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Online since: December 2023
Authors: P. Sivasamy, I. Saravanan, Ayyannan Devaraju, R. Gopi
Sivasamy2,d
1Department of Mechanical Engineering, Adhi College of Engineering and Technology, Kancheepuram, Tamil Nadu, India
2Department of Mechanical Engineering, P.S.R Engineering College, Sivakasi, Virudhunagar, Tamil Nadu, India
agopikrish.291292@gmail.com, bis.annauniv@gmail.com, cadevaa2011@gmail.com, dsiva31samy@gmail.com
Keywords: Titanium Nitride; Physical Vapour Deposition; Hardness; Coating thickness; Wear rate
Abstract.
Ceramics international 41, no. 9 (2015): 10349-10379
Ceramics International (2022)
Ceramics International 48, no. 4 (2022): 4377-4400
Journal of Materials Engineering and Performance 28 (2019): 838-851
Ceramics international 41, no. 9 (2015): 10349-10379
Ceramics International (2022)
Ceramics International 48, no. 4 (2022): 4377-4400
Journal of Materials Engineering and Performance 28 (2019): 838-851
Online since: June 2013
Authors: Richard Landfried, Frank Kern, Rainer Gadow
Ceramic injection molding (CIM) or extrusion requires molds and dies with high hardness to reduce tool wear which occurs due to processing of highly abrasive ceramic compounds.
Reference [1] Landfried, R., Kern, F., Gadow, R., Burger, W., Leonhardt, W., Development of Electrical Discharge Machinable ZTA Ceramics with 24 vol% of TiC, TiN, TiCN, TiB2 and WC as Electrically Conductive Phase, International Journal of Applied Ceramic Technology, 1-10, 2012 [2] Landfried, R., Kern, F., Burger, W., Leonhardt, W., Gadow, R., Wire-EDM of ZTA-TiC composites with variable content of electrically conductive phase, Key engineering Materials, Vols. 504-506, pp 1165-1170, 2012 [3] Liu, C.
-C., Microstructure and Tool Electrode Erosion in EDMed of TiN/Si3N4 Composites, Materials Science and Engineering, 363, 21–227, 2003 [4] B.
Van der Biest, Toughness tailoring of yttria-doped zirconia ceramics, Materials Science and Engineering, A380, 215-221, (2004) [5] P.
Marshall, A Critical Evaluation of Indentation Techniques for Measuring Fracture Toughness: II - Strength Method, Journal of American Ceramic Society, Vol. 64, No. 9, (1981) [6] Ran, S. and Gao, L., Electrical properties and microstructural evolution of ZrO2-Al2O3-TiN nanocomposites prepared by spark plasma sintering, Ceramics International, 38, pp. 4923-4928, 2012 [7] Lux, F., Review - Models proposed to explain the electrical conductivity of mixtures made of conductive and insulating materials, Journal of Materials Science, 28, pp. 285-301, 1993 [8] Malliaris, A. and Turner, D.T., Influence of Particle Size on the Electrical Resistivity of Compacted Mixtures of Polymeric and Metallic Powders, Journal of Applied Physics, Volume 42, Number 2, pp.614-618, 1971 [9] Chase, M.W; Davies, C.A.; Downey, J.R.; Frurip, D.J.; McDonald, R.A. and Syverud, A.N.:, JANAF Thermochemical Tables, 3rd edition, J.Phys.
Reference [1] Landfried, R., Kern, F., Gadow, R., Burger, W., Leonhardt, W., Development of Electrical Discharge Machinable ZTA Ceramics with 24 vol% of TiC, TiN, TiCN, TiB2 and WC as Electrically Conductive Phase, International Journal of Applied Ceramic Technology, 1-10, 2012 [2] Landfried, R., Kern, F., Burger, W., Leonhardt, W., Gadow, R., Wire-EDM of ZTA-TiC composites with variable content of electrically conductive phase, Key engineering Materials, Vols. 504-506, pp 1165-1170, 2012 [3] Liu, C.
-C., Microstructure and Tool Electrode Erosion in EDMed of TiN/Si3N4 Composites, Materials Science and Engineering, 363, 21–227, 2003 [4] B.
Van der Biest, Toughness tailoring of yttria-doped zirconia ceramics, Materials Science and Engineering, A380, 215-221, (2004) [5] P.
