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Online since: July 2015
Authors: Quan Ping Sun, Qian Liang Chen, Hai Bing Wu
Research on 5 Axis Tool-path Based on Constant Shearing Stress for Milling Thin-wall Ceramics
Sun Quanpinga Wu Haibingb Chen Qianliangc
aspqu@sian.com,bhbwu@qq.com,ccql@163.com
The Key Lab. of Advanced Manufacturing Technology, Huaiyin Institute of Technology, China
Keywords: Ceramics; High-speed cutting; Crack control; Algorithm
Abstract: Ceramics is a material of hardness and brittle, so crack arises easily when it is machined.
Based on Eq. 7 and performance of material cutting, Firstly initialize feed rate f0 and total machining time T, and let cutting time in every cutting layer same namely .according to and Ft, feed-rate of all cutting layers should be computed as follows
Acknowledgement The authors greatly appreciate the financial support provided by the Natural Science Fund (No. 51075173), the Natural Science Fund of Jiangsu province (No.
,et al:Rapid Prototyping Journal Vol.11(2005),p. 37 [3] Pham D.
:International Journal of Machine Tools & Manufacture Vol 47(2007),p. 618 [4] Burak Sencer, Yusuf Altintas:Journal of Manufacturing Science and Engineering Vol 131(2009),p. 1 [5] Lu J, Cheatham R, Jensen CG et al:International Journal of Computer Integrated Manufacturing Vol 21(2008), p. 550 [6] Campa FJ, de Lacalle LNL, Urbikain G et al:Proceedings of the ASME International Manufacturing Science and Engineering Conference (2008),p. 359 [7] Wang Xiankui.Manual machining process(China Machine Press, 2006) [8] Sun Quanping, Liao Wenhe,Sheng Liang: Journal of Computer Aided Design & Computer Graphics Vol 17, p. 486
Based on Eq. 7 and performance of material cutting, Firstly initialize feed rate f0 and total machining time T, and let cutting time in every cutting layer same namely .according to and Ft, feed-rate of all cutting layers should be computed as follows
Acknowledgement The authors greatly appreciate the financial support provided by the Natural Science Fund (No. 51075173), the Natural Science Fund of Jiangsu province (No.
,et al:Rapid Prototyping Journal Vol.11(2005),p. 37 [3] Pham D.
:International Journal of Machine Tools & Manufacture Vol 47(2007),p. 618 [4] Burak Sencer, Yusuf Altintas:Journal of Manufacturing Science and Engineering Vol 131(2009),p. 1 [5] Lu J, Cheatham R, Jensen CG et al:International Journal of Computer Integrated Manufacturing Vol 21(2008), p. 550 [6] Campa FJ, de Lacalle LNL, Urbikain G et al:Proceedings of the ASME International Manufacturing Science and Engineering Conference (2008),p. 359 [7] Wang Xiankui.Manual machining process(China Machine Press, 2006) [8] Sun Quanping, Liao Wenhe,Sheng Liang: Journal of Computer Aided Design & Computer Graphics Vol 17, p. 486
Online since: August 2010
Authors: Xin Huan Niu, Bai Mei Tan, Xiao Hong Zhao, Wei Lian Zhang
Silicon-Germanium (SiGe) single crystal is a fully miscible solid solution with
diamond-base, and has attracted keen interest as material for applications such as microelectronic
and optoelectronic devices.
The applications for SiGe single crystal according to the distinct advantages over pure Silicon also include both intrinsic and extrinsic photo-detectors, solar cells, gamma detectors, low temperature thermo resistors, high temperature thermoelectric generators, high-performance discrete devices, X-ray focusing systems and substrate materials.
Acknowledgments The authors would like to thank the Natural Science Foundation of China (No 59772037), the Hebei Natural Science Foundation of China (No 500016 and No E200400006),Tianjin Natural Science Foundation of China(No 10JCZDJC15500), Major national science and technology program 2009ZX02308-002 for the financial support of this study.
References [1] T.A.Campbell and M.Schweizer: Journal of Crystal Growth Vol. 226(2001), p.231 [2] D.Bliss and B.Demczyk: Journal of Crystal Growth Vol. 174(1997), p.187 [3] I.
Yonenaga: Journal of Crystal Growth Vol. 275(2005), p.91 [4] M.
The applications for SiGe single crystal according to the distinct advantages over pure Silicon also include both intrinsic and extrinsic photo-detectors, solar cells, gamma detectors, low temperature thermo resistors, high temperature thermoelectric generators, high-performance discrete devices, X-ray focusing systems and substrate materials.
Acknowledgments The authors would like to thank the Natural Science Foundation of China (No 59772037), the Hebei Natural Science Foundation of China (No 500016 and No E200400006),Tianjin Natural Science Foundation of China(No 10JCZDJC15500), Major national science and technology program 2009ZX02308-002 for the financial support of this study.
