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Online since: September 2011
Authors: Fu Ping Liu, Yong Gang Yang
[2] Grace J: Journal of Pulp and Paper Science,1993,19(5):208-213
[3] Pauler N,Bristow J: Nordic Pulp and Paper Research Journal,1994,9(4):226-231
[6] Chinga G,Eilertsen M: Journal of Pulp and Paper Science,2007,33 (3):125-132
[11] Eriksen,Gregersen W: Nordic Pulp and Paper Research Journal, 2005, 20(2): 242-246
[12] Yonggang Yang, Qingxi Hou, Shuhua Hu: Avanced Materials Research, 2011, 160: 1617-1621.
[3] Pauler N,Bristow J: Nordic Pulp and Paper Research Journal,1994,9(4):226-231
[6] Chinga G,Eilertsen M: Journal of Pulp and Paper Science,2007,33 (3):125-132
[11] Eriksen,Gregersen W: Nordic Pulp and Paper Research Journal, 2005, 20(2): 242-246
[12] Yonggang Yang, Qingxi Hou, Shuhua Hu: Avanced Materials Research, 2011, 160: 1617-1621.
Online since: August 2014
Authors: Suet To, Guo Qing Zhang, Gao Bo Xiao
Zhao, A cutting power model for tool wear monitoring in milling, International Journal of Machine Tools and Manufacture. 44(14) (2004) 1503-1509
Kim et al., A mechanistic model of cutting force in the micro end milling process, Materials Processing Technology. 187-188 (2007) 250-255
[11] Peng LIU, Jiuhua XU, Yucan FU, Cutting force and its frequency spectrum characteristics in high speed milling of titanium alloy with a polycrystalline diamond tool, Journal of Zhejiang University - Science A, 12(1) (2011) 56-62
Lee, Wear characteristics of diamond tool in ultraprecision raster milling, International Journal of Advanced Manufacturing Technology. 44 (2009) 638–647
Dow, An Empirical Tool Force Model for Precision Machining, Journal of Manufacturing Science and Engineering. 120(4) (1998) 700-707.
Kim et al., A mechanistic model of cutting force in the micro end milling process, Materials Processing Technology. 187-188 (2007) 250-255
[11] Peng LIU, Jiuhua XU, Yucan FU, Cutting force and its frequency spectrum characteristics in high speed milling of titanium alloy with a polycrystalline diamond tool, Journal of Zhejiang University - Science A, 12(1) (2011) 56-62
Lee, Wear characteristics of diamond tool in ultraprecision raster milling, International Journal of Advanced Manufacturing Technology. 44 (2009) 638–647
Dow, An Empirical Tool Force Model for Precision Machining, Journal of Manufacturing Science and Engineering. 120(4) (1998) 700-707.
Online since: February 2011
Authors: Yong Gang Yang, Qiao Zhuo Gao
References
[1] Grace J: Journal of Pulp and Paper Science,1993,19(5):208-213
[2] Pauler N,Bristow J: Nordic Pulp and Paper Research Journal,1994,9(4):226-231
[6] Chinga G,Eilertsen M: Journal of Pulp and Paper Science,2007,33 (3):125-132
[8] Mäkinen M,Happonen J,Sahivirta J,et al: Journal of Pulp and Paper Science,2007,33(1):35-43
Printing Materials and its Printability[M].Beijing:Printing Industry Press,2000.
[2] Pauler N,Bristow J: Nordic Pulp and Paper Research Journal,1994,9(4):226-231
[6] Chinga G,Eilertsen M: Journal of Pulp and Paper Science,2007,33 (3):125-132
[8] Mäkinen M,Happonen J,Sahivirta J,et al: Journal of Pulp and Paper Science,2007,33(1):35-43
Printing Materials and its Printability[M].Beijing:Printing Industry Press,2000.
Online since: January 2014
Authors: Yi Du Zhang, Qiong Wu, Xiao Ju Shui
Henan Building Materials, 2005(1), 16-18
Computational Materials Science, 2008(44), 496-506
Composites Science and Technology, 2001(61), 1449-1456
The Chinese Journal of Nonferrous Metals, 2012, 22(2), 476-484
Journal of Tsinghua University (Science and Technology). 2003, 43(5), 710-714
Computational Materials Science, 2008(44), 496-506
Composites Science and Technology, 2001(61), 1449-1456
The Chinese Journal of Nonferrous Metals, 2012, 22(2), 476-484
Journal of Tsinghua University (Science and Technology). 2003, 43(5), 710-714
Online since: October 2013
Authors: Ji Yao, Liang Cao, Wei Chen, Shi Yue Wang, Hui Ming Wang
The materials of the tower is Q345C, Material properties are shown in table 1.Wind wheel diameter is 52meters.
Table 1 Physical properties of the tower material Material Modulus[GPa] Density[kg·m-3 ] Poisson's ratio Q345C 206 7850 0.3 Table 2 Tower size parameters No.