Marshall, A Critical Evaluation of Indentation Techniques for Measuring Fracture Toughness: II - Strength Method, Journal of American Ceramic Society, Vol. 64, No. 9, (1981) [6] Ran, S. and Gao, L., Electrical properties and microstructural evolution of ZrO2-Al2O3-TiN nanocomposites prepared by spark plasma sintering, Ceramics International, 38, pp. 4923-4928, 2012 [7] Lux, F., Review - Models proposed to explain the electrical conductivity of mixtures made of conductive and insulating materials, Journal of Materials Science, 28, pp. 285-301, 1993 [8] Malliaris, A. and Turner, D.T., Influence of Particle Size on the Electrical Resistivity of Compacted Mixtures of Polymeric and Metallic Powders, Journal of Applied Physics, Volume 42, Number 2, pp.614-618, 1971 [9] Chase, M.W; Davies, C.A.; Downey, J.R.; Frurip, D.J.; McDonald, R.A. and Syverud, A.N.:, JANAF Thermochemical Tables, 3rd edition, J.Phys.
Online since: October 2011
Authors: Liga Berzina-Cimdina, Dmitrijs Jakovlevs, Agnese Stunda, Lasma Poca
Surface morphology of P2O5-CaO-Nb2O5-Na2O glass-ceramics after acid treatment: SEM and XRD study
Agnese Stundaa, Dmitrijs Jakovlevsb, Lasma Poca c and Liga Berzina-Cimdinad
1Institute of General Chemical Engineering, Riga Technical university, Riga, Pulka iela 3/3, Latvia, LV-1007
aagnese.stunda@rtu.lv, bdmitrijs.jakovlevs@rtu.lv, clasma.poca@rtu.lv,
dliga.berzina-cimdina@rtu.lv
Keywords: Glass-ceramic, phosphate glass, niobate, surface, morphology, acid treatment, dissolution, SEM, XRD.
Santos, “In vitro degradation studies of calcium phosphate glass ceramics prepared by controlled crystallization,” Journal of Non-Crystalline Solids, vol. 330, Nov. 2003, pp. 81-89
Dissolution tests and proof of concept of fibre drawing,” Materials Science and Engineering: C, vol. 31, Mar. 2011, pp. 434-442
Day, “Bioactive comparison of a borate , phosphate and silicate glass,” Journal of Materials Research, vol. 21, 2006, pp. 125-131
Hamdy, “In vitro behavior of bioactive phosphate glass–ceramics from the system P2O5–Na2O–CaO containing titania,” Ceramics International, vol. 35, Apr. 2009, pp. 1195-1204
Santos, “In vitro degradation studies of calcium phosphate glass ceramics prepared by controlled crystallization,” Journal of Non-Crystalline Solids, vol. 330, Nov. 2003, pp. 81-89
Dissolution tests and proof of concept of fibre drawing,” Materials Science and Engineering: C, vol. 31, Mar. 2011, pp. 434-442
Day, “Bioactive comparison of a borate , phosphate and silicate glass,” Journal of Materials Research, vol. 21, 2006, pp. 125-131
Hamdy, “In vitro behavior of bioactive phosphate glass–ceramics from the system P2O5–Na2O–CaO containing titania,” Ceramics International, vol. 35, Apr. 2009, pp. 1195-1204
Online since: August 2013
Authors: Andanastuti Muchtar, C.H. Leong, K.F. Lim, Norziha Yahaya
Khor, Spark plasma sintered hydroxyapatite-yttria stabilized zirconia composites, Ceramics International. 30(7) (2004)1793-1796
Tuan, Effect of zirconia addition on the microstructural evolution of porous hydroxyapatite, Ceramics International. 33(5) (2007)715-718
Kim, Consolidation and mechanical properties of nanostructured hydroxyapatite–(ZrO2+3mol% Y2O3) bioceramics by high-frequency induction heat sintering, Materials Science and Engineering.
Evis, Reactions in hydroxylapatite–zirconia composites, Ceramics International. 33(6) (2007) 987-991
Ergun,Enhanced phase stability in hydroxylapatite/zirconia composites with hot isostatic pressing, Ceramics International. 37(3) (2011) 935-942
Tuan, Effect of zirconia addition on the microstructural evolution of porous hydroxyapatite, Ceramics International. 33(5) (2007)715-718
Kim, Consolidation and mechanical properties of nanostructured hydroxyapatite–(ZrO2+3mol% Y2O3) bioceramics by high-frequency induction heat sintering, Materials Science and Engineering.
