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Online since: May 2011
Authors: Shan Shan Cheng, Xi Hong Yang, Wan Cui Xie, Chao Hua Zhang
Materials and methods
Chemical.
Rengaraj, Kyeong-Ho Yeon, Seung-Hyeon Moon: Journal of Hazardous Materials Vol. 87(2001), p. 273–287 [11] K.H.
Chu: Journal of Hazardous Materials Vol. 90(2002), p. 77–95 [12] Sandhya Babel, Tonni Agustiono Kurniawan: Journal of Hazardous Materials Vol. 97(2003), p. 219–243 [13] E.
Muniz: Journal of Hazardous Materials Vol. 147(2007), p. 139–147 [19] A.V.
Shahi: Journal of Hazardous Materials Vol. 172(2009), p. 1041-1048
Rengaraj, Kyeong-Ho Yeon, Seung-Hyeon Moon: Journal of Hazardous Materials Vol. 87(2001), p. 273–287 [11] K.H.
Chu: Journal of Hazardous Materials Vol. 90(2002), p. 77–95 [12] Sandhya Babel, Tonni Agustiono Kurniawan: Journal of Hazardous Materials Vol. 97(2003), p. 219–243 [13] E.
Muniz: Journal of Hazardous Materials Vol. 147(2007), p. 139–147 [19] A.V.
Shahi: Journal of Hazardous Materials Vol. 172(2009), p. 1041-1048
Online since: January 2012
Authors: Chan Li, Xiao Chao Cui, Wen Bin Zhao, Xue Xia Zhang
Introduction
Fiber composites are an emerging class of structural materials widely used in many critical applications such as national defense and space technology.
Because low-density, high specific strength, high specific stiffness and the characteristics of to design properties by controlling bonding and materials processing technology of the fiber and matrix, the composite materials in engineering is very promising.
Actually, the distribution of material within the micro-structure is variety, and the periodic micro-structure is the extreme of the material from completely disordered to a strict ordered of the internal structure, also the natural composite material contains many period or similar period of the micro-structure, as the development of material manufacturing technology, a number of reinforcement periodic-accurate distribution of new materials will emerge.
Hu Haichang in Chinese) Science Press, Beijing (1963) [10] Weiyang Yang, Jinlin Li, Xuexia Zhang, in: Method of a Complex Variable for Fracture in Composite Materials.
Advanced Materials Research 2011, 243-249: 5989-5993 [12] Wenshuai Wang, Xing Li.
Because low-density, high specific strength, high specific stiffness and the characteristics of to design properties by controlling bonding and materials processing technology of the fiber and matrix, the composite materials in engineering is very promising.
Actually, the distribution of material within the micro-structure is variety, and the periodic micro-structure is the extreme of the material from completely disordered to a strict ordered of the internal structure, also the natural composite material contains many period or similar period of the micro-structure, as the development of material manufacturing technology, a number of reinforcement periodic-accurate distribution of new materials will emerge.
Hu Haichang in Chinese) Science Press, Beijing (1963) [10] Weiyang Yang, Jinlin Li, Xuexia Zhang, in: Method of a Complex Variable for Fracture in Composite Materials.
Advanced Materials Research 2011, 243-249: 5989-5993 [12] Wenshuai Wang, Xing Li.
Online since: November 2011
Authors: Bei Zhi Li, Zhen Xin Zhou, Qiang Zhang, Yi Chu Yuan
Zheng: Machining Technology of Hard to Cut Materials (National Defense Industry Press, Beijing 2008)
].
Holmquist: An Improved Computational Constitutive Model for Brittle Materials: High Pressure Science and Technology, New York, AIP Press (1993) ].Concerning the behavior of the work piece material during machining, a JH-2 material model was used to simulate the fracture behavior of brittle materials under high velocity penetration.
Jiang: Study on Characterization of Damage Evolution and Failure Law of Engineering Materials: Dissertation, University of Science and Technology of China (2010) ].
Johnson: Characterization and Evaluation of Silicon Carbide for High-Velocity Impact: Journal of Applied Physics Vol. 97 (2005) No.9, p. 1-12. ] and shown in Table 3.
Chips of brittle materials under large amounts of observations show that the removal way of ceramics is mainly brittle fracture.
Holmquist: An Improved Computational Constitutive Model for Brittle Materials: High Pressure Science and Technology, New York, AIP Press (1993) ].Concerning the behavior of the work piece material during machining, a JH-2 material model was used to simulate the fracture behavior of brittle materials under high velocity penetration.
Jiang: Study on Characterization of Damage Evolution and Failure Law of Engineering Materials: Dissertation, University of Science and Technology of China (2010) ].
Johnson: Characterization and Evaluation of Silicon Carbide for High-Velocity Impact: Journal of Applied Physics Vol. 97 (2005) No.9, p. 1-12. ] and shown in Table 3.
