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Edwards1,2 1 Department of Material Engineering, Faculty of Technology, The Open University, Walton Hall, Milton Keynes, MK7 6AA, UK 2 Institute of Materials Engineering and Science, ANSTO, Menai NSW2234, Australia * Corresponding author: s.ganguly@open.ac.uk Keywords: Neutron diffraction, Reactor source, Residual stress, Welding Abstract.
The measurement was carried out at SALSA, the engineering strain scanner at the ILL, Grenoble, France.
Thus FE procedures are being applied with increasing frequency to predict residual stresses in welded engineering structures for structural integrity assessment purposes.
J.: Materials Science Forum; 2006; 524-525: pp. 217-222
E.: Materials Science Forum; 2006; 524-525: pp. 679-684.

Quantified density of active near interface oxide traps in 4H-SiC MOS capacitors Hamid Amini Moghadam1,2,a *, Sima Dimitrijev1,2,b, Jisheng Han1,c, Amirhossein Aminbeidokhti1,2,d, and Daniel Haasmann1,2,e 1Queensland Micro and Nanotechnology Centre, Griffith University, Australia 2Griffith School of Engineering, Griffith University, Australia ahamid.aminimoghadam@griffithuni.edu.au, bs.dimitrijev@griffith.edu.au, cj.han@griffith.edu.au, damirhossein.aminbeidokhti@griffithuni.edu.au, ed.haasmann@griffith.edu.au Keywords: 4H–SiC, MOS capacitors, threshold voltage instability, capacitance–voltage shift.
Forum, 679 (2011) 366-369
Cooper, Advances in SiC MOS technology, physica status solidi (a), 162 (1997) 305-319
Forum, 778 (2014) 627-630

Herman, in: Thermal Spray: Practical Solutions for Engineering Problems, ed.
Forum, Vol. 442, (2003), p. 67
Forum, Vol. 442, (2003), p. 73
Fauchais, in: Thermal Spray: Advancing the Science and Applying the Technology, ed.

X:Advances in geothermics in China.Earth SciencmJournal of China University of Geosciences(in Chinese)，20(1995).p.367—372
Hydrogeology engineering geology．Forum Vol.38 (2011),p.1-5
[4] Xu.S.G,Guo.Y.S,in:Fundamental Geothermics．Beijing：Science Press(2009) [5] Tian.M.H:Development and utilization of geothermal resources．Journal of China University of Petroleum Institute of victory，Forum Vol .21(2007),p.16-17

Arai, Silicon Carbide -- Recent Major Advances (Eds.
Forum, Vols. 433-436, p. 721 (2003)
Engineering, Vol. 70, p. 519 (2003)
Forum, Vols. 615-617, p. 573 (2009).

The surface of variable thickness has applications from industrial and engineering points of view especially in civil, mechanical and architectural processes.
AIP Advances, 5 (2015) 107209
Journal of Mechanical Engineering, 7(3) (2018), 1000307 (10pages)
Defect Diffusion Forum, 387 (2018) 121-134
Chemical Engineering Communications, 198 (4) (2011) 590-608

Tensile Properties of Ti-6Al-4V Discs Produced by Open Die Powder Compact Forging of Pre-alloyed HDH Powders Stella Raynova1, a, Deliang Zhang1,b, Brian Gabbitas1,c 1Waikato Centre for Advanced Materials (WaiCAM), School of Engineering, The University of Waikato, Hamilton, New Zealand astiliana@waikato.ac.nz, bd.zhang@waikato.ac.nz, cbriang@waikato.ac.nz Keywords: titanium alloys, powder metallurgy, forging, tensile properties Abstract Open die powder compact forging was employed for consolidation of Ti-6Al-4V(wt.%) powders which were produced by a hydride-dehydride (HDH) process.
Introduction Ti6Al4V alloy is one of the most commonly used Ti alloy for advanced applications in automotive and aerospace industry.
Shin, High temperature forming of Ti6Al4V alloy considering microstructure evolution, Key Engineering Materials, 274-276 (2004) 117-122 [7] Z.
Robinson, Consolidation of Titanium, and Ti-6Al-4V Alloy Powders by Powder Compact Forging, Materials Science Forum 618-619 (2009) 513-516.

However, owing to the skin effect resulted from the magnetic induction fields, the ordinary EMS method has some disadvantages, such as large grains, no spherical morphology and non-uniform microstructure distribution, so the skin effect was regarded as an adverse effect, and lower frequency stirring was usually adopted to increase the skin effect depth and obtain fine spherical microstructures[9-10].To solve the problem, an advanced metal melt conditioning process, namely, the annular electromagnetic stirring(A-EMS)[11,12,13] was developed by General Research Institute for Non-Ferrous Metals.
[3] Chayong S, Atkinson H.V., Kapranos P, Thixo-forging 7075 aluminum alloys, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing,390 (2005) 3-12
Katgerman, Microstructural features of inter granular brittle fracture and cold cracking in high strength aluminum alloys, Materials Science and Engineering A, 527 (2010) 1828-1832
Materials Science Forum 765 (2013) 321-325 [11] J.
Liu, Melt conditioning by advanced shear technology (MCAST) for refining solidification microstructures, Int.

Sol-gel process is a well-known and reliable technique for developing advanced ceramic materials.
Examples included using it as a filling material for bone fractures, in tissue engineering scaffolds, and periodontal repair [1].
Dahotre, Calcium phosphate coatings for bio-implant applications: materials, performance factors and methodologies, Materials Science and Engineering R. 66 (2009) 1-70
Nissan, Innovative bioceramics, Materials Forum. 27 (2004) 104-114
Sommerdijk, Sol-Gel Materials Chemistry and Applications (Advanced Chemistry Texts), CRC Press, Boca Raton, 2001

Effect of Disturbing Conditions in Semi-solid State on Microstructure Evolution of Magnesium Alloy Zhao Hong-Jin1,2,a, Kang Yong-Lin1,b, Wang Zhao-Hui1,c and Du Hai-Liang1,d 1 School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China 2 School of Materials and Chemical Engineering, JiangXi University of Science and Technology, Jiangxi Ganzhou 341000, China a zhj_zyh@sohu.com, bkangylin@mater.ustb.edu.cn, cwwwzhaohui@sina.com, d dhliang2009@126.com Keywords: Magnesium Alloy, Semi-Solid Process, Slurry Making, Refining and Modifying, Disturbing Conditions, Microstructure Evolution.
SSM forming has various advantages compared with the conventional liquid casting, it is one of the advanced technologies to make high performance magnesium alloy.
Xia: Materials Science Forum, Vols 488-489 (2005), p. 303 [3] P.S.
Erickson: Advanced Materials & Process Vol. 134 (1988), p. 53 [4] J.L.