References [1] T.A.Campbell and M.Schweizer: Journal of Crystal Growth Vol. 226(2001), p.231 [2] D.Bliss and B.Demczyk: Journal of Crystal Growth Vol. 174(1997), p.187 [3] I.
Yonenaga: Journal of Crystal Growth Vol. 275(2005), p.91 [4] M.
Online since: July 2015
Authors: Mohd Fadhil Nuruddin, Nasir Shafiq, Maisarah Ali, Siti Asmahani Saad
Mikulab, Characterization of chromium doped tricalcium silicate using SEM/EDS, XRD and FTIR, Journal of Hazardous Materials, Vol.42(1), pp.87-102,1995
Salleh, Contribution of rice husk ash to the properties of mortar and concrete : a review, Journal of American Science, Vol 6(3), 2010
Ahalawat, Beneficial role of nanosilica in cement based materials – a review, Construction and Building Materials,Vol. 47, pp. 1069-1077, 2013
Sinthupinyo, "Pozzolanic Activity of Rice Husk Ash -Comparison of various electrical methods," Journal of Metals, Materials and Minerals, vol. 19, pp. 1-7, 2009
Fayyadh, Rice husk ash concrete: the effect of rha average particle size on mechanical properties and drying shrinkage, Australian Journal of Basic and Applied Sciences, Vol.3(3), pp. 1616-1622, 2009
Salleh, Contribution of rice husk ash to the properties of mortar and concrete : a review, Journal of American Science, Vol 6(3), 2010
Ahalawat, Beneficial role of nanosilica in cement based materials – a review, Construction and Building Materials,Vol. 47, pp. 1069-1077, 2013
Sinthupinyo, "Pozzolanic Activity of Rice Husk Ash -Comparison of various electrical methods," Journal of Metals, Materials and Minerals, vol. 19, pp. 1-7, 2009
Fayyadh, Rice husk ash concrete: the effect of rha average particle size on mechanical properties and drying shrinkage, Australian Journal of Basic and Applied Sciences, Vol.3(3), pp. 1616-1622, 2009
Online since: July 2013
Authors: Lian Xiang Ma, Gang Yang, Yuan Zheng Tang, Yan He
The EMD method is based on the linear response theory, using the Einstein or Green-Kubo (GK) formula to calculate thermal conductivity of bulk materials.
The molecular structure of EPDM is built by Materials Studio® software [12].
The EMD method is based on the linear response theory, using the Einstein or GK formula to calculate thermal conductivity of bulk materials.
Lee: Journal of Applied Polymer Science, Vol.16(1972), p.3159 [2] C.
Bollampally: Journal of Polymer Science, Vol.74(1999), p.3396 [3] V.
The molecular structure of EPDM is built by Materials Studio® software [12].
The EMD method is based on the linear response theory, using the Einstein or GK formula to calculate thermal conductivity of bulk materials.
Lee: Journal of Applied Polymer Science, Vol.16(1972), p.3159 [2] C.
Bollampally: Journal of Polymer Science, Vol.74(1999), p.3396 [3] V.
Online since: March 2015
Authors: De Xuan Huo, Wei Feng Yang, Jin Wei Li, Hong Yue Wei, Yin Jing Zhang
Some progresses resulted from synthesis technique of new materials, such as Bi2Te3/Sb2Te3 artificial superlattice[1] and nanostructured materials[2].
These new materials show larger ZT over unity.
Zhao, Advanced Energy Materials 4 (2014) 1400600
Ren, Materials Today 16 (2013) 387-395
Lv, Journal of Inorganic Materials 25 (2010) 573.
These new materials show larger ZT over unity.
Zhao, Advanced Energy Materials 4 (2014) 1400600
Ren, Materials Today 16 (2013) 387-395
Lv, Journal of Inorganic Materials 25 (2010) 573.
Online since: December 2011
Authors: Yong Ying Du, Yu Guo, Yu Ning Wang, Ming Ang Yin
References
[1] Steel materials and heat treatment process.
[3] Y.Y.Du, Ch.H.Li, Y.P.Ma, Journal of Agricultural Mechanization Research. (3):120-123,(2006)
Journal of Agricultural Engineering Research. 32(2):185-193 (2003)
[6] Rezaee,A; Najafizadeh,A; kermanpur,A; Moallemi,M; Materials&design,32(9):4437-4442 (2011)
Indian journal of engineering and materials sciences 18:125-136 (2011)
[3] Y.Y.Du, Ch.H.Li, Y.P.Ma, Journal of Agricultural Mechanization Research. (3):120-123,(2006)
Journal of Agricultural Engineering Research. 32(2):185-193 (2003)
[6] Rezaee,A; Najafizadeh,A; kermanpur,A; Moallemi,M; Materials&design,32(9):4437-4442 (2011)
Indian journal of engineering and materials sciences 18:125-136 (2011)
Stability Analysis for Pillars during the Process of Panel Mining Based on Dynamic Fuzzy Reliability
Online since: October 2011
Authors: Chang Zhen Wu, Shi Jiao Yang, Hui Luo, Jian Yong Dai
Material parameters obtained from experiments are listed in Table 1.
