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Online since: January 2014
Authors: Hui Ru Wu, Wan Li Fu, Shi Jun Jia, Jian Ping Zhou
Experimental Section
Materials.
Since no broaden peak was found with all these samples, it could be inferred that no new loss mechanism exists in the modified materials.
Durmaz: Journal of Polymer Science Part A-Polymer Chemistry Vol. 48(2010), p.2862 [3] Mohan, Pragyan: Polymer-Plastics Technology and Engineering Vol. 52(2013), p. 107 [4] R.
Qiu: Journal of Applied Polymer Science Vol. 112(2009), p.3322 [8] W.C.
Bates: Journal of Polymer Science Part B-Polymer Physics Vol. 41(2003), p.1994 [10] J.
Since no broaden peak was found with all these samples, it could be inferred that no new loss mechanism exists in the modified materials.
Durmaz: Journal of Polymer Science Part A-Polymer Chemistry Vol. 48(2010), p.2862 [3] Mohan, Pragyan: Polymer-Plastics Technology and Engineering Vol. 52(2013), p. 107 [4] R.
Qiu: Journal of Applied Polymer Science Vol. 112(2009), p.3322 [8] W.C.
Bates: Journal of Polymer Science Part B-Polymer Physics Vol. 41(2003), p.1994 [10] J.
Online since: February 2022
Authors: Hong Zhou, Cheng Peng
Department of Innovation Engineering, University of Salento, Via per Monteroni, 73100 Lecce, Italy
patrizia.bocchetta@unisalento.it
Materials science
Liang-Yu Chen
Prof.
School of Materials Science and Engineering, Jiangsu University of Science and Technology, Mengxi Road 2#, Zhenjiang 212003, China lychen@just.edu.cn Materials science Juliana Dias Corpa Tardelli Prof.
Organization of the Text Materials.Section Headings.
Materials Science and Engineering: R: Reports 80(2014) 1-36
Clem: submitted to Journal of Materials Research (2003) [5] P.G.
School of Materials Science and Engineering, Jiangsu University of Science and Technology, Mengxi Road 2#, Zhenjiang 212003, China lychen@just.edu.cn Materials science Juliana Dias Corpa Tardelli Prof.
Organization of the Text Materials.Section Headings.
Materials Science and Engineering: R: Reports 80(2014) 1-36
Clem: submitted to Journal of Materials Research (2003) [5] P.G.
Online since: August 2015
Authors: Ekaterina Yakovleva, Ekaterina Mironova, Larisa Stepanova
The creep crack problem in damaged materials under mixed mode loading under creep-damage coupled formulation is considered.
Nowadays the analysis of mixed-mode loading of cracked structures in nonlinear materials is of particular interest.
Integration of Mechanics, Materials Science and Chemistry, Cambridge University Press, Cambridge, 2014
International Journal of Fatigue. 62 (2014) 93 – 103
Sadowski, Failure and Damage Analyses of Advanced Materials, Springer, Berlin, 2015.
Nowadays the analysis of mixed-mode loading of cracked structures in nonlinear materials is of particular interest.
Integration of Mechanics, Materials Science and Chemistry, Cambridge University Press, Cambridge, 2014
International Journal of Fatigue. 62 (2014) 93 – 103
Sadowski, Failure and Damage Analyses of Advanced Materials, Springer, Berlin, 2015.
Online since: August 2010
Authors: Jin Cheng, Yi Su, Xiao Ping Zou, Xiang Min Meng, Yuan Yang, Gong Qing Teng, Gang Qiang Yang, Xue Ming Lü, Cui Liu Wei, Zhe Sun, Hong Ying Feng
Among these methods fabricated these materials, thermal evaporation [7], chemical vapor
deposition [8], and vapor-liquid-solid [9] are the three major vapor methods.
Wang: Science Vol. 291 (2001) p. 1947 [7] Z.
Magomedov: Materials Science in Semiconductor Processing Vol. 6 (2003), p. 535 [9] T.J.
Guo: Journal of Crystal Growth Vol. 299 (2007), p. 184 [12] B.M.
Magomedov: Materials Science in Semiconductor Processing Vol. 6 (2003), p. 535 [13] S.
Wang: Science Vol. 291 (2001) p. 1947 [7] Z.
Magomedov: Materials Science in Semiconductor Processing Vol. 6 (2003), p. 535 [9] T.J.
