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Murch 1,d 1 University Centre for Mass and Thermal Transport in Engineering Materials Priority Research Centre for Geotechnical and Materials Modelling School of Engineering, The University of Newcastle Callaghan, NSW 2308 Australia 2 Department of Applied Mechanics, Faculty of Mechanical Engineering Technical University of Malaysia 81310 UTM Skudai, Johor Malaysia a Thomas.Fiedler@newcastle.edu.au, bIrina.Belova@newcastle.edu.au, cAndreas.Oechsner@gmail.com, dGrame.Murch@newcastle.edu.au Keywords: Heat Sinks, Phase Change Material, Transient Heat Transfer, Lattice Monte Carlo.
However, engineering problems often put severe constraints on weight or volume and compact lightweight solutions are frequently required.
Murch: Defect Diffusion Forum Vol. 273-276 (2008), p. 222 [10] Z.
Belova and G.E Murch: Advanced Engineering Materials Vol. 11 (2009), p. 843 [17] T.

Wang, Driving forces concrete-polymer composites, Advanced Materials Research 687 2013, p.68-76
Bissonnette, A surface engineering approach applicable to concrete repair engineering, Bulletin of the Polish Academy of Sciences: Technical Sciences 2013, p.73-84
Carino, Nondestructive test methods, Concrete Construction Engineering Handbook (ed.
Symp. on Advances in Concrete through Science and Engineering, Canada 2006
Adamczewski, UIR-scanner potential to defect detection in concrete, Advanced Materials Research 687 2013, p.359-365

Wessel, The handbook of advanced materials: Enabling new design, John Wiley & Sons, pp.466-468, (2004)
Reed, Micromechanisms of short fatigue crack growth in an Al–Si piston alloy, Materials Science & Engineering, A612, pp.302–309, (2014)
Di Filippo, High Temperature Fatigue Behavior of Eutectic Al-Si-Alloys used for Piston Production, Procedia Engineering, 74, pp. 157 – 160, (2014)
Silva, Fatigue on engine pistons–A compendium of case studies, Engineering Failure Analysis, 13, pp.480-492, (2006)
Vieregge, Recent development in aluminum alloys for the automotive industry, Materials Science and Engineering, Vol. 280, pp.37-49, (2000).

EVALUATION OF S/S PROCESS OF TANNERY WASTE IN CEMENT BY STRUCTURAL AND MECHANICAL ANALYSIS Pinto, C.A1; Dweck,J.1; Sansalone, J.J.2; Cartledge, F.K.3; Hamassaki, L.T.4; Diaz, F.R.V.5; Albanez, N.5; Büchler, P.M.6 1 Inorganic Process Department, School of Chemistry, Federal University of Rio de Janeiro, Brazil; email: carolina.pinto@gmail.com 2 Department of Civil and Environmental Engineering, Louisiana State University, USA 3 Chemistry Department, Louisiana State University, USA 4 Technology Research Institute of São Paulo State, Civil Engineering Department, Brazil 5 Metallurgical and Materials Engineering Department, University of São Paulo, Brazil 6 Chemical Engineering Department, University of São Paulo, Brazil Keywords: cement; tannery waste; clay; stabilization/solidification; NMR; compressive strength.
Forum Vols. 498-499 (2005), p. 697
[22] F.R.Valenzuela-Diaz: Advanced Powder Technology II Key Engin.

Microstructure-Dependent Deform Behavior of a Polycrystalline Ni-Based Superalloy Based on Micropillar Compression Gaofeng Tian1,a*, Yang Chen1,b, Bin Gan2,c, Yan Yang3,d and Jinwen Zou1 1Science and Technology on Advanced High Temperature Structural Materials Laboratory, Beijing Institute of Aeronautical Materials, Beijing 100095, China 2School of Materials Science and Engineering, Northwestern Polytechnical University, Xi’an 710072, China 3Military representative office of army aviation in Beijing, Beijing 100095, China agftian2008@163.com, bfengli9572@sina.com, cbingan727@nwpu.edu.cn, d439290027@qq.com, Keywords: Nickel base superalloy, Micropillar compression, precipitates, Dislocation Abstract.
The Materials Genome Initiative (MGI) and Integrated Computational Materials Engineering (ICME) are recently introduced as the new approach.
They were transformed in either engineering stress-strain curves or engineering resolved shear stress-strain curves from the initial length and upper diameter of the pillar and the initial length and upper diameter of the pillar and the initial Schmid factor calculated from the crystallographic orientation of the pillar.
Mater Sci Forum, 898 (2017) 430-437

