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Online since: August 2017
Authors: Joel Hemanth, Anupama Hiremath
References
[1] Koli DK, Agnihotri G, Purohit R., Advanced aluminum matrix composites: The critical need of automotive and aerospace engineering fields, Materials Today: Proceedings. 2(4-5) (2015) 3032-41
[7] Seah KH, Hemanth J, Sharma SC., Effect of high-rate heat transfer during casting on the strength, hardness and wear behaviour of aluminium—quartz particulate metal matrix composites, Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture. 217(5) (2003) 651-9
[8] Hiremath A, Hemanth J., Fabrication and Impact of chills on the Strength of Chilled Aluminium alloy-Borosilicate glass Particulate Composite, International Journal of Applied Engineering Research. 10(20) (2015) 41685-8
[9] Devoor NS, Ramesh D, Awarasang S., Study the Tensile and Compression Behaviour of LM 25 Aluminium Alloy Reinforced with Steel Wire, International Journal of Innovative Research and Development. 5(11) ISSN 2278–0211 (2016)
Shankar, Evaluation of mechanical properties of aluminium alloy 6061-glass particulates reinforced metal matrix composites, International Journal of Modern Engineering Research, 2 (5) (2012) 3207-9.
[7] Seah KH, Hemanth J, Sharma SC., Effect of high-rate heat transfer during casting on the strength, hardness and wear behaviour of aluminium—quartz particulate metal matrix composites, Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture. 217(5) (2003) 651-9
[8] Hiremath A, Hemanth J., Fabrication and Impact of chills on the Strength of Chilled Aluminium alloy-Borosilicate glass Particulate Composite, International Journal of Applied Engineering Research. 10(20) (2015) 41685-8
[9] Devoor NS, Ramesh D, Awarasang S., Study the Tensile and Compression Behaviour of LM 25 Aluminium Alloy Reinforced with Steel Wire, International Journal of Innovative Research and Development. 5(11) ISSN 2278–0211 (2016)
Shankar, Evaluation of mechanical properties of aluminium alloy 6061-glass particulates reinforced metal matrix composites, International Journal of Modern Engineering Research, 2 (5) (2012) 3207-9.
Online since: June 2008
Authors: Fang Chao Xu, Kazuhiro Kusukawa
Characteristics of BNT Films Synthesized by a Hydrothermal Method
Fangchao XU
1, a
, Kazuhiro KUSUKAWA 2,b
1,2 Department of Intelligent Mechanical Systems Engineering,
Kochi University of Technology, Tosayamada-cho, Kochi, 782-8502, Japan
a
Email:108003p@gs.kochi-tech.ac.jp, bEmail: kusukawa.kazuhiro@kochi-tech.ac.jp
Keywords: BNT, Piezoelectric, Film, Hydrothermal method, Lead-free
Abstract.
Bismuth sodium titanate (Bi1/2Na1/2)TiO3 (abbreviated as BNT) is considered to be one of promising lead-free piezoelectric ceramics.
Pernod: PZT Films Deposited by a Hydrothermal Method and Characterizations, Material Science and Engineering, B104, pp. 180-184, 2003
Phanickpat: Hydrothermal Synthesis of Fine Bismuth Titanate Powder, Ceramics International, Vol. 30, pp. 1913-1915, 2004
Gao: Piezoelectric Properties of PZT Films Prepared by Hydrothermal Method, International Journal of Modern Physics B, Vol.20, No. 25,26 & 27, pp. 3805-3810, 2006.
Bismuth sodium titanate (Bi1/2Na1/2)TiO3 (abbreviated as BNT) is considered to be one of promising lead-free piezoelectric ceramics.
Pernod: PZT Films Deposited by a Hydrothermal Method and Characterizations, Material Science and Engineering, B104, pp. 180-184, 2003
Phanickpat: Hydrothermal Synthesis of Fine Bismuth Titanate Powder, Ceramics International, Vol. 30, pp. 1913-1915, 2004
Gao: Piezoelectric Properties of PZT Films Prepared by Hydrothermal Method, International Journal of Modern Physics B, Vol.20, No. 25,26 & 27, pp. 3805-3810, 2006.
Online since: December 2009
Authors: Ilhem Kriba, A. Djebaili
Pfender
Surface and Coatings Technology 34 (1), 1 (1988)
[5] Gilles Mariaux, and Armelle Vardelle
International Journal of Thermal Sciences 44 (4),357(2005)
[6] E.
Vardelle Ceramics International 17 (6), 367-379 (1991) [8] H1RT C.
Pfender Thin Solid Films 238 (2), 228 (1994) [11] PASANDIDEH-FARD M., MOSTAGHIMI J., Droplet impact and solidification in a thermal spray process: droplet-substrate interaction, Practical Sol ution in Engineering Problems, 1996, p. 637-646
Fauchais Materials Science and Engineering A, 147(1) 107(1991) [13] G.
Vardelle International Journal of Thermal Sciences 39(9-11),852(2000) [16] E.
Vardelle Ceramics International 17 (6), 367-379 (1991) [8] H1RT C.
