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Online since: May 2016
Authors: Kai Loong Foo, Uda Hashim, W. Rahman, Chang Chuan Lee, Wei Wen Liu, Puah Ying Phing Adelyn, Mohd Khairuddin Md Arshad, Bee Ying Lim, A. Rahim Ruslinda, Chun Hong Voon, Suhaimi Mat Kahar, Hon Cheun Lee, Abdul Rahman Nurul Huda
Cheun Lee1,l, W.Rahman2,m
1Institude of Nanoelectronic Engineering, Universiti Malaysia Perlis, Lot 106, 108, 111, Tingkat 1, Block A, Taman Pertiwi Indah, Jalan Kangar-Alor Setar, Seriab, 01000, Kangar,Perlis, Malaysia
2School of Manufacturing Engineering, Universiti Malaysia Perlis (Unimap), Kampus Alam Pauh Putra, 02600, Arau, Perlis, Malaysia
3School of Materials Engineering, Universiti Malaysia Perlis (Unimap), Jejawi, Arau, 02600 Perlis, Malaysia.
Zhuc: Journal of Alloys and Compounds, Vol. 509 (2011), p. 6844–6847
[16] Bin Lin, Yong-Cai Song, Chang-Rui Zhang and Jin-ShanYu: Ceramics International Vol. 40 (2014), p. 12613–12616 [17] S.
Eroglu,: Journal of Ref.
Fei: Journal of Materials Science, Vol. 32 (1997), p. 2469-2472
Zhuc: Journal of Alloys and Compounds, Vol. 509 (2011), p. 6844–6847
[16] Bin Lin, Yong-Cai Song, Chang-Rui Zhang and Jin-ShanYu: Ceramics International Vol. 40 (2014), p. 12613–12616 [17] S.
Eroglu,: Journal of Ref.
Fei: Journal of Materials Science, Vol. 32 (1997), p. 2469-2472
Online since: March 2015
Authors: Qun Zhang Tu, Xin Min Shen, Jian Zhao Zhou
Introduction
Unmanned excavator has been gradually applied in the constructional engineering, such as foundation of the airport, railway, highway, metro, and many other projects, which can remarkably improve the operation efficiency and decrease the economic cost [1-3], since the unmanned machines can work continuously and it is able to operate in the conditions which are unfit for the worker.
Deterministic surfacing method Deterministic surfacing method is generated from the machining technology for optical components and ceramics products [7-10], which is normally named computer controlled optics surfacing (CCOS) [11-13].
References [1] YH Zweiri, LD Seneviratne, and K Althoefer: Proceedings of the Institution of Mechanical Engineers Vol. 217 (2003), p. 259-274 [2] YH Zweiri: International Journal of Automation and Computing: Vol. 5 (2008), p. 185-192 [3] TA Tamba, B Hong, and KS Hong: International Journal of Control, Automation and Systems Vol. 7 (2009), p. 113-122 [4] S.
Golini: Journal of Intelligent Material Systems and Structures Vol. 10 (1999), p. 683-689 [10] W Kordonski, and D Golini: Int.
B Vol. 13 (1999), p. 2205-2212 [11] RA Jones: Applied optics Vol. 34 (1995), p. 1162-1169 [12] DW Kim, SW Kim, and JH Burge: Optics Express Vol. 17 (1999), p. 21850-21866 [13] R Aspden, R McDonough, and FR Nitchie Jr: Vol. 11 (1972), p. 2739-2747 [14] XM Shen, M Nagano, WQ Peng, YF Dai, and K Yamamura: Key Engineering Materials Vol. 523-524 (2012), p. 276-280 [15] XM Shen, YF Dai, WQ Peng, M Nagano, and K Yamamura: Key Engineering Materials Vol. 516 (2012), p. 504-509
Deterministic surfacing method Deterministic surfacing method is generated from the machining technology for optical components and ceramics products [7-10], which is normally named computer controlled optics surfacing (CCOS) [11-13].
References [1] YH Zweiri, LD Seneviratne, and K Althoefer: Proceedings of the Institution of Mechanical Engineers Vol. 217 (2003), p. 259-274 [2] YH Zweiri: International Journal of Automation and Computing: Vol. 5 (2008), p. 185-192 [3] TA Tamba, B Hong, and KS Hong: International Journal of Control, Automation and Systems Vol. 7 (2009), p. 113-122 [4] S.