Guo: Journal of Crystal Growth Vol. 299 (2007), p. 184 [12] B.M.
Magomedov: Materials Science in Semiconductor Processing Vol. 6 (2003), p. 535 [13] S.
Online since: June 2015
Authors: Yu Ming Zhang, Ji Chao Hu, Ren Xu Jia, Yue Hu Wang, Bin Xin
Materials Science Forum 600–603 (2009)119
[7] M.
Pedersen, Materials Research Bulletin 46 (2011) 1272-1275 [13] T.
Ohashi, Materials Science Forum 717–720 (2012) 101–104 [14] T.
Fukuda, H.Okumura, Materials Science Forum 645–648 (2010) 763–765
Sudarshan, Materials Science Forum 600–603 (2009) 139–142 [16] V.
Pedersen, Materials Research Bulletin 46 (2011) 1272-1275 [13] T.
Ohashi, Materials Science Forum 717–720 (2012) 101–104 [14] T.
Fukuda, H.Okumura, Materials Science Forum 645–648 (2010) 763–765
Sudarshan, Materials Science Forum 600–603 (2009) 139–142 [16] V.
Online since: September 2007
Authors: Cai Nian Jing, Zuo Cheng Wang, Fu Tao Han, Wen Ping Zhang
Wang: Journal of material science & technology Vol. 17 (2001), p. 143
[2] A.
Hodgson: Materials Science and Engineering A Vol. 367 (2004), p. 282 [3] A.
Kaspar: Materials Science Forum Vol. 426-432 (2003), p. 1349 [4] C.
Wilshire: Journal of Materials Processing Technology Vol. 122 (2002), p. 56 [5] M.
Jonas: Journal of Materials Processing Technology Vol. 117(2001), p. 293
Hodgson: Materials Science and Engineering A Vol. 367 (2004), p. 282 [3] A.
Kaspar: Materials Science Forum Vol. 426-432 (2003), p. 1349 [4] C.
Wilshire: Journal of Materials Processing Technology Vol. 122 (2002), p. 56 [5] M.
Jonas: Journal of Materials Processing Technology Vol. 117(2001), p. 293
Online since: March 2024
Authors: V.R. Muruganantham, M. Thirumalaimuthukumaran
This would improve process execution, improve communication regarding the flow of materials, and shorten cycle times.
After the turning operation is performed, with the help of material handling devices material is moved to the next workstation (i.e.,) the machining operation.
[3] K.Venkataraman, B.VijayaRamnath, V.Muthu Kumar, C.Elanchezhian, “Application of Value Stream Mapping for reduction of cycle time in a Machining process” 3rd International Conference on Materials Processing and Characterisation, Procedia Materials Science, vol. 6, pp. 1187 – 1196, 2014
Journal of Cleaner Production, vol.85, pp. 164-179, 2014
Manoj Kumar,Lead time reduction and process enhancement for a low volume product, Materials Today: Proceedings,Vol 62(4), 2022, pp.1722-1728.
After the turning operation is performed, with the help of material handling devices material is moved to the next workstation (i.e.,) the machining operation.
[3] K.Venkataraman, B.VijayaRamnath, V.Muthu Kumar, C.Elanchezhian, “Application of Value Stream Mapping for reduction of cycle time in a Machining process” 3rd International Conference on Materials Processing and Characterisation, Procedia Materials Science, vol. 6, pp. 1187 – 1196, 2014
Journal of Cleaner Production, vol.85, pp. 164-179, 2014
Manoj Kumar,Lead time reduction and process enhancement for a low volume product, Materials Today: Proceedings,Vol 62(4), 2022, pp.1722-1728.
Online since: June 2015
Authors: M.R. Sahar, S.F. Abd Rahman, Sib Krishna Ghoshal
Ghoshal1,c
1Advanced Optical Material Research Group, Department of Physics, Faculty of Science
Universiti Teknologi Malaysia, 81310 Skudai, Johor.
Results and Discussion Analytical reagent-grade chemicals of Li2CO3, TiO2, P2O5, NiO and MgO are used as starting materials.
Tyagi and G.P Kothiyal, Preparation and studies on surface modifications of calcium-silico-phosphate ferromagnetic glass ceramics in simulated body fluid, Journal of Material Science and Engineering C 29 (2009) 2226-2233
Solid State Science and Technology 14(1) (2006) 115-120
Journal of Non-Crystalline Solids 88 (1986) 11
Results and Discussion Analytical reagent-grade chemicals of Li2CO3, TiO2, P2O5, NiO and MgO are used as starting materials.