Pfender Thin Solid Films 238 (2), 228 (1994) [11] PASANDIDEH-FARD M., MOSTAGHIMI J., Droplet impact and solidification in a thermal spray process: droplet-substrate interaction, Practical Sol ution in Engineering Problems, 1996, p. 637-646
Fauchais Materials Science and Engineering A, 147(1) 107(1991) [13] G.
Vardelle International Journal of Thermal Sciences 39(9-11),852(2000) [16] E.
Online since: February 2013
Authors: Paola Palmero, Laura Montanaro, Krzysztof Haberko, Mariangela Lombardi, Waldemar Pyda
Kim: Materials Science and Engineering C Vol. 28 (2008), p. 1381
[2] S.
León: Materials Science and Engineering C Vol. 32 (2012), p. 478 [5] K.
Wzorek: Ceramics International Vol. 38 (2012), p. 641 [11] C.Y.
Ramesh: Ceramics International Vol. 33 (2007), p. 1171 [12] M.
Montanaro: Key Engineering Materials Vol. 417-418 (2010), p. 565 [15] G.
León: Materials Science and Engineering C Vol. 32 (2012), p. 478 [5] K.
Wzorek: Ceramics International Vol. 38 (2012), p. 641 [11] C.Y.
Ramesh: Ceramics International Vol. 33 (2007), p. 1171 [12] M.
Montanaro: Key Engineering Materials Vol. 417-418 (2010), p. 565 [15] G.
Online since: September 2004
Authors: Peter Stanley
40 Years Of "Strain" : A Retrospective Review
Peter Stanley
School of Engineering, University of Manchester, Oxford Rd, Manchester, M13 9PL.
Keywords: "Strain", International journal, Strain measurement, Review Abstract.
There were the beginnings of a move towards the incorporation of gauges in transducers tailored to a particular job (16.1), and an early bio-engineering application appeared in a study of the load distribution in human feet (15.4).
Topics included a holographic study of the mechanical properties of the engineering ceramics (29.3) and plastic strain studies using speckle pattern autocorrelation analysis (26.4) and peak speckle pattern intensity determination (30.1).
The value of such reports, particularly to the design engineer, is not always recognised. 1995 - 2003 (Vols 31 - 39) This 9-year "decade" saw the move to Blackwell Publishing, as from issue 36.2, and a change in the sub-title from "Journal of the British Society for Strain Measurement" to "International Journal for Strain Measurement".
Keywords: "Strain", International journal, Strain measurement, Review Abstract.
There were the beginnings of a move towards the incorporation of gauges in transducers tailored to a particular job (16.1), and an early bio-engineering application appeared in a study of the load distribution in human feet (15.4).
Topics included a holographic study of the mechanical properties of the engineering ceramics (29.3) and plastic strain studies using speckle pattern autocorrelation analysis (26.4) and peak speckle pattern intensity determination (30.1).
The value of such reports, particularly to the design engineer, is not always recognised. 1995 - 2003 (Vols 31 - 39) This 9-year "decade" saw the move to Blackwell Publishing, as from issue 36.2, and a change in the sub-title from "Journal of the British Society for Strain Measurement" to "International Journal for Strain Measurement".
Online since: February 2011
Authors: Xin Yan Yue, Hong Qiang Ru, Cui Ping Zhang, Wei Wang
Design and processing of new materials with improved ballistic resistant properties is becoming one of the challenging tasks of modern engineering.
Sennett: Ceramic Engineering and Science Proceedings Vol. 29(6) (2009), p. 163 [2] Q.C.
Wang: Ceramics International Vol. 36 (2010), p. 167 [3] S.
Yoshizawa: Journal of the Ceramic Society of Japan Vol. 116 (1360) (2008), p. 1319 [5] G.
Zaera: International Journal of Solids and Structures Vol. 45 (2008), p. 6369 [10] A.
Sennett: Ceramic Engineering and Science Proceedings Vol. 29(6) (2009), p. 163 [2] Q.C.
Wang: Ceramics International Vol. 36 (2010), p. 167 [3] S.
Yoshizawa: Journal of the Ceramic Society of Japan Vol. 116 (1360) (2008), p. 1319 [5] G.
Zaera: International Journal of Solids and Structures Vol. 45 (2008), p. 6369 [10] A.
