Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: March 2015
Authors: Hussein Mohamed Hussein, Shailendra Kumar, Sachin Kashid
Ruffini, Effect of the training set size on springback control by neural network in an air bending process, Journal of Materials Processing Technology.80–81 (1998) 493–500
Singh, A short note on an intelligent system for selection of materials for progressive die components, Journal of Materials Processing Technology. 182 (2007)456-461
Hambli, Optimization of Blanking Processes Using Neural Network Simulation, The Arabian Journal for Science and Engineering. 30 (2005)3-16
Qiu, Springback prediction for sheet metal forming based on GA-ANN technology, Journal of Materials Processing Technology.187–188 (2007)227–231
Gupta, Experimental and numerical investigation of formability for austenitic stainless steel 316 at elevated temperatures, Journal of Materials Research and Technology. 3(1) (2014)17-24
Singh, A short note on an intelligent system for selection of materials for progressive die components, Journal of Materials Processing Technology. 182 (2007)456-461
Hambli, Optimization of Blanking Processes Using Neural Network Simulation, The Arabian Journal for Science and Engineering. 30 (2005)3-16
Qiu, Springback prediction for sheet metal forming based on GA-ANN technology, Journal of Materials Processing Technology.187–188 (2007)227–231
Gupta, Experimental and numerical investigation of formability for austenitic stainless steel 316 at elevated temperatures, Journal of Materials Research and Technology. 3(1) (2014)17-24
Effect of Metal Ions (Cu2+/Fe2+) on the Antioxidant Activity of L-Ascorbic Acid-Glycine Model System
Online since: November 2011
Authors: Cheng Yi Lei, Da Zhai Zhou, Rong Zhao, Qi Hui Deng, Ai Nong Yu, Xiao Hong Yang
Materials and methods.
Materials and methods Experimental instruments. pH meter (PHSJ-3F type pH meter, Shanghai Precision & Scientific Instrument Co., Ltd), UV spectrophotometer (UV-2501, Shimadzu Corporation), pressure reaction flask (P170005, Beijing Synthware Glass, Inc.), UF Cup (MSC300, Shanghai Mosu Science Equipment Co., Ltd) Laboratory reagents.
Vol. 200(1995),P .52 ~ 58 [3] M.Alaiz, F.J.Hidalgo, R.Zamora:Journal of Agricultural and Food Chemistry.
Vol. 47(1999), P.748 ~ 752 [4] D.Mastrocola.., & M.Munari: Journal of Agricultural and Food Chemistry.
Y.Chen:Journal of Agricultural and Food Chemistry.
Materials and methods Experimental instruments. pH meter (PHSJ-3F type pH meter, Shanghai Precision & Scientific Instrument Co., Ltd), UV spectrophotometer (UV-2501, Shimadzu Corporation), pressure reaction flask (P170005, Beijing Synthware Glass, Inc.), UF Cup (MSC300, Shanghai Mosu Science Equipment Co., Ltd) Laboratory reagents.
Vol. 200(1995),P .52 ~ 58 [3] M.Alaiz, F.J.Hidalgo, R.Zamora:Journal of Agricultural and Food Chemistry.
Vol. 47(1999), P.748 ~ 752 [4] D.Mastrocola.., & M.Munari: Journal of Agricultural and Food Chemistry.
Y.Chen:Journal of Agricultural and Food Chemistry.
Online since: April 2015
Authors: Xiao Li Xu, Lin Chen, Xue Wei Zhu
Due to the complexity of microstructures of the rock material and the diversity of factors, the understanding of its mechanism of fractures is still a major issue that the science of geology and mining facing of .
In recent years, many experts at home and abroad applied the fractal theory to study morphology features of rock material fracture, and made great progress[3-10].
References [1] Y.S.Ni, Z.B.Kuang and Y.Q.Yang: Chinese Journal of Rock Mechanics and Engineering Vol. 11(1992), p. 295-303 [2] B.