Golini: Journal of Intelligent Material Systems and Structures Vol. 10 (1999), p. 683-689 [10] W Kordonski, and D Golini: Int.
B Vol. 13 (1999), p. 2205-2212 [11] RA Jones: Applied optics Vol. 34 (1995), p. 1162-1169 [12] DW Kim, SW Kim, and JH Burge: Optics Express Vol. 17 (1999), p. 21850-21866 [13] R Aspden, R McDonough, and FR Nitchie Jr: Vol. 11 (1972), p. 2739-2747 [14] XM Shen, M Nagano, WQ Peng, YF Dai, and K Yamamura: Key Engineering Materials Vol. 523-524 (2012), p. 276-280 [15] XM Shen, YF Dai, WQ Peng, M Nagano, and K Yamamura: Key Engineering Materials Vol. 516 (2012), p. 504-509
Online since: August 2015
Authors: Brian Gabbitas, Navaneeth Velluvakkandi, Stella Raynova
Kopp., "Densification of sintered molybdenum during hot upsetting: experiments and modelling," Materials Science and Engineering: A, 264 (1999) 17-25
Yang, "Densification behaviour of titanium alloy powder during hot pressing," Materials Science and Engineering: A, 313 (2001) 46-52
Oyane, "Plasticity theory for porous metals," International Journal of Mechanical Science,18 (1976) 285-291
Gurson, "Continuum Theory of Ductile Rupture by Void Nucleation and Growth: Part I—Yield Criteria and Flow Rules for Porous Ductile Media," Journal of Engineering Materials and Technology, 99 (1977) 2-15
Aravas, "On the numerical integration of a class of pressure-dependent plasticity models," International Journal for Numerical Methods in Engineering, 24 (1987) 1395-1416
Yang, "Densification behaviour of titanium alloy powder during hot pressing," Materials Science and Engineering: A, 313 (2001) 46-52
Oyane, "Plasticity theory for porous metals," International Journal of Mechanical Science,18 (1976) 285-291
Gurson, "Continuum Theory of Ductile Rupture by Void Nucleation and Growth: Part I—Yield Criteria and Flow Rules for Porous Ductile Media," Journal of Engineering Materials and Technology, 99 (1977) 2-15
Aravas, "On the numerical integration of a class of pressure-dependent plasticity models," International Journal for Numerical Methods in Engineering, 24 (1987) 1395-1416
Online since: October 2014
Authors: Erdmann Spiecker, Chiara Vitale-Brovarone, Aldo Roberto Boccaccini, Anahí Philippart, Elena Boccardi, Lucia Pontiroli, Ana Maria Beltrán, Alexandra Inayat, Wilhelm Schwieger
Thus, this new composition shows an essential property to be considered for bone tissue engineering.
Series A, Mathematical, physical, and engineering sciences 2012, 370, 1400–21
Angewandte Chemie (International ed. in English) 2004, 43, 5980–4
R., 45S5 Bioglass®-derived glass–ceramic scaffolds for bone tissue engineering.
Journal of Biomedical and Pharmaceutical Engineering 2007, 1, 34–39.
Series A, Mathematical, physical, and engineering sciences 2012, 370, 1400–21
Angewandte Chemie (International ed. in English) 2004, 43, 5980–4
R., 45S5 Bioglass®-derived glass–ceramic scaffolds for bone tissue engineering.
Journal of Biomedical and Pharmaceutical Engineering 2007, 1, 34–39.
Online since: January 2014
Authors: Jie Wang, Lin Zhang
Development of Double-axis Double-rest CNC Machining Center
Jie Wang1, a and Lin Zhang1,b
1College of Mechanical-Electrical Engineering, Nanjing University of Aeronautics and Astronautics,
Nanjing, Jiangsu, 210016, China
awjienuaa@163.com, bzhanglin05@nuaa.edu.cn
Keywords: Machining center, multi-body system, topological structure, volumetric error model
Abstract.
Table 1 The specification of the machining center Configuration double-axis double-rest CNC machining center Base cast iron Axes X1,Z1,X2 and Z2 axis W axis Spindles Type Aerostatic slideway Aerostatic slideway Ceramic ball bearing Stroke X1,X2:600mm Z1,Z2:2500mm 2300mm N/A Motion accuracy 0.003mm 0.006mm 0.001mm (a) Photograph showing the machining center (b) The configuration of the machining center Fig. 1 The double-axis double-rest CNC machining center The Volumetric Error Model for The Machining Center To reduce the mechanical error and improve processing quality, machining error must be compensated and controlled.