Evis, Reactions in hydroxylapatite–zirconia composites, Ceramics International. 33(6) (2007) 987-991
Ergun,Enhanced phase stability in hydroxylapatite/zirconia composites with hot isostatic pressing, Ceramics International. 37(3) (2011) 935-942
Online since: July 2014
Authors: Jie Qin, Jun Jie Zeng, Ying Long, Shang Hua Wu, Jia Hua Wang
Tribology International, 2006. 39: p. 191-197
International Journal of Machine Tools & Manufacture, 2005. 45: p. 1393-1401
[9] al, D.J.e., Wear and lubrication of ceramic cutting tools tool engineering, 2001. 35: p. 3-6
[11] L.A.Dobrzanski, K.G., J.M IKula, D.Pakula, Cutting ability improvement of coated tool materials. journal of achievements in materials and manufacturing engineering, 2006. 17(1-2): p. 41-44
Materials Sciecce and Engineering 2004.
International Journal of Machine Tools & Manufacture, 2005. 45: p. 1393-1401
[9] al, D.J.e., Wear and lubrication of ceramic cutting tools tool engineering, 2001. 35: p. 3-6
[11] L.A.Dobrzanski, K.G., J.M IKula, D.Pakula, Cutting ability improvement of coated tool materials. journal of achievements in materials and manufacturing engineering, 2006. 17(1-2): p. 41-44
Materials Sciecce and Engineering 2004.
Online since: February 2022
Authors: Zhanna V. Eremeeva, Saeed Kamali, Artem I. Lizunov, Vasiliy A. Ovchinnikov
Production of Nanostructured Boron Carbide Ceramics for Industrial Applications
Zhanna V.
Structure and properties of two-layer coatings, Surface Engineering and Applied Electrochemistry, 54(6) (2018) 535-545
Gorokhovsky, Synthesis of the hollandite-like copper doped potassium titanate high-k ceramics, Ceramics International, (2020) DOI: 10.1016/j.ceramint.2020.10.158
Features of coating formation on SPHN-60 white cast iron substrates, Surface Engineering and Applied Electrochemistry, 55(4) (2019) 390-401
Permyakova, Determination of plasticity of thermally treated metallic glass by U-Method and microindentation, Proceedings of SPIE - The International Society for Optical Engineering, 5127 (2002) 246-251.
Structure and properties of two-layer coatings, Surface Engineering and Applied Electrochemistry, 54(6) (2018) 535-545
Gorokhovsky, Synthesis of the hollandite-like copper doped potassium titanate high-k ceramics, Ceramics International, (2020) DOI: 10.1016/j.ceramint.2020.10.158
Features of coating formation on SPHN-60 white cast iron substrates, Surface Engineering and Applied Electrochemistry, 55(4) (2019) 390-401
Permyakova, Determination of plasticity of thermally treated metallic glass by U-Method and microindentation, Proceedings of SPIE - The International Society for Optical Engineering, 5127 (2002) 246-251.
Online since: September 2013
Authors: Yi Zhang, Zhong Wen Ou, Chun Xia Xu, Shang Yong Zhou, Jin Chao Yang, Yue Xia Li
Research and application of geopolymer cementitious material progress and review
Ou Zhongwen1, a, Zhou Shangyong2,Xu Chunxia1, b, Zhang Yi2, Yang Jinchao1, Li Yuexia1
1 Chemical and Materials Engineering Department, Logistic Engineering University of PLA, Chongqing 401331, China;
2 Chongqing Construction Residential Engineering Co.
This is one of the main reasons that there are very few geopolymer cementitious material of mixture admixtures, and for not being used in large-scale engineering applications.
Shanghai Jiantong Engineering and Construction Co. utilizes goepolymer cementitious materials as grouting material in application to improve subgrade strength.
[9] Tang Mingshu, in: Theoretical problems about alkali-aggregate reaction, submitted to Journal of Chinese Ceramics Society(1990)
[17] J.Davidovits, in: Geopolymer 2002 Conference, p. 28-29 [18] Pei Lianri, Sun Jiaying, in: Enhancing original subgrade’s carring capacity of road by using geopolymer grouting material, submitted to China Municipal Engineering(2004) [19] LIN Xian, in: Probing into Performance of New Type Geoplymer, submitted to Petroleum Engineering Construction(2005)
This is one of the main reasons that there are very few geopolymer cementitious material of mixture admixtures, and for not being used in large-scale engineering applications.
Shanghai Jiantong Engineering and Construction Co. utilizes goepolymer cementitious materials as grouting material in application to improve subgrade strength.