Chinese Science Bulletin Vol. 40(1994), p. 621-623 [5] Z.J.Jiang: Mechanical Characteristics and Mesotesting Investigation of Heated Marble(HeHai University, NanJing 2007) [6] H.W.Wang, H.W.Zhou and H.P.Xie: Journal of Experimental Mechanics Vol. 23 (2008), p. 118-124 [7] F.G.Wang and C.X.Zhu: Ship Electronic Engineering Vol. 29 (2009), p. 144-146 [8] X.J.Shi, Z.R.Niu and H.M.Xu: Acta Geophysica Sinica Vol. 35(1992), p. 154-159 [9] S.M.Yi and W.Q.Zhao: Chinese Journal of Rock Mechanics and Engineering Vol. 18(1999), p. 520-523 [10] Y.JU, L.Sudak and H.P.Xie: International Journal of Solids and Strucures Vol. 44(2007), p. 4256-4271 [11] X.L.Xu: Research on the Mechanical Characteristics and Micromechanism of Granite under Temperature Loads(China University of Mining and Technology, XuZhou 2008) [12] Y.Chen and L.Chen: Fractal Geometry(Seismological Press, China 1998) [13] H.P.Xie: Introduction to fractal in rock mechanics(Science Press, China 1996) [14] H.P.Xie and Z.D.Chen: Chinese
Journal of Theoretical and Applied Mechanics Vol. 20(1988), p. 264-271 [15] R.D.Peng, H.P.Xie and Y.Ju: Journal of China University of Mining & Technology Vol. 33(2004), p. 19-24
In recent years, many experts at home and abroad applied the fractal theory to study morphology features of rock material fracture, and made great progress[3-10].
References [1] Y.S.Ni, Z.B.Kuang and Y.Q.Yang: Chinese Journal of Rock Mechanics and Engineering Vol. 11(1992), p. 295-303 [2] B.
Chinese Science Bulletin Vol. 40(1994), p. 621-623 [5] Z.J.Jiang: Mechanical Characteristics and Mesotesting Investigation of Heated Marble(HeHai University, NanJing 2007) [6] H.W.Wang, H.W.Zhou and H.P.Xie: Journal of Experimental Mechanics Vol. 23 (2008), p. 118-124 [7] F.G.Wang and C.X.Zhu: Ship Electronic Engineering Vol. 29 (2009), p. 144-146 [8] X.J.Shi, Z.R.Niu and H.M.Xu: Acta Geophysica Sinica Vol. 35(1992), p. 154-159 [9] S.M.Yi and W.Q.Zhao: Chinese Journal of Rock Mechanics and Engineering Vol. 18(1999), p. 520-523 [10] Y.JU, L.Sudak and H.P.Xie: International Journal of Solids and Strucures Vol. 44(2007), p. 4256-4271 [11] X.L.Xu: Research on the Mechanical Characteristics and Micromechanism of Granite under Temperature Loads(China University of Mining and Technology, XuZhou 2008) [12] Y.Chen and L.Chen: Fractal Geometry(Seismological Press, China 1998) [13] H.P.Xie: Introduction to fractal in rock mechanics(Science Press, China 1996) [14] H.P.Xie and Z.D.Chen: Chinese
Journal of Theoretical and Applied Mechanics Vol. 20(1988), p. 264-271 [15] R.D.Peng, H.P.Xie and Y.Ju: Journal of China University of Mining & Technology Vol. 33(2004), p. 19-24
Online since: August 2014
Authors: Bo Sun, Xiao Long Wang
We can obtain by the Hooke's law, in which F is the force, E is the elastic modulus of the material, A is the cross sectional area of the rod member [4].
Acknowledgment This work is supported by Development Program of Shaanxi Science and Technology Research under Grant No.2011K07-11, and Natural Science Basic Research Plan in Shaanxi Province of China (Program No. 2013JM7029).
