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Advances in Materials Science and Engineering 2015 (2015) Article ID 274913. http://dx.doi.org/10.1155/2015/274913 [2] J.
Processing and Properties of Vegetable Fibres, Journal of Natural Fibers 1 (2) (2004) 37-68.
Ceramic material for sound absorption.
Determination through an inverse method of the acoustic impedance and the propagation constant for some natural fibers, 44th International Congress and Exposition on Noise Control Engineering 2015, (2015) Code 114294 [13] G.
Proc. of the International Conference on Noise Control Engineering INTER-NOISE 2010, (2010)

Model Building and Simulation of the Suspension System for a Robotic Asparagus Harvester Mengbin Mina*, Matthew Peeblesb, Shen Hin Limc, Mike Duked, Chi Kit Aue School of Engineering, The University of Waikato Science Store Gate 8 Hillcrest Road, 3216 Hamilton - New Zealand amsner10010@hotmail.com, bmp154@students.waikato.ac.nz, chin.lim@waikato.ac.nz, ddukemd@waikato.ac.nz, eckau@waikato.ac.nz Keywords: suspension system; vibration; asparagus harvester; agricultural robots; mobile manipulators Abstract.
These accelerometers are tri-axial ceramic shear ICP type.
Rose, "Active vibration absorber for automotive suspensions: a theoretical study," International Journal of Heavy Vehicle Systems, vol. 23, pp. 21-39, 2016
Seki, "Vibration Control of Mobile Robot Vehicle by Dynamic Vibration Absorber," JSME International Journal Series C, vol. 42, pp. 62-70, 1999
Cavalieri, et al., "Performance and economic analysis of a selective asparagus harvester," Applied Engineering in Agriculture, vol. 23, pp. 571-577, Sep 2007

Nallusamy Department of Mechanical Engineering, Dr.
The aim of our research is to take up a new idea of adding ceramic particles in the welding region was attempted in this investigation to study its effect on the final welding properties.
Science and Engineering-A, Vol. 464, pp. 255- 60 [6] Ma ZY, Mishra RS and Lic FC. 2009, “Super plastic behaviour of micro-regions in two-pass friction stir processed 7075Al alloy”, Material Science and Engineering-A, Vol. 505, pp. 70-8 [7] Nallusamy S, Manikanda Prabu N, Balakannan K, Gautam Majumdar. 2015, “Analysis of Static Stress in an Alloy Wheel of the Passenger Car”, International Journal of Engineering Research in Africa, Vol. 16, pp 17-25 [8] Shtrikman M.M. 2008, “Current state and development of friction stir welding Part III.
J, Fujii H, Maeda M and Nogi K. 2003, “Mechanical properties of friction stir welded joints of 1050-H24 Al alloy”, Journal of Sci. and Tech. of Welding and Joining, Vol. 8(6), pp. 450-454 [14] Masaki Kumagai. 2009, “Novel solid state joining technology of aluminium: friction stir welding”, Welding International, Vol. 23, No. 5, pp. 338-344 [15] Mroczka K and Pietras A. 2009, “FSW characterization of 6082 aluminium alloys sheets”, Archives of Materials science and Engineering, Vol. 40, Issue 2, pp. 104-109 [16] Yeong-Maw Hwanga et al. 2008, “Experimental study on temperature distributions within the work piece during friction stir welding of aluminum alloys”, International Journal of Machine Tools & Manufacture, Vol. 48, pp. 778-787 [17] Oliveira M.C, Alves J.L, Chaparro B.M and Menezes L.F. 2005, “Study on the Influence of the Work Hardening Models Constitutive Parameters Identification in the spring back Prediction”, American Institute of Physics, Vol.
A, pp. 253-258 [18] Mrowka-Nowotnik G. 2010, “Influence of chemical composition variation and heat treatment on microstructure and mechanical properties of 6000 alloys”, Journal of Archives of Materials Science and Engineering, Vol. 46(2), pp. 98-107 [19] Elangovan K and Balasubramanian V. 2008, “Influences of tool pin profile and welding speed on the formation of friction stir processing zone in AA2219 aluminium alloy”, Journal of materials processing technology, Volume 200, Issues 1-3, pp. 163-175 [20] Karthikeyan P and Mahadevan K. 2012, “Study on the weld quality of the friction stir welded Al-6063 plates using square and pentagonal profiled tools”, Journal of applied sciences Vol. 12(10), pp. 1026-1031 [21] Karthikeyan P, Mahadevan K. 2014, “Evaluation of mechanical properties of friction stir welded Al 6351alloy with reinforcement particles in the weld region”, Advanced Materials Research, Vol. 893, pp 361-364

Planell, Biomaterials in orthopaedics, Journal of the Royal Society Interface, vol. 5, pp. 1137-1158, 2008
Davis, Handbook of materials for medical devices: ASM international, 2003
Fisher, "Biological reactions to wear debris in total joint replacement," Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, vol. 214, pp. 21-37, 2000
Teoh, "Fatigue of biomaterials: a review," International Journal of Fatigue, vol. 22, pp. 825-837, 2000
Key Engineering Materials Vol. 887, pp 358-363, 2021

