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It is commonly used for high-strength organic wastewater pretreatment and advanced treatment.
Chinese Journal of Environmental Engineering Vol.3(2009),p.1279-1283 [3]Y.B Wang, W.C Tan, S.X Zhen, et al.
Chinese Journal of Environmental Engineering.
Chinese Journal of Environmental Engineering Vol.3(2009), p. 1011-1014 [7]J.
Science & Technology Association Forum Vol. 1(2011), p. 115-116 [9]S.S Niu, Y.F Li.

Experimental Determination of Stress and Deformation Pressure in Nanostructuring Copper by Multiaxial Forging Method Costica BEJINARIU1, a, Alin Marian CAZAC 1,b, Mohd Mustafa Al Bakri ABDULLAH2,3,c , Andrei Victor SANDU1,3,d, Petru LAZAR1,e 1 Faculty of Materials Science and Engineering, Gheorghe Asachi Technical University of Iasi, Iasi, Romania 2Faculty of Engineering Technology, Universiti Malaysia Perlis (UniMAP), 01007, P.O Box 77, D/A Pejabat Pos Besar, Kangar, Perlis, Malaysia 3Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia acostica.bejinariu@yahoo.com, balin.cazac@yahoo.com, cmustafa_albakri@unimap.edu.my, dsav@tuiasi.ro, elazar.petru@gmail.com Keywords: Severe plastic deformation, nanostructure ,multiaxial forging.
[4] Shi Qingnan, Chen Yongjin, Wang Junli, A Study on Characteristics of Microstructures and Orientations of UFG Materials Prepared by SPD Materials Science Forum Vols. 667-669. (2011)
[5] Popa I, Multifunctional Advanced Superfine/nano - Grained Materials Obtained by Severe Plastic Deformation, Brasov (2013)
Materials Science and Engineering A 408(1–2): 141–146. (2005)
Materials Science Forum Vol. 803 (2015) pp 216-221.

This conference series provides a forum for accessing to the up-to-date knowledge from both industrial and academic worlds and allows for the free exchange of ideas and challenges faced by these two key stakeholders and encourage future collaboration between these groups.
Studies presented in this book cover these topics: Metals and Alloys; Composite Materials and Applications; Chemical Materials, Bio-Materials, and Energy Materials; Building Materials and Construction Technology; Material Processing, Testing and Monitoring Technology; Advanced Design and Advanced Manufacturing Technology; Mechanical Dynamics, Structural Strength, Reliability and Risk Analysis and Assessment; Vibration, Sound, Noise Analysis and Control; CAD / CAM / CAE; Mechatronics, Industrial Robots, Automation and Control Technologies; Measurement Technology, Instruments and Sensors, Detection Technologies and Methodologies; Electronics, Circuit Technology and Electrics; Computer Applications and Mathematical Modeling, Intelligent Algorithms and Optimization; Industrial Engineering, Production Management, Operations, Quality and Control; Engineering Education and Engineering Management; etc We would like to express our sincere thanks to all participants for their

The Effect of Traveling and Rotation Speeds on Mechanical Properties During Friction Stir Welding of Dissimilar Al Alloys Jae-Cheul Park1, a and Seong-Jong Kim2, b 1, 2Division of marine system engineering, Mokpo Maritime University Mokpo City, Jeonnam, 530-729, South Korea a romagain@mmu.ac.kr, b ksj@mmu.ac.kr Keywords: Friction stir welding(FSW), Dissimilar Al alloy, Traveling speed, Rotating speed, Mechanical property, Optimum FSW condition Abstract.
The onion ring shape was formed by the material on the advancing side, which was identical in the rotating and traveling directions, while welding dissimilar alloys.
More investigation into the effect of the advancing side is required in FSW of dissimilar alloys such as steel and light metal.
Forum Vol. 510-511 (2006), p. 162
Forum Vols. 426-432, (2003), p. 2891