Online since: July 2018
Authors: Mostafa Yakout, M.A. Elbestawi, Stephen C. Veldhuis
Hernandez, "A Review of Additive Manufacturing," International Scholarly Research Network (ISRN) Mechanical Engineering, vol. 2012, 2012
Chartier, "Stereolithography for Manufacturing Ceramic Parts," Advanced Engineering Materials, vol. 2, pp. 493-496, 2000
Masood, "Dynamic Mechanical Properties of ABS Material Processed by Fused Deposition Modelling," International Journal of Engineering Research and Applications, vol. 2, pp. 2009-2014, 2012
Manufacturing Engineering Magazine. 70-77
Frazier, "Metal Additive Manufacturing: A Review," Journal of Materials Engineering and Performance, vol. 23, pp. 1917-1928, 2014
Chartier, "Stereolithography for Manufacturing Ceramic Parts," Advanced Engineering Materials, vol. 2, pp. 493-496, 2000
Masood, "Dynamic Mechanical Properties of ABS Material Processed by Fused Deposition Modelling," International Journal of Engineering Research and Applications, vol. 2, pp. 2009-2014, 2012
Manufacturing Engineering Magazine. 70-77
Frazier, "Metal Additive Manufacturing: A Review," Journal of Materials Engineering and Performance, vol. 23, pp. 1917-1928, 2014
Online since: October 2011
Authors: E.Z. Erkmen, Burcu Nilgün Cetiner
Goller, Sintering effects on mechanical properties of glass-reinforced hydroxyapatite composites, Ceramics International 28 (2002) 617–621
Takadama, Titania-based bioactive materials, Journal of the European Ceramic Society 27 (2007) 1553–1558
Demirkesen, Processing and characterization of bioglass reinforced hydroxyapatite composites, Ceramics International 29 (2003), 721–724
El-Bassyouni, Fabrication and characterization of bioactive glass (45S5)/titania Biocomposites, Ceramics International 35 (2009)1991–1997
[15] Bretcanu O., Xanthippi Chatzistavrou X., Paraskevopoulos K., Conradt R., Thompson I., Boccaccini A.R., “Sintering and crystallisation of 45S5 Bioglass® powder”, Journal of the European Ceramic Society, s. 3299-3306 29 (2009)
Takadama, Titania-based bioactive materials, Journal of the European Ceramic Society 27 (2007) 1553–1558
Demirkesen, Processing and characterization of bioglass reinforced hydroxyapatite composites, Ceramics International 29 (2003), 721–724
El-Bassyouni, Fabrication and characterization of bioactive glass (45S5)/titania Biocomposites, Ceramics International 35 (2009)1991–1997
[15] Bretcanu O., Xanthippi Chatzistavrou X., Paraskevopoulos K., Conradt R., Thompson I., Boccaccini A.R., “Sintering and crystallisation of 45S5 Bioglass® powder”, Journal of the European Ceramic Society, s. 3299-3306 29 (2009)
Online since: July 2016
Authors: Madeleine Apostol, Jovito Leo Lobigan, John Kenneth Cruz
Cheng, 'Biocompatibility and Osteogenesis of Biomimetic Nano-Hydroxyapatite/Polyamide Composite Scaffolds For Bone Tissue Engineering'.
Materials Science and Engineering: C 33, no. 7 (2013): 4126-4132
[12] ASTM International. 2014.
Basu, 'A Porous Hydroxyapatite Scaffold For Bone Tissue Engineering: Physico-Mechanical And Biological Evaluations'.
Ceramics International 38, no. 1 (2012): 341-349
Materials Science and Engineering: C 33, no. 7 (2013): 4126-4132
[12] ASTM International. 2014.
Basu, 'A Porous Hydroxyapatite Scaffold For Bone Tissue Engineering: Physico-Mechanical And Biological Evaluations'.
Ceramics International 38, no. 1 (2012): 341-349
Online since: September 2013
Authors: Fei Hu Zhang, L.F. Liu, Chun Hui Li, Min Hui Liu, Jiang Chen
Grinding Force and Surface Roughness in Ultrasonic Assisted
Grinding of SiC Ceramics with Diamond Grinding Wheel
Lifei Liu1, a, Feihu Zhang1,b and, Chunhui Li1, c, Jiang Chen1,d Minhui Liu1
1School of Mechanical and Electrical Engineering, Harbin Institute of Technology,
West Dazhi Street 92, Harbin, China, 150001
aliulf_87@163.com, bzhangfh@hit.edu.cn, clchwestlif@gmail.com, dchenjiang@hit.edu.cn
Keywords: Ultrasonic assisted grinding, SiC, Grinding force, Surface roughness
Abstract.
The material used in experiments is SiC ceramics, they are sticked on a metal plate, and then fixed on the dynamometer for the measuring of grinding force.
[4] Yan Wu, Aiguo Sun, in: Grinding Mechanism of Two-Dimensional Ultrasonic Vibration and Experimental Study, Journal of North University of China(Natural Science Edition), 2007, 28(6): 486-490
Jackson, in: Ultrasonic vibration –assisted grinding of micro-structured surfaces on silicon carbide ceramics materials, Proceedings of the institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2012: 553-559
Hu, in: Kinematic view of tool life in rotary ultrasonic side milling of hard and brittle materials, International Journal of Machine Tools & Manufacture, 50 (2010): 303-307.
The material used in experiments is SiC ceramics, they are sticked on a metal plate, and then fixed on the dynamometer for the measuring of grinding force.
[4] Yan Wu, Aiguo Sun, in: Grinding Mechanism of Two-Dimensional Ultrasonic Vibration and Experimental Study, Journal of North University of China(Natural Science Edition), 2007, 28(6): 486-490
Jackson, in: Ultrasonic vibration –assisted grinding of micro-structured surfaces on silicon carbide ceramics materials, Proceedings of the institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2012: 553-559
Hu, in: Kinematic view of tool life in rotary ultrasonic side milling of hard and brittle materials, International Journal of Machine Tools & Manufacture, 50 (2010): 303-307.