Acknowledgements This work was financially supported by the Hunan Natural Science Foundation (10JJ2041) and Natural Science Foundation of China (50974076).
[9] Schweiger.H.F and Peschl.G.M: Elsevier Journal of Computers and Geotechnics.
Peng: Journal of Central South University (Nat Sci Ed).
Ye: Chinese Journal of Geotechnical Engineering.Forum Vol. 28(2006), p. 1019-1022.
Acknowledgements This work was financially supported by the Hunan Natural Science Foundation (10JJ2041) and Natural Science Foundation of China (50974076).
[9] Schweiger.H.F and Peschl.G.M: Elsevier Journal of Computers and Geotechnics.
Peng: Journal of Central South University (Nat Sci Ed).
Ye: Chinese Journal of Geotechnical Engineering.Forum Vol. 28(2006), p. 1019-1022.
Online since: April 2022
Authors: Mohammed Ouali, Billel Lounici, El Hadi Osmani
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 233 (2019) 3487-3511
Journal of Mechanical Science and Technology 32 (2018) 5421-5432
Applied Mechanics and Materials 162 (2012) 403-412
International journal of mechanical sciences 43 (2001) 1711-1730
Journal of materials processing technology 155 (2004) 1383-1389
Journal of Mechanical Science and Technology 32 (2018) 5421-5432
Applied Mechanics and Materials 162 (2012) 403-412
International journal of mechanical sciences 43 (2001) 1711-1730
Journal of materials processing technology 155 (2004) 1383-1389
Online since: September 2019
Authors: M.O. Gushchina, E.A. Shirokina, A. Unt, R.V. Mendagaliev, Y.A. Bistrova
Materials and research methodic
This research focuses on investigation of the samples obtained by direct laser deposition.
Clare, In-situ synthesis of titanium aluminides by direct metal deposition,Journal of Materials Processing Technology. 239 (2017) 230-239
Gao, Study on microstructure, mechanical properties and machinability of efficiently additive manufactured AISI 316L stainless steel by high-power direct laser deposition, Journal of Materials Processing Technology. 240 (2017) 12-22
B, Metal Fabrication by Additive Manufacturing Using Laser and Electron Beam Melting Technologies,Journal of Materials Science & Technology. 28 (2012) 1-14
[14] Turichin G.A, Klimova O.G, Babkin K.D, Pevzner Y.B., Effect of thermal and diffusion processes on formation of the structure of weld metal in laser welding of dissimilar materials, Metal science and heat treatment. 55 (2014) 569-574
Clare, In-situ synthesis of titanium aluminides by direct metal deposition,Journal of Materials Processing Technology. 239 (2017) 230-239
Gao, Study on microstructure, mechanical properties and machinability of efficiently additive manufactured AISI 316L stainless steel by high-power direct laser deposition, Journal of Materials Processing Technology. 240 (2017) 12-22
B, Metal Fabrication by Additive Manufacturing Using Laser and Electron Beam Melting Technologies,Journal of Materials Science & Technology. 28 (2012) 1-14
[14] Turichin G.A, Klimova O.G, Babkin K.D, Pevzner Y.B., Effect of thermal and diffusion processes on formation of the structure of weld metal in laser welding of dissimilar materials, Metal science and heat treatment. 55 (2014) 569-574
Online since: April 2019
Authors: Liga Berzina-Cimdina, Rita Serzane, Gita Sakale, Olita Medne
Materials and Methods
A.
Clay and clay materials are very suitable for environmental technologies.
Stewart, Biostabilization of municipal solid waste fractions from an advanced waste treatment plant, Journal of King Saud University – Science. 29 (2017) 145-150
Berzina-Cimdina, The composition of alternative daily cover materials with a perspective of uUse of Latvian local resources, Material Science and Applied Chemistry. 32: (2015) 45-48
Cui, Modified sewage sludge as temporary landfill cover material, Water Science and Engineering. 8 (3) (2015) 257-262
Clay and clay materials are very suitable for environmental technologies.
Stewart, Biostabilization of municipal solid waste fractions from an advanced waste treatment plant, Journal of King Saud University – Science. 29 (2017) 145-150
Berzina-Cimdina, The composition of alternative daily cover materials with a perspective of uUse of Latvian local resources, Material Science and Applied Chemistry. 32: (2015) 45-48
Cui, Modified sewage sludge as temporary landfill cover material, Water Science and Engineering. 8 (3) (2015) 257-262