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Forming Process during Electron Beam Surfi-SculptTM on Ti-6Al-4V Alloy Kai Li1,2,a*, Pengfei Fu2,b, Zhenyun Tang2,c, Bo Zhang1,d, Yanlong Ma3,e, Wen Li1,f, Lei Jin1,g and Yuchao Dun1,h 1Department of Materials Research, AVIC Manufacturing Technology Institute, Beijing 100024, China 2Science and Technology on Power Beam Processes Laboratory, AVIC Manufacturing Technology Institute, Beijing 100024, China 3College of Materials Science and Engineering, Chongqing University of Technology, Chongqing 400054, China alikai.625@outlook.com, bfupengfei97@163.com, ctangzhy79@sohu.com, dzhangbo1117@163.com, emyl@cqut.edu.cn, fliwen1013@126.com, gyugongyishanjin@126.com, hdrdun2014@126.com Keywords: Electron beam, Surfi-SculptTM, Forming process, Microstructure, Ti-6Al-4V.
Introduction Because of its high strength-to-weight ratio, composite materials are increasingly used in industry especially in the field of aeronautical engineering in which weight saving is critical [1, 2].
Forum 765 (2013) 771-775
Tang, Formation mechanisms of electron beam processed surface textures on titanium alloys, Advances in Engineering Research 102 (2017) 379-384

Barbosa de Lima2,e and S.R. de Farias Neto1,f 1Department of Chemical Engineering, Federal University of Campina Grande, 58429-140, Campina Grande, PB, Brazil. 2Department of Mechanical Engineering, Federal University of Campina Grande, 58429-140 Campina Grande, PB, Brazil.
Lima, Oily Water Treatment Using Ceramic Membrane in Presence of Swirling Flow Induced by a Tangential Inlet via CFD, Defect and Diffusion Forum. 348 (2014) 51-57
Souza, Produced water treatment by ceramic membrane: A numerical investigation by computational fluid dynamics, Advances in Mechanical Engineering. 9, 3(2017) 1-20
Brandão,Ceramic Membranes: Theory and Engineering Applications, Advanced Structured Materials. 1ed.Heidelberg (Germany): Springer International Publishing, vol. 93, 2018, pp. 111-137
Cunha, Treatment of effluents from the petroleum industry via ceramic membranes: Modeling and simulation, Doctoral Thesis in Process Engineering, Federal University of Campina Grande, Campina Grande, Brazil, 201p., (2014).

Recent advances in these areas are also on disordering of ordered intermetallics and mechanochemical synthesis of materials [10].
Averback, Materials Science and Engineering A, 153 (1992) 676
Nash, Materials Science and Engineering A, 181-182 (1994) 1169
Materials Science and Engineering A, 134 (1991) 1326
Lutterotti, Materials Science Forum, 157-162 (1994) 473

Although it has been used in civil engineering for about 100 years[4], CAC was introduced for clinical application in 2000 as a new direct restorative material and sold under the name DoxaDent (Doxa AB, Uppsala, Sweden)[5].A cytotoxicity study showed that DoxaDent exhibited the lowest cytotoxicity compared to five other currently used restorative materials[6].
Accordingly, the objective of this study was to investigate the reinforcement effect of biodegradable fiber on CAC, and the MC3T3cells seeding on the surface of CAC for bone tissue engineering.
In conclusion, fiber reinforcement can be an effective way to improve the properties of calcium aluminate cement, and the CAC/fiber composite may be suitable for bone tissue engineering.
[3] Tan Y, Yong L, Qing Z, Birdi G, Grover LM: Materials Science Forum: Trans Tech Publ; 2014. p. 387-94
[13] Tan Y, Liu Y, Zhang Z, Huang B, Grover LM: Advances in Applied Ceramics. 2011;110:464-8

Lurig Mechanical, Energetics and Materials Engineering Department, Public University of Navarre, Campus Arrosadía s/n, 31006 Pamplona, Spain ajavier.leon@unavarra.es, bcluis.perez@unavarra.es, cdaniel.salcedo@unavarra.es, divan.perez@unavarra.es, ejuanpablo.fuertes@unavarra.es, finaki.puerta@unavarra.es, grodrigo.luri@unavarra.es Key words: Equal Channel Angular Extrusion (ECAE), Severe Plastic Deformation (SPD), Finite Element Method (FEM).
Finally, the level of the damage accumulated in the billet will be studied in order to be able to know in advance the number of passages the material can be processed before its fracture.
Park: Key Engineering Materials Vol. 345-346 (2007), p. 125
Segal: Materials Science and Engineering A Vol. 197 (1995), p. 157
Luis: Materials Science Forum Vol. 526 (2006), p. 193

Dirhamsyah1,d* 1Department of Mechanical Engineering, Faculty of Engineering, Syiah Kuala University, Aceh 23111, Indonesia 2Department of Mechanical, SMKN 2 Banda Aceh, Indonesia.
Recent Advances in the Machining of Titanium Alloys using Minimum Quantity Lubrication (MQL) Based Techniques.
Journal of Mechanical Engineering Learning, 3(2)
In Defect and Diffusion Forum (Vol. 402, pp. 108-114).