The performance and application of surface developable Journal of Engineering Graphics 2:133-138(2002)
Journal of computer aided design and graphics (2001)
[6] J.McCartney,B.K.hinds,B.L.Seow,D.Gong.An energy based model for the flattening of woven fabrics.Journal of Materials Processing Technology(2000).
Acknowledgment This work is supported by Development Program of Shaanxi Science and Technology Research under Grant No.2011K07-11, and Natural Science Basic Research Plan in Shaanxi Province of China (Program No. 2013JM7029).
The performance and application of surface developable Journal of Engineering Graphics 2:133-138(2002)
Journal of computer aided design and graphics (2001)
[6] J.McCartney,B.K.hinds,B.L.Seow,D.Gong.An energy based model for the flattening of woven fabrics.Journal of Materials Processing Technology(2000).
Experimental Study on Effect of Ceiling on Upward Flame Spread over Poly(Methyl Methacrylate) Sheets
Online since: August 2016
Authors: Fei Peng, Li Zhong Yang, Xiao Dong Zhou
Experimental Study on Effect of Ceiling on Upward Flame Spread over Poly(methyl methacrylate) Sheets
Fei Penga, Lizhong Yang* b and Xiaodong Zhouc
State Key Laboratory of Fire Science, University of Science and Technology of China, Hefei,
Anhui 230027, China
apfei@mail.ustc.edu.cn, byanglz@ustc.edu.cn, cxdz@ustc.edu.cn
Keywords: heat release rate, upward flame spread, ceiling, mass loss rate.
Conclusions Clearly, the ceiling has a great influence upward flame spread of the material poly(methyl methacrylate) sheets, which has been observed experimentally in this study
[2] Weiguang An, Xinjie Huang and Qingsong Wang et al.: Journal of Thermoplastic Composite Materials. 2015, 28(1) 111–127 [3] M.J.
Hunta, Mark Wrighta and Usman Sorathiab: Fire Safety Journal 38 (2003) 771–796 [6] T.
Shields: Fire Safety Journal 31 (1998) 331—344 [7] Sandra L.
Conclusions Clearly, the ceiling has a great influence upward flame spread of the material poly(methyl methacrylate) sheets, which has been observed experimentally in this study
[2] Weiguang An, Xinjie Huang and Qingsong Wang et al.: Journal of Thermoplastic Composite Materials. 2015, 28(1) 111–127 [3] M.J.
Hunta, Mark Wrighta and Usman Sorathiab: Fire Safety Journal 38 (2003) 771–796 [6] T.
Shields: Fire Safety Journal 31 (1998) 331—344 [7] Sandra L.
Online since: March 2020
Authors: Mohammed Azzaz, Fadhéla Otmane, Zineb Hamlati, A. Maali, B. Rekioua
The development of radar absorbing materials has been reviewed in several papers and books [2, 3].
Progress in this area is related to the development of materials with improved properties or new materials.
Gagulin, Microwave Absorbing Materials, Inorganic Materials, vol. 37n02 (2001) p93 -98
Jha, Radar Absorbing Materials: from Theory to Design and Characterization, Kluwer Academic Publishers, Boston, 1996
[15] Committee on microwave processing of materials, National Materials Advisor board, Commission on engineering and technical systems, national Research Council, Microwave Processing Materials, National Academy Press, Washington, 1994.
Progress in this area is related to the development of materials with improved properties or new materials.
Gagulin, Microwave Absorbing Materials, Inorganic Materials, vol. 37n02 (2001) p93 -98
Jha, Radar Absorbing Materials: from Theory to Design and Characterization, Kluwer Academic Publishers, Boston, 1996
[15] Committee on microwave processing of materials, National Materials Advisor board, Commission on engineering and technical systems, national Research Council, Microwave Processing Materials, National Academy Press, Washington, 1994.
Online since: March 2008
Authors: Hua Zhang, Zhi Gang Jiang, Xiao Luo
The materials of cutter suitable for green cutting should have higher strength and toughness
resistance.
There are many researches on high-performance cutter materials, such as ultra-fine grain carbide, ceramic and metal-ceramic cutter material, diamond and CBN.