[9] Tang Mingshu, in: Theoretical problems about alkali-aggregate reaction, submitted to Journal of Chinese Ceramics Society(1990)
[17] J.Davidovits, in: Geopolymer 2002 Conference, p. 28-29 [18] Pei Lianri, Sun Jiaying, in: Enhancing original subgrade’s carring capacity of road by using geopolymer grouting material, submitted to China Municipal Engineering(2004) [19] LIN Xian, in: Probing into Performance of New Type Geoplymer, submitted to Petroleum Engineering Construction(2005)
Online since: September 2017
Authors: Nurazreena Ahmad, Nurul Farhana Ibrahim, Siti Noor Fazliah Mohd Noor, Hasmaliza Mohamad
Cannillo, Bioactive glass/hydroxyapatite composites: Mechanical properties and biological evaluation, Materials Science and Engineering C. 51 (2015) 196–205
Cannillo, Hydroxyapatite–tricalcium phosphate–bioactive glass ternary composites, Ceramics International. 40 (2014) 3805–3808
Miao, Comparison of hydroxyapatite ceramics and hydroxyapatite/borosilicate glass composites prepared by slip casting, Ceramics International. 30 (2004) 1787–1791
Tahriri, Systhesis, characterization and bioactivity investigation of bioglass/hydroxyapatite composite, Ceramic International. 36 (2010) 291-297
Jin, Effect of particle size gradation on the performance of glass-ceramic 3D printing process, Ceramics International. 1 (2017) 578–584
Cannillo, Hydroxyapatite–tricalcium phosphate–bioactive glass ternary composites, Ceramics International. 40 (2014) 3805–3808
Miao, Comparison of hydroxyapatite ceramics and hydroxyapatite/borosilicate glass composites prepared by slip casting, Ceramics International. 30 (2004) 1787–1791
Tahriri, Systhesis, characterization and bioactivity investigation of bioglass/hydroxyapatite composite, Ceramic International. 36 (2010) 291-297
Jin, Effect of particle size gradation on the performance of glass-ceramic 3D printing process, Ceramics International. 1 (2017) 578–584
Online since: August 2006
Authors: Roman Nowak, Erja Turunen, Jari Keskinen, Simo Pekka Hannula, Teppo Fält, Pertti Lintunen, Tom E. Gustafsson, Tommi Varis
This paper focuses on such efforts in alumina-based ceramic coatings.
Kulkarni, et.al.: Materials Science and Engineering A369 (2004) p. 124 [2] A.J.
Turunen, et.al.: International Thermal Spray Conference (2003), p. 1531 [4] B.
Sampath, et.al.: Materials Science and Engineering A348 (2003) p.54 [7] S-P Hannula, et.al.: Submitted to be published, (EnCera 2004) [8] J.
Vattulainen, et.al.: Journal of Thermal Spray Technology Vol. 10(1) (2001) p. 94 [9] E.
Kulkarni, et.al.: Materials Science and Engineering A369 (2004) p. 124 [2] A.J.
Turunen, et.al.: International Thermal Spray Conference (2003), p. 1531 [4] B.
Sampath, et.al.: Materials Science and Engineering A348 (2003) p.54 [7] S-P Hannula, et.al.: Submitted to be published, (EnCera 2004) [8] J.
Vattulainen, et.al.: Journal of Thermal Spray Technology Vol. 10(1) (2001) p. 94 [9] E.
Online since: December 2003
Authors: R.M. Streicher, G.M. Insley
Journal Citation (to be inserted by the publisher)
Copyright by Trans Tech Publications
Next Generation Ceramics Based on Zirconia Toughened Alumina for
Hip Joint Prostheses
G.
This indicates the ZTA is a chemically stable ceramic.
Acknowledgements The Department of Mechanical Engineering, University of Leeds.
References [1] Willmann, G, Orthopaedics International, vol. 2, (1994), pg. 66 [2] Wang, J, Stevens, R, Journal of Materials Science, vol. 24, (1989), pg.3421
[3] Cales, B, Stefani, Y, Lilley, E, Journal of Biomedical Materials Research, vol. 28, (1994) p 619
This indicates the ZTA is a chemically stable ceramic.
Acknowledgements The Department of Mechanical Engineering, University of Leeds.
References [1] Willmann, G, Orthopaedics International, vol. 2, (1994), pg. 66 [2] Wang, J, Stevens, R, Journal of Materials Science, vol. 24, (1989), pg.3421
[3] Cales, B, Stefani, Y, Lilley, E, Journal of Biomedical Materials Research, vol. 28, (1994) p 619