As the technology has matured, processes have been developed to utilize advanced engineering materials and the application of AM has shifted from prototyping to manufacturing fully functional, ultralight, ultrastiff end-use parts. 3D printing has struggled to deliver on its promise to transform manufacturing.
Prototyping Acrylate PR25 is a rapid production material that is used to both quickly iterate through engineering designs and produce parts with remarkable detail that perform well enough to withstand moderate functional testing.
Huang, et al., "Compressive Behavior of Luffa Sponge Material at High Strain Rate," Key Engineering Materials, Vols. 535–536 (2013), pp., 465–468
Greer, “Fabrication and Deformation of Three-Dimensional Hollow Ceramic Nanotubes,” Nature Materials, Vol. 12 (October 2013), pp. 893-898
Wadley, “Mechanical Response of Ti-6Al-4V Octet-Truss Lattice Structures,” International Journal of Solids and Structures, Vols. 60-61 (2015), pp. 107-124.

Fatigue Behavior of Titanium Endoprosthesis Patrícia Hanusová1,a*, Peter Palček1,b, Mária Chalupová1,c and Milan Uhríčik1,d 1University of Žilina, Faculty of Mechanical engineering, Department of Materials Engineering, Univerzitná 8215/1, Žilina, Slovakia apatricia.hanusova@fstroj.uniza.sk, bpeter.palcek@fstroj.uniza.sk, cmaria.chalupova@fstroj.uniza.sk,dmilan.uhricik@fstroj.uniza.sk Keywords: Ti64, Fatigue, Microstructure, Endoprosthesis, Fractography.
Biocompatible implants are typically made up of metallic, ceramic, composite and polymer [7].
Gotman, Characteristics of Metal Used in Implants, Journal of Endourology 11, 6 (1997) 383-389
Ding, Surface modification of titanium, titanium alloys, and related materials for biomedical applications, Materials Science and Engineering 47, 3-4 (2004) 49-121
Raza, Corrosion and surface modification on biocompatible metals: A review, Materials Science and Engineering 77 (2017) 1261-1274

Waveform of grinding force for single grain grinding-grinding of a brittle material by a single abrasive grain (2nd report), Journal of Japan Society of Precision Engineering. 03(1993)515-520
Journal of Mechanical Engineering. 11(2012)172-182
Experimental evaluation of super high-speed grinding of advanced ceramics, International Journal of Advanced Manufacturing Technology. 2(2001)87-92
Development and application on the grinding process modeling and simulation, Journal of Mechanical Engineering. 7(2015)197-205
Analysis of numerical grinding wheel topology and experimental measurement, Journal of Mechanical Engineering. 23(2012)184-190

Journal of Power Sources, 2008, 184:543-547
Journal of Power Sources, 2011, 196: 4747-4755
Journal of Central South University(Science and Technology), 2006, 37(6): 1094-1097.
Ceramics International. 2008, 34(4): 863-866
V2O3 modified LiFePO4/C composite with improved electrochemical performance[J], Journal of Power Sources, 2011, 196: 5623-5630

Investigation on Peaming Process of PCD tool when Reaming Aluminium Cast Alloys Yongguo Wang1, a, Biao Tian1, b, Xiangping Yan1, c, Jiongyi Song2,d 1School of Mechatronics Engineering and Automation, Shanghai University, Shanghai, 200072, P.R.
However, aluminium casting alloy is extremely difficult to cut owing to the high hardness and abrasiveness of ceramic reinforcing materials and easily formation of built-up edges under cooling lubrication [2].
References [1] A.Manna,B.Bhattacharayya: A study on machinability of Al/SiC-MMC, Journal of Materials Processing Technology,140(2003),pp. 711–716
,E.O.Ezugwu:Effects of machining parameters when reaming aluminium-silicon (SAE 322) alloy,Journal of Materials Processing,112(2001) ,pp.185-198
DeVor: The effects of process faults and misalignments on the cutting forcesystem and hole quality in reaming,International Journal of Machine Tools & Manufacture, 46 (2006) , pp. 1281–1290.

Research on Tribological Properties of Nano-SiO2 /Cu Composites DU Jianhua1,a, XU Yi1,b and LI Yuanyuan2,c 1Department of Arming Remanufacture Engineering, Academy of Armored Force Engineering, Beijing 100072, China 2Powder Metallurgy Institute, School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China adjh619@sina.com,bbeanbeanxu@sina.com,clify46@yahoo.com Keywords: Ball Milling, Copper-based Composites, Nano SiO2, Powder Metallurgy, Friction and Wear.
Mustafa, K.Adem, The Effect of Al2O3 on the friction performance of automotive brake friction materials, Tribology International. 40 (2007) 1161-1169
Guo, Nanometer Al2O3-Cu composites with high plasticity and strength, Journal of University of Science and Technology Beijing. 32 (2010) 230-233
Su, Anti-wear and reducing friction performance of SiO2 nanoparticles as lubrication additive, Lubrication Engineering. 33(2008) 54-58
Xie, Effect of nano-SiO2 on tribological properties of Cu-based friction materials, The Chinese Journal of Nonferrous Metals. 18 (2008) 1453-1457.