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Online since: June 2018
Authors: Saboktakin Rizi Mohsen, Javadinejad Hamidreza, Ebrahim Aghababaie, Hosseini Sayed Ahmad
Sonboli, “Development of Fe3C, SiC and Al4C3 compounds during mechanical alloying,” Journal of Materials Science, vol. 42, no. 15, pp. 5911–5914, May 2007
Suryanarayana, “Mechanical alloying and milling,” Progress in Materials Science, vol. 46, no. 1–2, pp. 1–184, Jan. 2001
Uggowitzer, “Aluminium carbide formation in interpenetrating graphite/aluminium composites,” Materials Science and Engineering: A, vol. 448, no. 1–2, pp. 1–6, Mar. 2007
Duhamel, “Powder Metallurgy of Nanostructured High Strength Materials,” Materials Science Forum, pp. 1405–1408, Jan. 2007
Zhang, “Diffusion in mechanical alloying,” Journal of Materials Processing Technology, vol. 67, no. 1–3, pp. 100–104, May 1997
Suryanarayana, “Mechanical alloying and milling,” Progress in Materials Science, vol. 46, no. 1–2, pp. 1–184, Jan. 2001
Uggowitzer, “Aluminium carbide formation in interpenetrating graphite/aluminium composites,” Materials Science and Engineering: A, vol. 448, no. 1–2, pp. 1–6, Mar. 2007
Duhamel, “Powder Metallurgy of Nanostructured High Strength Materials,” Materials Science Forum, pp. 1405–1408, Jan. 2007
Zhang, “Diffusion in mechanical alloying,” Journal of Materials Processing Technology, vol. 67, no. 1–3, pp. 100–104, May 1997
Online since: March 2011
Authors: Yong Ping Jin, M.M. Ding, J. Yu, C. Xiang
How to orderly organize materials into a 3D part with determined shape and functions is the focus of modern forming/shaping science.
Commonly, there are four basic forming methods in terms of organizing way for materials.
Forming materials are usually thin sheets like papers and polymer films.
This technics usually uses filamentous thermoplastic materials such as ABS, wax and nylon.
[2] C.Hull, M.Feygin, Y.Baron et al: Rapid Prototyping Journal, Vol.1(1995), pp.11-19
Commonly, there are four basic forming methods in terms of organizing way for materials.
Forming materials are usually thin sheets like papers and polymer films.
This technics usually uses filamentous thermoplastic materials such as ABS, wax and nylon.
[2] C.Hull, M.Feygin, Y.Baron et al: Rapid Prototyping Journal, Vol.1(1995), pp.11-19
Online since: May 2014
Authors: Antonio Contreras-Cuevas, Ricardo Galván-Martínez, J. Alamilla-López, O. Vega-Becerra
Contreras, Failure analysis and mechanical performance of an oil pipeline, Materials & Design 50 (2013) 766-773
Bhadeshia, Residual stress Part 1 – Measurement techniques, Materials Science and Technology 17 (2001) 355-365
Contreras, Effect of multiple repairs in girth welds of pipelines on the mechanical properties, Materials Characterization 59 (2008) 1498-1507
Chen, Stress corrosion cracking of X80 pipeline steel in simulated alkaline soil solution, Materials and Design 30 (2009) 1712-1717
Ke, Review of stress corrosion cracking of pipeline steels in low and high pH solutions, Journal of Materials Science 38 (2003) 127-132
Bhadeshia, Residual stress Part 1 – Measurement techniques, Materials Science and Technology 17 (2001) 355-365
Contreras, Effect of multiple repairs in girth welds of pipelines on the mechanical properties, Materials Characterization 59 (2008) 1498-1507
Chen, Stress corrosion cracking of X80 pipeline steel in simulated alkaline soil solution, Materials and Design 30 (2009) 1712-1717
Ke, Review of stress corrosion cracking of pipeline steels in low and high pH solutions, Journal of Materials Science 38 (2003) 127-132
Online since: March 2011
Authors: Cai Xu Yue, Zhong Yang Zhao, W.T. Li, Y. Wang, K.Q. Li
Workpiece Material Constitutive Model.
Tan: Mechanical Science and Technology for Aerospace Engineering, vol. 29(2010) No.1, pp.17-18.
Li: Journal of Basic Science and Engineering, vol.18 (2010) No.3, pp.493-500.
Dong: Journal of Zhejiang University (Engineering Science), vol. 43(2009) No.3, pp.570-577.
Yang: Journal of Beijing Institute of Technology, vol. 16(1996) No.3, pp.264-265.
Tan: Mechanical Science and Technology for Aerospace Engineering, vol. 29(2010) No.1, pp.17-18.
Li: Journal of Basic Science and Engineering, vol.18 (2010) No.3, pp.493-500.