Chips of brittle materials under large amounts of observations show that the removal way of ceramics is mainly brittle fracture.
Online since: September 2020
Authors: Nik Raihan Nik Yusoff, Nurul Syazana Abdul Halim, Noor Syuhadah Subki, Syafiqa Jauna Mohamed Jefry, Yin Teng Lai
Materials and Methods
Preparation of Activated Carbon.
International Journal of Engineering, Science and Technology.
Journal of Chemistry.
Journal of Tropical Resources and Sustainable Science.
Journal of Hazardous Materials.
International Journal of Engineering, Science and Technology.
Journal of Chemistry.
Journal of Tropical Resources and Sustainable Science.
Journal of Hazardous Materials.
Online since: June 2013
Authors: Hui Lin Wang, Qiao Ying Li, Ping Kuan Zhang
Journal of Tool Engineering,Vol.44 No.7 (2010) 40-42
[2] Kim J, Dornfeld DA.
Development of an analytical model for drilling burr formation in ductile materials.
Transactions of the ASME, Journal of Engineering Materials and Technology 124(2002) 192-198 [3] Chamanfar A, Mahumudi R.
Material Science and Engineering A397(2005) 153-156
Journal of Mechanical Engineering, 1(1999) 42-43
Development of an analytical model for drilling burr formation in ductile materials.
Transactions of the ASME, Journal of Engineering Materials and Technology 124(2002) 192-198 [3] Chamanfar A, Mahumudi R.
Material Science and Engineering A397(2005) 153-156
Journal of Mechanical Engineering, 1(1999) 42-43
Online since: May 2013
Authors: Jian Feng Wu, Bin Zheng Fang, Xiao Hong Xu, Peng Li, Xin Bin Lao, Shu Qing Zheng
Such materials have the advantages of wide resources of raw materials and good resistances against heat and corrosion, however also have disadvantages including demand of high sintering temperature, poor thermal shock resistance, short service life, and high cost of manufacture[4-7].
Experimental Materials.
The major raw materials, α-Al2O3, β-SiC, and PSZ (Y2O35.2wt%), were provided by Shandong Aluminum Corporation, Henan Dongda High-Temperature Energy-Saving Materials Co., Ltd. and Yixing 3-science Ultra-fine Powder Co., Ltd., respectively.
Nasrassah: International Journal of Thermal Sciences, Vol.47 (2008) No.7, p.825 [12] D.
Ge: Journal of Yangzhou Univensity Nataral Science Edition (In Chinese), Vol.5 (2002) No.1, p.40 [16] W.
Experimental Materials.
The major raw materials, α-Al2O3, β-SiC, and PSZ (Y2O35.2wt%), were provided by Shandong Aluminum Corporation, Henan Dongda High-Temperature Energy-Saving Materials Co., Ltd. and Yixing 3-science Ultra-fine Powder Co., Ltd., respectively.
Nasrassah: International Journal of Thermal Sciences, Vol.47 (2008) No.7, p.825 [12] D.
Ge: Journal of Yangzhou Univensity Nataral Science Edition (In Chinese), Vol.5 (2002) No.1, p.40 [16] W.
Online since: June 2010
Authors: Dao Chun Hu, Lei Wang
References
[1] Conor M C, John M: Journal of Materials Processing Technology.
Vol.20 (2003), p.725 [3] Nikolai B, Sergei S: Journal of Materials ProcessingTechnology.
Vol.113 (2001): p.34-39 [4] Groenbaek, Jens, Birker: Journal of Materials ProcessingTechnology.Vol.98 (2000): p.155-161 [5] Yaqi H, Kim T: Journal of Materials ProcessingTechnology.
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Vol.20 (2003), p.725 [3] Nikolai B, Sergei S: Journal of Materials ProcessingTechnology.
Vol.113 (2001): p.34-39 [4] Groenbaek, Jens, Birker: Journal of Materials ProcessingTechnology.Vol.98 (2000): p.155-161 [5] Yaqi H, Kim T: Journal of Materials ProcessingTechnology.
Vol.172 (2006): p.264-270 [7] Ssemakula H, Stahlberg U, Oberg K: Journal of Materials ProcessingTechnology.
Vol.178 (2006): p.119-127 [8] Rao A V, Krishnan N R, Kumar R K: Journal of Materials ProcessingTechnology.
Online since: October 2020
Authors: Humberto Gracher Riella, Glaucea W. Duarte, Cintia Soares, Alexandre Martins Neto, Caroline Anzolin, Lucinao Luiz Silva, Márcio Antônio Fiori, Josiane Maria Muneron de Mello
Among these materials, we can mention the ones that have structure in nanometric scale, that are known to exhibit different physical and chemical properties when compared to the volumetric materials [2].