Dargusch1,2,e 1 Defence Materials Technology Centre, School of Mechanical and Mining Engineering, The University of Queensland, Queensland 4072, Australia 2 CAST CRC, School of Mechanical and Mining Engineering, The University of Queensland, Queensland 4072, Australia 3 BaoTi Group Ltd., Baoji, Shaanxi 721014, China a gui.wang@uq.edu.au, bwangweiqi@baoti.com, cbjwangxx@163.com, dd.kent@uq.edu.au, e m.dargusch@uq.edu.au Keywords: Metastable β titanium alloy, precipitation, microstructure Abstract.
Jackson: Materials Science and Engineering, Vol. 490A (2008), p.369 [3] Z.
Dargusch: Materials Science and Engineering A Vol. 513-514 (2009), p.233 [4] D.
Dargusch: Materials Science and Engineering A Vol. 527 (2009), p.2246 [5] S.
Fraser: Philosophical Magazine Vol. 89 (2009) p. 535 [6] Y.Yang, W.Wang, F.Li, W.Li and Y.Zhang: Materials Science Forum, Vol. 618-619 (2009), p. 169 [7] W.Wang, Y.Yang, Y.Zhang, F.Li, H.Yang and P.Zhang: Materials Science Forum, Vol. 618-619 (2009), p173

This initiative aims to provide advanced training in the field of Machine Tools and Manufacturing Technology.
The Machine-Tool Workshop Class start-up arose due to the demand of this sector for graduates trained in the most advanced technologies.
In this way, the Manufacturing Group is in close dialogue with industry to properly identify the real problems and to supply practical solutions based on advanced understanding of the process.
The Machine Tool Unit is an advanced training initiative in the field of Machine-Tools and Manufacturing technologies.
As noted, the final destination of the graduates has been engineering, machine tool and production companies.

Ilemobade b School of Civil and Environmental Engineering, University of the Witwatersrand.
With greater investment into the development and marketing of these and many other software, the potential exists to have "made-in-Africa" software with capabilities comparable, if not better than, those developed in more advanced countries.
This paper reports on these software, compares these with similar initiatives in more advanced countries, and discusses the challenges in development, funding, and uptake by industry.
Journal of the South African Institution of Civil Engineering, 45(4) (2003), p. 2-12
Water Engineering Management Series, Research Studies Press, Baldock, Hertfordshire, England (1999), p. 427-436

In principle, X-ray in-situ visualization methods in 2D and 3D [11-13] have been demonstrated since many years, but only few growth facilities are using these advanced methods.
In addition, also the heat conductivity of the source material has been studied using advanced physical models [4, 16].
Zhmakin, Mat.Sci.Forum, 264-268, 61 (1998) [8] M.
Wellmann, Advanced Engineering Materials, ja, 1900778 (2019) [14] M.
Wellmann, Materials Science Forum, 924, 245 (2018)

Yeltsin, 28 Mira St., Ekaterinburg, Russian Federation 3Regional Engineering Centre of Additive Technologies, Ural Federal University named after the first President of Russia B.N.
Specimens from PH1 stainless steel was produced on the EOSINT M 280 additive machine by SLM method at the Regional Engineering Centre of Additive Technologies Ural Federal University.
Pityana, Revolutionary additive manufacturing: an overview, Lasers in Engineering. 27 (2014) 161-178
Krishnan, Effects of Aging on the Microstructure of 17-4 PH Stainless Steel, Materials Science and Engineering A. 104 (1988) 181-189
High pressure interpass rolling of Wire + Arc Additively Manufactured titanium components, Advanced Materials Research. 996 (2014) 694-700

To provide a forum for the discussion of the more recent developments in electrochemical methods and their application in the study of the process of corrosion and corrosion protection, an International Symposium was held in TOULOUSE FRANCE, at the ECOLE NA TIO NALE SUPERIEURE DE CHIMIE, during July 9-12, 1985.
This Symposium was attended by 125 scientists and engineers representing FRANCE and eighteen foreign countries (BELGIUM, BRASIL, CANADA, EGYPT, ENGLAND, FINLAND, INDIA, IRAQ, ITALY, JAPAN, KUWAIT, THE NETHERLANDS, PORTUGAL, SPAIN, SWEDEN, SWITZERLAND, U.S.A. and VENEZUELA).
The general consensus of the Symposium was that significant advances have been undoubtedly achieved since the first Conference which was held at MANCHESTER, ENGLAND, in January 1982, particulary with regard to the use_ of impedance measurements now extended to the study of mass transport (Electrohydrodynamical impedance) and stress corrosion cracking (Mechanical impedance), the development of noise analysis techniques for the study of localized corrosion, stress corrosion cracking and the blistering of coatings, the stochastic approach oflocalized corrosion and the coupling of optical (Ellipsometry, Mutichannel Optical Analysis ... ) and XI spectroscopic (Raman, Mossbauer, ... ) methods with vatious electrochemical techniques.