Schmid, Manufacturing Processes for Engineering Materals, 4th ed, Upper Saddle River, NJ: Prentice Hall, 2003
Thomas, Application of HSS Cutting Tools in the Mechanical Engineering Industry, Paper International HSS Forum Conference 2005, Aachen, Germany
Chung, The Optimal Cutting Parameter Design of Rough Cutting Process in Side Milling, Journal of Achievements in Material and Manufacturing Engineering, 29, (2008)183-186
Park, Robust Design and Analysis for Quality Engineering, Thomson Press, New Delhi, 1996
Liao, Multi-Response Optimization using Weighted Principal Component,” International Journal of Advanced Manufacturing Technology, 27, (2006) 720-725

Pabla3,c 1,2Mechanical Engineering Department, National Institute of Technology Kurukshetra-136119, Haryana, India 3Mechanical Engineering Department, NITTTR, Chandigarh, India akataria.ravinder07@gmail.com, bjatin.tiet@gmail.com (corresponding author), cbsp@nitttrchd.ac.in Keywords: Ultrasonic machining, Penetration rate, WC-Co, Taguchi method, Surface topography Abstract WC-Co composite materials possess a vast range of industrial applications owing to their excellent properties such as superior hardness, toughness and dimensional stability.
Kumar, Machining of WC-Co composites- A review, Material Science Forum 808 (2015) 51–64
Mehta, Optimization of process parameters for ultrasonic drilling (USD) of advanced engineering ceramics using Taguchi approach, Engineering Optimization 38(7) (2006) 771–787
Kumar, Investigation into the surface quality and micro-hardness in the ultrasonic machining of titanium (ASTM GRADE-1), Journal of the Brazilian Society of Mechanical Sciences and Engineering 36 (2014) 807–823
Ross, Taguchi Techniques for Quality Engineering, McGraw Hill, (1996) New York.

Women Engineering College, Ajmer-305002, India 3Department of Physics, Uka Tarsadia University, Maliba Campus, Bardoli - 394120, India amahesh.jangid@vgu.ac.in, bshyam@gweca.ac.in, cjaymin.ray@utu.ac.in Keywords: Hydrogenation; Raman Spectroscopy; Electrical Conductivity; Resistivity; Rate Constant.
Mahila Engineering College, Ajmer (India) and the Material Research lab at Vivekananda Global University, Jaipur for providing experimental facilities during the research work.
Veziroglu, The properties of hydrogen as fuel tomorrow in sustainable energy system fora cleaner planet, Int.
Mortimer,Electrochromic Systems and the Prospects for Devices, Advanced Materials13 (2001) 783-793
Rubner, Nanocrystalline aluminum hydrides for hydrogen storage, Materials science and Engineering B108 (2004) 42-47

Staley, Advanced Materials and Processes. 12 (2002) 27−29
Lohte, Mater Sci Forum. 396−402 (2002)1721−1730
Starink, Materials Science and Engineering A. 472 (2008)66−74
Materials Science and Engineering: A. 528 (2011) 4152-4158
Materials Science and Engineering A. 286 (2000) 333-341.

Tsuru 3 1 Department of Materials and Metallurgy, Iranian Research Organization for Science and Technology, Tehran 15815-3538, Iran 2 Department of Metallurgy and Materials Engineering, Faculty of Engineering, University of Tehran, North Amir-abad, Tehran, Iran 3 Department of Metallurgy and Ceramics Science, Graduate School of Engineering, Tokyo Institute of Technology, Tokyo 152-8552, Japan Keywords: Aluminide coatings, silicon, cyclic oxidation, superalloy IN-738LC Abstract.
Although many efforts have been made to develop new heat resisting materials over the last few decades, Ni- and Co- base superalloys are still the most promising structural materials in advanced gas turbines [1].
Forum Vol. 163-165 (1994), p. 619 [10] D.L.