Dong: Journal of Zhejiang University (Engineering Science), vol. 43(2009) No.3, pp.570-577.
Yang: Journal of Beijing Institute of Technology, vol. 16(1996) No.3, pp.264-265.
Interface and Damping Capacity of Mg/Al Multilayered Composite Produced by Accumulative Roll Bonding
Online since: March 2016
Authors: Yun Xue Jin, Jing Zhang, Hong Mei Chen, Zhong Ming Liu, Wei Peng Guo
Preparation of microstructured and nanostructured magnetic materials by mechanical deformation, Journal of Magnetism and Magnetic Materials. 242(2002) 581-584
[14] Chen IW, W inn E J, Menon M, Application of deformation instability to microstructural control in multilayer ceramic composites, Materials Science and Engineering A. 317(2001) 226-235
[16] Zhang R G, Acoff V L, Processing sheet materials by accumulative roll bonding and reaction annealing from Ti/Al/Nb elemental foils, Materials Science and Engineering A. 463(2007) 67-73
[17] J.Zhang, Perez R J, Lavernia E J, Documentation of damping capacity of metallic, ceramic and metal-matrix composite materials, Journal materials science. 28(1993) 2395-2404
Materials Science and Engineering A, 609(2014) 7-15
[14] Chen IW, W inn E J, Menon M, Application of deformation instability to microstructural control in multilayer ceramic composites, Materials Science and Engineering A. 317(2001) 226-235
[16] Zhang R G, Acoff V L, Processing sheet materials by accumulative roll bonding and reaction annealing from Ti/Al/Nb elemental foils, Materials Science and Engineering A. 463(2007) 67-73
[17] J.Zhang, Perez R J, Lavernia E J, Documentation of damping capacity of metallic, ceramic and metal-matrix composite materials, Journal materials science. 28(1993) 2395-2404
Materials Science and Engineering A, 609(2014) 7-15
Online since: September 2013
Authors: Wichian Siriprom, Jakrapong Kaewkhao, Yotsakit Ruangtaweep, Nattapon Srisittipokakun, Sirisit Sukphirom, Kanyakorn Teanchai, Onanong Chamlek
Effects of Ni2+ ions on Soda Lime Silicate Glasses
Wichian Siriprom1,a,*, Kanyakorn Teanchai2,a, Onanong Chaemlek3,b, Sirisit Sukphirom3,b, Yotsakit Ruangtaweep4,c, Nattapon Srisittipokakun4,c
and Jakrapong Kaewkhao4,c
1Faculty of Science at Si Racha, Kasetsart University, Si Racha campus, Chonburi 20230, Thailand 2Material Science and Applied Physics Research Unit, Faculty of Science at Si Racha, Kasetsart University, Si Racha campus, Chonburi 20230, Thailand
3Department of Physics, 1Faculty of Science, Silpakorn University, Nakhon Pathom 73000, Thailand
4Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University, Nakhon Pathom 73000, Thailand
aw.siriprom@hotmail.com, bch_onanong@hotmail.com, cmink110@hotmail.com
Keywords: Ni2+; Glasses; Soda lime silicate; Optical spectra
Abstract.
Nickel oxide (NiO) is used extensively in many areas, such as catalysis, battery electrodes, electrochromic film, gas sensors and magnetic materials.
Acknowledgements The authors wish to thank Plasma for Surface Sciences Laboratory, Thailand Center of Excellence in Physics (ThEP), PERDO, CHE and the Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University to some analytical equipment.
Gupta, Prem Chand, Effect of nickel ions on electron paramagnetic resonance, DC conductivity and thermal behavior in vanadyl doped NiO·Li2O·B2O3 glasses, Materials Chemistry and Physics. 72 (2001) 366–373
Son, A facile synthesis method of hierarchically porous NiO nanosheets, Materials Letters. 69 (2012) 69–71
Nickel oxide (NiO) is used extensively in many areas, such as catalysis, battery electrodes, electrochromic film, gas sensors and magnetic materials.
Acknowledgements The authors wish to thank Plasma for Surface Sciences Laboratory, Thailand Center of Excellence in Physics (ThEP), PERDO, CHE and the Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University to some analytical equipment.
Gupta, Prem Chand, Effect of nickel ions on electron paramagnetic resonance, DC conductivity and thermal behavior in vanadyl doped NiO·Li2O·B2O3 glasses, Materials Chemistry and Physics. 72 (2001) 366–373
Son, A facile synthesis method of hierarchically porous NiO nanosheets, Materials Letters. 69 (2012) 69–71
Online since: December 2011
Authors: Claudiu Bisu, Miron Zapciu, Alain Gerard, Olivier Cahuc
Independentei, sect.6, 060042 Bucharest.
2University Bordeaux 1, -I2M- Material, Processes, Interactions-CNRS, UMR 5295,
351 cours de la Liberation, 33405 Talence, France.