International Journal of Automation Technology 1(2) (2007):78–86
Proceedings of the 12th International Conference on Machine Tool Engineers, (2006) 157–166
International Journal of Machine Tools and Manufacture, 1995, 35( 9): 1321-1337.
Table 1 The specification of the machining center Configuration double-axis double-rest CNC machining center Base cast iron Axes X1,Z1,X2 and Z2 axis W axis Spindles Type Aerostatic slideway Aerostatic slideway Ceramic ball bearing Stroke X1,X2:600mm Z1,Z2:2500mm 2300mm N/A Motion accuracy 0.003mm 0.006mm 0.001mm (a) Photograph showing the machining center (b) The configuration of the machining center Fig. 1 The double-axis double-rest CNC machining center The Volumetric Error Model for The Machining Center To reduce the mechanical error and improve processing quality, machining error must be compensated and controlled.
International Journal of Automation Technology 1(2) (2007):78–86
Proceedings of the 12th International Conference on Machine Tool Engineers, (2006) 157–166
International Journal of Machine Tools and Manufacture, 1995, 35( 9): 1321-1337.
Online since: June 2011
Authors: Yue Hui Wang, Hong Yan Tian, Dan Dan Jia, Hong Lei Wang, Lu Liu, Dong Jun Wang
Introduction
Every been to university engineering and science students should learn, "Chemistry" This basic course.
Britain and the Netherlands and other countries have also introduced the corresponding measures, green chemistry is quickly becoming the forefront of the international chemical sciences.
Wang: journal of inorganic materials, Vol. 18(2003), p.998 [4] X.
[7] Kishore: guiyang college journals, Vol. 1 (2006), p.31 [8] C.
Liu : journal of chemistry teaching, Vol.8, (2002) : p.12 [9] G.We, R.
Britain and the Netherlands and other countries have also introduced the corresponding measures, green chemistry is quickly becoming the forefront of the international chemical sciences.
Wang: journal of inorganic materials, Vol. 18(2003), p.998 [4] X.
[7] Kishore: guiyang college journals, Vol. 1 (2006), p.31 [8] C.
Liu : journal of chemistry teaching, Vol.8, (2002) : p.12 [9] G.We, R.
Online since: April 2015
Authors: M.S. Abdullah, F. Ahmad, A.M. Mustafa Al Bakri
Mustafa Al Bakri 2,c
1Engineering Campus, Universiti Sains Malaysia, 14300 Nibong Tebal, Pulau Pinang, MALAYSIA
3 School of Materials Engineering, Universiti Malaysia Perlis (UniMAP), P.O.
The other names of geopolymer is alkali-activated cement, geocement, alkali-bonded ceramic, inorganic polymer concrete, and hydroceramic.
Advance research showed the application of Geopolymer in civil engineering works (including structures and geotechnical) also giving a good strength result.
Looking to the advantages and performance of geopolymer evaluated by previous researchers in many field, civil engineering researcher try to demonstrate and reevaluate the strength of geopolymer in civil engineering works.
Abdul Razak, “Fly Ash-based Geopolymer Lightweight Concrete Using Foaming Agent,” International Journal of Molecular Sciences, vol. 13. pp. 7186–7198, 2012
The other names of geopolymer is alkali-activated cement, geocement, alkali-bonded ceramic, inorganic polymer concrete, and hydroceramic.
Advance research showed the application of Geopolymer in civil engineering works (including structures and geotechnical) also giving a good strength result.
Looking to the advantages and performance of geopolymer evaluated by previous researchers in many field, civil engineering researcher try to demonstrate and reevaluate the strength of geopolymer in civil engineering works.
Abdul Razak, “Fly Ash-based Geopolymer Lightweight Concrete Using Foaming Agent,” International Journal of Molecular Sciences, vol. 13. pp. 7186–7198, 2012
Online since: May 2013
Authors: Pankaj Kalra, Rajeev Garg, Ajay Kumar
Kiatkittipong, Review of solid oxide fuel cell technology, Engineering Journal, 3 Issue1 (Jan. 2009)
Series: Materials Science and Engineering 18 (2011) 132008
Series: Materials Science and Engineering 18 (2011) 132008
Part one: from a micro-detailed to macro-blackbox model, International Journal of Hydrogen Energy, 30 (2005) 181-187
Mechanical & Aerospace Engineering, West Virginia University (2006).