Conclusion Nanotechnology has opened opportunities for the development of new materials, with different properties, functionalities, characteristics and often superior to existing materials.
Srivastava: Materials Chemistry and Physics Vol. 148 (2014), p. 1064
Yang: Materials Chemistry and Physics Vol. 166 (2015), p. 176
Journal of Alloys Compounds, 482 (2009) 548–551
Conclusion Nanotechnology has opened opportunities for the development of new materials, with different properties, functionalities, characteristics and often superior to existing materials.
Srivastava: Materials Chemistry and Physics Vol. 148 (2014), p. 1064
Yang: Materials Chemistry and Physics Vol. 166 (2015), p. 176
Journal of Alloys Compounds, 482 (2009) 548–551
Online since: May 2020
Authors: Martin Sahul, Jozef Bárta, František Jurina, Milan Marônek, Ján Urminský, Matej Pašák
Bottu 25, 917 24 Trnava, Slovakia,
2Slovak University of Technology in Bratislava, Faculty of Materials Science and Technology in Trnava, Institute of Materials Science, J.
R., Effect of beam oscillation on electron beam welding of copper with AISI-304 stainless steel, Journal of Materials Processing Technology 233, 2016, pp. 174-185
Materials Science and Engineering A 608, 2014, pp. 199-206
Materials Science and Engineering A 677, 2016, pp. 182-192
Journal of Materials Processing Technology, 2013, pp. 1623-1634
R., Effect of beam oscillation on electron beam welding of copper with AISI-304 stainless steel, Journal of Materials Processing Technology 233, 2016, pp. 174-185
Materials Science and Engineering A 608, 2014, pp. 199-206
Materials Science and Engineering A 677, 2016, pp. 182-192
Journal of Materials Processing Technology, 2013, pp. 1623-1634
Online since: September 2013
Authors: Chun Hua Gao, Xin You Huang, Mu Sheng Huang
(Ba,Sr)TiO3 based ceramics is the main medium materials of high voltage ceramic capacitor.
Wan: Electronic Components and Materials Vol. 13 (1994), p. 7 [2] J.L.
Zhang, Z.Y.Mao, Y.D.Chen: Electronic Components and Materials Vol. 21 (2002), p. 1 [3] D.
Wang, Y.T.Ma: Journal of Guangxi University(Natural Science Edition) Vol. 36(2011), p. 450 [5] X.Y.
Chen: Journal of the Chinese Ceramic Society Vol. 33 (2005), p. 402 [7] C.Zhao, X.Y.Huang, C.H.Gao: Bulletin of the Chinese Ceramic Society Vol. 25 (2006), p. 140 [8] H.L.Zhang, H.Liang, T.X.Xu,Y.I.Wu: Piezoelectrics and Acoustooptics Vol. 25 (2003), p. 508 [9] Y.Y.Gu, Q.T.Zhang: Journal of Yancheng Institute of Technology(Natural Science) Vol. 16(2003), p. 43 [10] Y.Z.Ou, X.J.Wang,X.Y.Li: Journal of Guizhou University(Natural Sciences) Vol. 28 (2011), p. 54 [11] Q.T.Zhang, X.P.Zhang, B.Li: Electronic Components and Materials Vol. 24 (2005), p. 38 [12] X.P.Zhang, Q.T.Zhang, B.Li: Chinese Journal of Rare Metals Vol. 29 (2005), p. 647
Wan: Electronic Components and Materials Vol. 13 (1994), p. 7 [2] J.L.
Zhang, Z.Y.Mao, Y.D.Chen: Electronic Components and Materials Vol. 21 (2002), p. 1 [3] D.
Wang, Y.T.Ma: Journal of Guangxi University(Natural Science Edition) Vol. 36(2011), p. 450 [5] X.Y.
Chen: Journal of the Chinese Ceramic Society Vol. 33 (2005), p. 402 [7] C.Zhao, X.Y.Huang, C.H.Gao: Bulletin of the Chinese Ceramic Society Vol. 25 (2006), p. 140 [8] H.L.Zhang, H.Liang, T.X.Xu,Y.I.Wu: Piezoelectrics and Acoustooptics Vol. 25 (2003), p. 508 [9] Y.Y.Gu, Q.T.Zhang: Journal of Yancheng Institute of Technology(Natural Science) Vol. 16(2003), p. 43 [10] Y.Z.Ou, X.J.Wang,X.Y.Li: Journal of Guizhou University(Natural Sciences) Vol. 28 (2011), p. 54 [11] Q.T.Zhang, X.P.Zhang, B.Li: Electronic Components and Materials Vol. 24 (2005), p. 38 [12] X.P.Zhang, Q.T.Zhang, B.Li: Chinese Journal of Rare Metals Vol. 29 (2005), p. 647