Adapting envelope analysis to characterize the milling tool materials is an important contribution to the qualitative and quantitative characterization of milling capacity and a step by modeling the three-dimensional cutting process.
Figure 2: Experimental device. 4 Measurement and analysis To increase the forces and to obtain a better response for the monitoring the test was performed on steel materials workpiece E24-2, the tool milling cutter were used here is 490-025C5-08M, with 25 mm diameter and 3 teeth.
Journal of Sound Vibration, 270, (4), 2004, pp. 61-73
Girardin, “Etude de l’usinage de matériaux performants et surveillance de l’usinage“, Thesis Institut National de Sciences Appliquées de Lyon, 2010
Adapting envelope analysis to characterize the milling tool materials is an important contribution to the qualitative and quantitative characterization of milling capacity and a step by modeling the three-dimensional cutting process.
Figure 2: Experimental device. 4 Measurement and analysis To increase the forces and to obtain a better response for the monitoring the test was performed on steel materials workpiece E24-2, the tool milling cutter were used here is 490-025C5-08M, with 25 mm diameter and 3 teeth.
Journal of Sound Vibration, 270, (4), 2004, pp. 61-73
Girardin, “Etude de l’usinage de matériaux performants et surveillance de l’usinage“, Thesis Institut National de Sciences Appliquées de Lyon, 2010
Online since: December 2011
Authors: Xi Ming Wang, Xue Qi Li, Jian Fang Yu
Materials and Equipment
Pinus sylvestris, air-dried density was 0.51 g/cm3, moisture content was 6%, made available by Hohhot Yunchou wood Ltd.
Because of different materials and formative conditions, early and late wood must have different physical and mechanical properties.
References [1] Dryamada: Journal of Wood Science Vol. 17(1971), p.37-43 [2] Wang Jieying, Zhao Guangjie: Journal of Beijing Forestry University Vol. 24(2002), p.52-58 [3] Fushitani M: The 15th Conference on Japan Wood Science Research Institute.
Lindberg: Journal of Material Science Vol. 36(2001), p.3777-3783 [8] Jiang Jiali: Chinese Academy of Forestry Vol.
Thesis (2006) [11] Cheng Wan-li and LIU Yi-xing: Journal of Beijing Forestry University Vol. 29(2007), p.84-89
Because of different materials and formative conditions, early and late wood must have different physical and mechanical properties.
References [1] Dryamada: Journal of Wood Science Vol. 17(1971), p.37-43 [2] Wang Jieying, Zhao Guangjie: Journal of Beijing Forestry University Vol. 24(2002), p.52-58 [3] Fushitani M: The 15th Conference on Japan Wood Science Research Institute.
Lindberg: Journal of Material Science Vol. 36(2001), p.3777-3783 [8] Jiang Jiali: Chinese Academy of Forestry Vol.
Thesis (2006) [11] Cheng Wan-li and LIU Yi-xing: Journal of Beijing Forestry University Vol. 29(2007), p.84-89
Online since: July 2020
Authors: Vu Ngoc Pi, Luu Anh Tung, Tran Thi Hong, Nguyen Manh Cuong, Le Hong Ky, Nguyen Thanh Tu, Nguyen Van Cuong, Tran Thanh Hoang
Materials Science-Poland, 2008. 26(3): p. 547-554
Journal of materials processing technology, 2005. 164: p. 889-896
Journal of Materials Processing Technology, 2003. 138(1-3): p. 475-478
Journal of Materials Processing Technology, 2007. 184(1-3): p. 27-31
Journal of Materials Processing Technology, 2004. 149(1-3): p. 284-288
Journal of materials processing technology, 2005. 164: p. 889-896
Journal of Materials Processing Technology, 2003. 138(1-3): p. 475-478
Journal of Materials Processing Technology, 2007. 184(1-3): p. 27-31
Journal of Materials Processing Technology, 2004. 149(1-3): p. 284-288
Online since: August 2016
Authors: E.S.L. Vasconcelos, Edkarlla Sousa Dantas de Oliveira, M.A.G.A. Lima, M. Montoya, Severino Leopoldino Urtiga Filho, Cezar Henrique Gonzalez
Filho1,f.
1Federal University of Pernambuco – Laboratory of composite materials.
Materials and methods Cultivation of SRB.
Welding Journal, 3. pp. 71-5, 83-5
Taylor et al: Jornal of Materials Science: Materials in Medicine Vol. 9 (1998), p. 17
Thesis of Master of applied science.
Materials and methods Cultivation of SRB.
Welding Journal, 3. pp. 71-5, 83-5
Taylor et al: Jornal of Materials Science: Materials in Medicine Vol. 9 (1998), p. 17
Thesis of Master of applied science.