Series: Materials Science and Engineering 18 (2011) 132008
Series: Materials Science and Engineering 18 (2011) 132008
Part one: from a micro-detailed to macro-blackbox model, International Journal of Hydrogen Energy, 30 (2005) 181-187
Mechanical & Aerospace Engineering, West Virginia University (2006).
Online since: August 2012
Authors: Zeng Gang Li, Zeng Yong Chu, Yong Jiang Zhou, Hai Feng Cheng
Lofland and S.M.Bhagat: Journal of Applied Physics Vol. 83 (1998), p. 2866-2868
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Wong: Journal of Applied Physics Vol. 79 (1996), p. 1910-1812 [3] Soma Das and T.
Arul Raj: International Journal of Hydrogen Energy Vol. 32(2007), p. 4267-4271 [6] ZHOU Ke-sheng, WANG Da and HUANG Ke-long: Trans.Nonferrous Met.
[10] Jiang S P: Journal of Power Sources Vol. 124(2003), p. 390-420 [11] LI Daguang, ZHANG Hongyi and ZHANG Hefeng: Materials Science Vol. 20(2006), p. 296-299 [12] ZHU Baojun, GONG Tao and TANG Yuanhong: Materials Science and Engineering of Powder Metallurgy Vol. 10(2005), p.264-267 [13] Hammouche A, Siebert E and Hammou A: Electrochem Soc Vol. 138(1991), p. 1212-1218 [14] Szabo V, Bassir M and Van Neste A: Environm Vol. 37(2002), p. 175 [15] Wang W and Jiang S P: Solid State Ionies Vol. 177(2006), p.1361-1369
[16] ZHU Baojun, GONG Tao and TANG Yuanhong: Materials Science and Engineering of Powder Metallargy Vol. 10(2005), p. 264-267 [17] LEI Liwen: Wuhan University of Technology Vol. 5(2006), p.7-11
Wong: Journal of Applied Physics Vol. 79 (1996), p. 1910-1812 [3] Soma Das and T.
Arul Raj: International Journal of Hydrogen Energy Vol. 32(2007), p. 4267-4271 [6] ZHOU Ke-sheng, WANG Da and HUANG Ke-long: Trans.Nonferrous Met.
[10] Jiang S P: Journal of Power Sources Vol. 124(2003), p. 390-420 [11] LI Daguang, ZHANG Hongyi and ZHANG Hefeng: Materials Science Vol. 20(2006), p. 296-299 [12] ZHU Baojun, GONG Tao and TANG Yuanhong: Materials Science and Engineering of Powder Metallurgy Vol. 10(2005), p.264-267 [13] Hammouche A, Siebert E and Hammou A: Electrochem Soc Vol. 138(1991), p. 1212-1218 [14] Szabo V, Bassir M and Van Neste A: Environm Vol. 37(2002), p. 175 [15] Wang W and Jiang S P: Solid State Ionies Vol. 177(2006), p.1361-1369
[16] ZHU Baojun, GONG Tao and TANG Yuanhong: Materials Science and Engineering of Powder Metallargy Vol. 10(2005), p. 264-267 [17] LEI Liwen: Wuhan University of Technology Vol. 5(2006), p.7-11
Online since: January 2012
Authors: M.S.J. Hashmi, Bekir Sami Yilbas, A. Askandarani
The standard test method for Vickers indentation hardness of advanced ceramics (ASTM C1327-99) was adopted.
Lee: Key Engineering Materials, Vol. 353-358 (2007), p. 1785-1788 [4] K.
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Kik: Archives of Materoa;s Science and Engineering, Vol. 30 (2008), p. 121-124 [12] www. praxair. com/ praxair.nsf/ 0 /9B4F4CED470A266385256C70007796DE / $file /14 0MXC_NanoCompositeWire.pdf [13] W.C.
Lee: Key Engineering Materials, Vol. 353-358 (2007), p. 1785-1788 [4] K.
Melloe: International Journal for the Joining of Materials, Vol. 7 (1995), p. 16-22 [5] Y.
Belashchenko: Journal of Thermal Spray Technology, Vol. 14 (2003), p. 196 [10] I.
Kik: Archives of Materoa;s Science and Engineering, Vol. 30 (2008), p. 121-124 [12] www. praxair. com/ praxair.nsf/ 0 /9B4F4CED470A266385256C70007796DE / $file /14 0MXC_NanoCompositeWire.pdf [13] W.C.