Tyagi and G.P Kothiyal, Preparation and studies on surface modifications of calcium-silico-phosphate ferromagnetic glass ceramics in simulated body fluid, Journal of Material Science and Engineering C 29 (2009) 2226-2233
Solid State Science and Technology 14(1) (2006) 115-120
Journal of Non-Crystalline Solids 88 (1986) 11
Online since: June 2010
Authors: Lei Jiang Yao, Jie Zheng, Xiang Zheng
The damage evolution, AE characteristics of 3-D C/SiC
composites were revealed by multi-parameter analysis, along with mechanical response and
fractography of the material.
Experimental Procedure Materials and Specimen Preparation.
Acknowledgement The authors gratefully acknowledge the financial support of the National Natural Science Foundation of China(Contract No. 10702054).
References [1] Zhang Litong, Cheng Laifei and Xu Yongdong: Aeronautical Manufacturing Technology Vol.1 (2003), P.24 [2] Chotard T J: Journal of Materials Science Letters Vol.21 (2002), P.1261 [3] M.
Van Der Biest: Composites Vol. 28A (1997), P.473 [4] V.Kostopoulos, Y.Z.Pappas and Y.P.Markopoulos: Journal of European Ceramic Society Vol.19 (1999), P.207 [5] Cheng Qiyou, Tong Xiaoyan, Chen Liuding, Yao Leijiang and Li Bin: Chinese Journal of Scientific Instrument Vol.30 (2009), P.768 [6] Pan Wenge, Jiao Guiqiong, Wang Bo and Guan Guoyang: Journal of Inorganic Materials Vol.19(2004), P.871
Experimental Procedure Materials and Specimen Preparation.
Acknowledgement The authors gratefully acknowledge the financial support of the National Natural Science Foundation of China(Contract No. 10702054).
References [1] Zhang Litong, Cheng Laifei and Xu Yongdong: Aeronautical Manufacturing Technology Vol.1 (2003), P.24 [2] Chotard T J: Journal of Materials Science Letters Vol.21 (2002), P.1261 [3] M.
Van Der Biest: Composites Vol. 28A (1997), P.473 [4] V.Kostopoulos, Y.Z.Pappas and Y.P.Markopoulos: Journal of European Ceramic Society Vol.19 (1999), P.207 [5] Cheng Qiyou, Tong Xiaoyan, Chen Liuding, Yao Leijiang and Li Bin: Chinese Journal of Scientific Instrument Vol.30 (2009), P.768 [6] Pan Wenge, Jiao Guiqiong, Wang Bo and Guan Guoyang: Journal of Inorganic Materials Vol.19(2004), P.871
Online since: July 2016
Authors: Zheng Yi Jiang, Xia Wei Cheng, Lei Zhu Jiang, Liang Hao, Jing Wei Zhao, Dian Yao Gong, Dong Bin Wei, Su Zhen Luo
Cortie, Ferritic stainless steels, in: Encyclopedia of Materials: Science and Technology, (2001) 3037-3039
Lee, Analysis and prevention of sticking occurring during hot rolling of ferritic stainless steel, Materials Science and Engineering: A. 507 (2009) 66-73
Wei, Characterisation of thin oxide scale and its surface roughness in hot metal rolling, Materials Science and Engineering: A. 435–436 (2006) 434-438
Jiang, Modelling of oxide scale surface roughness in hot metal forming, Journal of Materials Processing Technology. 177 (2006) 126-129
Beynon, Oxide scale behaviour on aluminium and steel under hot working conditions, Journal of Materials Processing Technology. 177 (2006) 36-40
Lee, Analysis and prevention of sticking occurring during hot rolling of ferritic stainless steel, Materials Science and Engineering: A. 507 (2009) 66-73
Wei, Characterisation of thin oxide scale and its surface roughness in hot metal rolling, Materials Science and Engineering: A. 435–436 (2006) 434-438
Jiang, Modelling of oxide scale surface roughness in hot metal forming, Journal of Materials Processing Technology. 177 (2006) 126-129
Beynon, Oxide scale behaviour on aluminium and steel under hot working conditions, Journal of Materials Processing Technology. 177 (2006) 36-40