304 and 316L Austenitic Stainless Steel Sheets Alaa Abou Harb1,a *, Ion Ciuca1,b, Robert Ciocoiu1,c, Mihai Vasile1,d, Adrian Bibis2,e, Bilel Rahali1,f, Ismaiel Al Hawamda1,g 1Faculty of Material Science and Engineering, University Polytechnic of Bucharest, Romania 2Romanian Research & Development Institute for Gas Turbines COMOTI, Romania a*alaaabouhareb84@hotmail.com, bion.ciuca@medu.edu.ro, cciocoiurobert@gmail.com, dvasileionmihai@yahoo.com, eadrian.bibis@comoti.ro, fbilel.rahali@gmail.com, gismaielalhawamda@gmail.com Keywords: AISI 316L stainless steel, AISI 304 stainless steel, Mechanical properties, gas tungsten arc welding, Manual Metal Arc welding.
The International Journal of Advanced Manufacturing Technology 42.11 (2009), 1043-1051 [3] www.dm-consultancy.com/TR/dosya/1-59/h/aisi-340-info.pdf
Ceausu Correlation Between Materials, Design and Clinical Issues in the Case of Associated Use of Different Stainless Steels as Implant Materials, Key Engineering Materials, 583, (2014), 41-44 [6] C.
Podoleanu, New metallic nanoparticles modified adhesive used for time domain optical coherence tomography evaluation of class II direct composite restoration, Revista de Chimie, 63, 4, (2012), 380-383 [7] International Stainless Steel Forum (ISSF) Members, New 200-series Stainless Steel: An opportunity or a Threat to the Image of Stainless Steel, Brussels 2005; 1–14

Acknowledgements The studies were carried out as part of the basic part of the state assignment №FSFF-2020-0017 to universities on the topic “Theoretical and experimental research in the field of obtaining and processing advanced metal and composite materials based on aluminum and titanium alloys” using the equipment of collective resource center “Aerospace materials and technologies” of the Moscow Aviation Institute.
Filatova, Influence of microstructural modifications induced by ultrasonic impact treatment on hardening and corrosion behavior of wrought Co-Cr-Mo biomedical alloy, Materials Science and Engineering: C, Vol. 58 (2016) 1024-1035
Jawahir, Surface Layer Modifications in Co-Cr-Mo Biomedical Alloy from Cryogenic Burnishing, Procedia Engineering. vol. 19 (2011) 383-388
Solovev, Energy Parameters of the Binder during Activation in the Vortex Layer Apparatus, Materials Science Forum, Vol. 945 (2019) 98-103.

Oliveira Ramos2,e 1Department of Mathematics, Federal University of Campina Grande, Campina Grande, Paraíba, Brazil, Zip Code 58429-900 2Department of Mechanical Engineering, Federal University of Campina Grande, Campina Grande, Paraíba, Brazil, Zip Code 58429-900 3Department of Materials Engineering, Federal University of Campina Grande, Campina Grande, Paraíba, Brazil, Zip Code 58429-900 a*jacqueline@mat.ufcg.edu.br, bhallyson@ccta.ufcg.edu.br, cantonio.gilson@ufcg.edu.br, fjefferson.nascimento@ufcg.edu.br, dallyssondaniel@hotmail.com Keywords: Drying, experimental, mathematical model, simulation, sisal fiber.
Series: Advanced Structured Materials. 63ed.
Forum, 380, 66-71 (2017).

Dzieci Polskich 20, 04-730 Warsaw, Poland 2 Warsaw Agricultural University, Faculty of Veterinary Medicine, Nowoursynowska 166, 02-787 Warsaw, Poland 2Warsaw University of Technology, Faculty of Materials Science and Engineering, Woloska 141, 02-507 Warsaw, Poland ae.czarnowska@czd.pl, btwierz@inmat.pw.edu.pl Key words: titanium alloy, composite layer, Ti3P, corrosion resistance, wear resistance, topography, biocompatibility Abstract.
The phase composition of the layers was determined using an advanced Xray diffractometer (Brucker D-8) with a CaKα lamp.
Discussion The main qualities of titanium alloys making them suitable for application in bone implants may be enhanced by surface engineering.
Forum Vol. 426-432 (2003), p.2563 [2] T.

Clemens: Materials Science Forum Vol. 408-412 (2002), p. 1777 [7] H.
Clemens: Advanced Engineering Materials Vol. 8 (2006), p. 1087 [9] A.
Gerling: Advanced Engineering Materials (2009), accepted for print
Schimansky: Advanced Engineering Materials Vol. 10 (2008), p. 929 [12] M.
Wagner: Materials Science and Engineering R Vol. 22 (1998), p. 187 [18] G.

Shokuhfar1,b 1Mapna Group, Mapna locomotive Company(MLC), Production Department, Karaj, Iran 2Advanced Materials & Nanotechnology Research Center, Faculty of Mechanical Engineering, K.N.Toosi University of Technology, Tehran, Iran aozhdelnia@gmail.com, bshokuhfar@kntu.ac.ir Keyword: Mechanical alloying; Al-4.5wt%Mg /TiC; Crystallite size; MMC.
El-Eskandarany: Mechanical Alloying for Fabrication of Advanced Engineering Materials (Noyes Publications/William Andrew Publising, New York 2001)
Forum Vol. 273-276 (2008), p. 622