After choosing cutting materials, the optimization of cutter geometry shape becomes very important.
Ngoi: Journal of Materials Processing Technology, Vol.101 (2000), pp.287-291
Cao and et al: Journal of Materials Processing Technology, Vol.129 (2002), pp.467-470
There are many researches on high-performance cutter materials, such as ultra-fine grain carbide, ceramic and metal-ceramic cutter material, diamond and CBN.
After choosing cutting materials, the optimization of cutter geometry shape becomes very important.
Ngoi: Journal of Materials Processing Technology, Vol.101 (2000), pp.287-291
Cao and et al: Journal of Materials Processing Technology, Vol.129 (2002), pp.467-470
Online since: July 2011
Authors: Xue Jin Shen, Zhen Liang Wang, Ling Zhou
Introduction
Microelectromechanical systems (MEMS) developed rapidly during past two decades, which is the technology that uses principally silicon-based materials to manufacture microscale mechatronic structures.
Acknowledgements This work is sponsored by the National Natural Science Foundation of China (Grant No. 51075249).
Kukjin: Journal of Microelectromechanical Systems Vol. 7(3) (1998), p. 339 -344
Hou: Chinese Journal of Mechanical Engineering Vol. 21(5) (2008), p. 55-58
Wang: Theory and Technology of Microwave Transmission (Science Press, Beijing 1996), in Chinese
Acknowledgements This work is sponsored by the National Natural Science Foundation of China (Grant No. 51075249).
Kukjin: Journal of Microelectromechanical Systems Vol. 7(3) (1998), p. 339 -344
Hou: Chinese Journal of Mechanical Engineering Vol. 21(5) (2008), p. 55-58
Wang: Theory and Technology of Microwave Transmission (Science Press, Beijing 1996), in Chinese
Online since: November 2010
Authors: Ping Liu, Hui Yi Miao
Acknowledgments
This research was supported by National Natural Science Foundation of China (No.50575038).
Liu: Journal of Tsinghua University, Vol. 29 (1989) No. 5, pp. 54-58.
Liang: Chinese Journal of Metrology, Vol. 17 (1996) No. 3, pp. 219-221.
Liu: Chinese Journal of Metrology, Vol. 24 (2003) No. 2, pp. 85-87.
Liu: Applied Mechanics and Materials, Vol. 16-19 (2009), pp. 1164-1168
Liu: Journal of Tsinghua University, Vol. 29 (1989) No. 5, pp. 54-58.
Liang: Chinese Journal of Metrology, Vol. 17 (1996) No. 3, pp. 219-221.
Liu: Chinese Journal of Metrology, Vol. 24 (2003) No. 2, pp. 85-87.
Liu: Applied Mechanics and Materials, Vol. 16-19 (2009), pp. 1164-1168
Online since: October 2013
Authors: Cun Cheng Shi, Cheng Chu, Wei Zhang, Song Lin Yue, Xiao Hu, Hong Xiao Wu
If anchor bars were high strength material, then the strength could be improved to a higher degree.
Wang, Journal of Rock Mechanics and Geotechnical Engineering, 1 (2009) 1-10
Wang, Chinese Journal of Rock Mechanics and Engineering, Vol. 24 13 (2005) 2203-2211
Hou, Journal of Fuxin Mining Institute (Natural Science), Vol. 16 4 (1997) 421-424
Qian, Chinese Journal of Rock Mechanics and Engineering, Vol. 26 5 (2007) 877-885
Wang, Journal of Rock Mechanics and Geotechnical Engineering, 1 (2009) 1-10
Wang, Chinese Journal of Rock Mechanics and Engineering, Vol. 24 13 (2005) 2203-2211
Hou, Journal of Fuxin Mining Institute (Natural Science), Vol. 16 4 (1997) 421-424
Qian, Chinese Journal of Rock Mechanics and Engineering, Vol. 26 5 (2007) 877-885