Heat Exchange Structures Based on Copper/CNT Composite André Schlott1,a*, Thomas Hutsch1,b, Silke Hampel2,c, Julius Lohse1,d, Thomas Weißgärber1,e and Bernd Kieback1,3,f 1Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM, Branch Lab Dresden, Winterbergstraße 28, 01277 Dresden, Germany 2Leibniz Institute for Solid State and Materials Research, Helmholtzstraße 20, 01069 Dresden, Germany 3Technische Universität Dresden, Institute for Materials Science, Helmholtzstraße. 7, 01069 Dresden, Germany aAndre.Schlott@ifam-dd.fraunhofer.de, bThomas.Hutsch@ifam-dd.fraunhofer.de, cS.Hampel@ifw-dresden.de, dJulius.Lohse@ifam-dd.fraunhofer.de, eThomas.Weissgaerber@ifam-dd.fraunhofer.de, fBernd.Kieback@ifam-dd.fraunhofer.de *Corresponding author Keywords: Powder metallurgy, thermal management, copper, carbon nanotube, SPS, convective heat exchange, pool boiling, composite Abstract.
The engineered surface acts almost like a black body.
The theoretical heat transfer coefficient of the engineered surface is calculated depending on diameter and length of the free-standing MWCNT.
[31] Weidmueller, H., Weissgaerber, T., Hutsch, T., Huenert, R., Schmitt, T., Mauthner, K., Schulz-Harder, S., Journal of Korean Powder Metallurgy Institute, 13 (5) (2006) [32] Weidmueller, H., Weissgaerber, T., Hutsch, T., Huenert, R., Schmitt, T., Mauthner, K., Schulz-Harder, S., Materials Science Forum, 534-536 (2007), pp. 853-856 [33] Hutsch, T., Delinsky, W., Weißgärber, T., Leonhardt, A., Kieback, B., Proceedings International Conference on Composites/Nano Engineering (ICCE 22), Malta, 13.-19.07.2014 [34] Hutsch, T., Riesselmann, J., Walther, G., Weißgärber, T., Kieback, B., Brieß, K., Proceedings Euro PM 2018 Powder Metallurgy Congress & Exhibition, Bilbao, Spain, October 14-18 (2018) [35] Park, K., Jung, D., Int.

Despite considerable research effort, practical engineering applications of this technique are still limited.
This is not only due to the complex wave propagation mechanism associated with Lamb waves but also due to operational and environmental conditions that can contaminate Lamb wave responses collected from real engineering structures [7].
The experimental tests have been performed in the Department of Mechanical Engineering at Sheffield University, UK.
Mota Soares (Eds.), Advances in Smart Technologies in Structural Engineering, Springer, Berlin, 2004, pp. 117-162
Golder, Time series models, Lecture Note on Advanced Quantitative Analysis, 2008

Experimental Study on Mechanical Properties of X-cor Sandwich Bi Jianping1,a, Dang Xudan1,a, Wang Xinli1,b, Xiao Jun2,c, Chen Haijun1,d, Zhang Hongsong1,e 1Department of Mechanical Engineering, Henan Institute of Engineering, Zhongshan North Road Longhu Xinzheng, Zhengzhou, China, 451191 2College of Material Science & Engineering, Nanjing University of Aeronautics and Astronautics, 29 Yudao Street, Nanjing, China, 210016 adangxudan2009@haue.edu.cn, bwangxinli01@sina.com, cdangxudan@nauu.edu.cn, dcannaccan@163.com, ezhsandchen@126.com Keywords: X-cor sandwich; compression properties; shear properties; tension properties.
Materials engineering, 2008, (6): 76-80
In: American Helicopter Society 57th Annual Forum, Washington: American Helicopter Society, 2001
In: ADVANIS, SHONAIKE G, Editors, Advanced Polymeric Materials.
Material engineering, 2009, (1): 50-54

Production engineers and Journal Title and Volume Number (to be inserted by the publisher) 3 companies specializing in the machining of aerospace materials generally have developed techniques to maximize surface integrity of titanium alloys.
The curring density is 0.05-0.10 A/cm2 and the polishing rate is ~ 25 nm /s. 2.4 Residual stress measurement The BRUKER D8 Advance x-ray diffractometer with ¼ circle Eulerian cradle carried out residual stress measurement.
Forum, 347-349, 592-597.
[6] Manuchehr Vosough, 2002-02-20, A Literature Study of High Pressure Cooling "Jet Break" And Turning in Titanium, Department of Applied Physics and Mechanical Engineering Division of Manufacturing Systems Engineering The Cirius Laboratory, pp. 17