References [1] LI Ren-nian, TONG Yue, YANG Rui, Finite Element Analysis of Natural Frequency and Vibration Mode, Journal of Gansu Sciences.2011
[2] ZHU Xing-hua1, 2, HUANG Fang-lin1, ZHANG Liu-gang1, Modal and buckling analysis for the tower of large wind turbine, Journal of Railway Science and Engineering, 2010
[5] WANG Hui-hui, HUANG Fang-lin, WU He-liang, DENG Shi-hai, finite element analysis of Wind turbine tower, Journal of Shandong Jiaotong University, 2009.
Table 1 Physical properties of the tower material Material Modulus[GPa] Density[kg·m-3 ] Poisson's ratio Q345C 206 7850 0.3 Table 2 Tower size parameters No.
References [1] LI Ren-nian, TONG Yue, YANG Rui, Finite Element Analysis of Natural Frequency and Vibration Mode, Journal of Gansu Sciences.2011
[2] ZHU Xing-hua1, 2, HUANG Fang-lin1, ZHANG Liu-gang1, Modal and buckling analysis for the tower of large wind turbine, Journal of Railway Science and Engineering, 2010
[5] WANG Hui-hui, HUANG Fang-lin, WU He-liang, DENG Shi-hai, finite element analysis of Wind turbine tower, Journal of Shandong Jiaotong University, 2009.
Online since: May 2012
Authors: Xiao Li, Chang Yu Liang, Shou Ding Li, Jian Ming He, Sheng Xing Wang, Jing Yun Guo
Granite is chosen as test materials in this paper.
Sample preparation and experimental equipment The granite, whose main components are quarts and feldspars, is chosen as parent materials, and is processed into the specification of Φ 50 × 125mm as rock samples.
Granite is brittle material.
[4] Yingsong Lin, Hongkui Ge, Shunchang Wang: Chinese Journal of Rock Mechanics and Engineering.
Li: International Journal of Rock Mechanics and Mining Sciences.
Sample preparation and experimental equipment The granite, whose main components are quarts and feldspars, is chosen as parent materials, and is processed into the specification of Φ 50 × 125mm as rock samples.
Granite is brittle material.
[4] Yingsong Lin, Hongkui Ge, Shunchang Wang: Chinese Journal of Rock Mechanics and Engineering.
Li: International Journal of Rock Mechanics and Mining Sciences.
Online since: October 2014
Authors: You Gang Xiao, Xiao Feng Zhang, Yu Shi, Liang Sun
Each of the model elements is assigned physical attributes to them, such as materials, sections, modulus, and damping.
Applied Mechanics and Materials, 103 (2012) 285-291
Journal of Central South University: Science and Technology, 39 (2008)1267-1272
Journal of Central South University of Technology, 21(2014) 2494-2500
Journal of Traffic and Transportation Engineering, 8(2008): 10-14.
Applied Mechanics and Materials, 103 (2012) 285-291
Journal of Central South University: Science and Technology, 39 (2008)1267-1272
Journal of Central South University of Technology, 21(2014) 2494-2500
Journal of Traffic and Transportation Engineering, 8(2008): 10-14.
Online since: September 2013
Authors: Xiao Ting Li, Xiu Hua Liu, Jing Wang, Rui Ying Li, Guang Chen Wu, Zhi Lei Zhao
Materials and methods
Materials
The collected Gynostemma from different origins was purchased in the local, and all products are grown in the year.
References [1] Xin Liu, Wencai Ye, Wenluan Xiao, et al: Journal of China Pharmaceutical University, Vol. 34 (2003) No.1, p. 21-23.
(In Chinese) [8] Iyer M, Morris H R, Drennen J K: Journal of Near Infrared Spectroscopy, Vol.10 (2002) No.4, p.233-245
[9] Ning Zhang, Quande Zhang, Shurong Li, et al: Food Science and Technology, (2008) No.8, p.218-221.
(In Chinese) [10] Lu Xu: Chemometric methods (Science Press, China 1995).
References [1] Xin Liu, Wencai Ye, Wenluan Xiao, et al: Journal of China Pharmaceutical University, Vol. 34 (2003) No.1, p. 21-23.
(In Chinese) [8] Iyer M, Morris H R, Drennen J K: Journal of Near Infrared Spectroscopy, Vol.10 (2002) No.4, p.233-245
[9] Ning Zhang, Quande Zhang, Shurong Li, et al: Food Science and Technology, (2008) No.8, p.218-221.
(In Chinese) [10] Lu Xu: Chemometric methods (Science Press, China 1995).
Online since: April 2014
Authors: Eirini Varouti
Smart characterization of magnetic materials is also critical for sensor design and development [6-10].
The present study attempts to shed light to the nucleation and growth mechanisms during solid state processes which influence the resulting microstructure and properties of these materials [1,2,13,19,21-25].
The ribbons preparation and the measurements took place in Slovak Academy of Sciences (Institute of Physics).
Mat., 116, p. 177-188, 1992 [23] Hadria Medouer, Mosbah Daamouche, Abderrahim Guittoum, Saci Messaadi, Stefania Haido Karagianni, Key Engineering Materials, 495, p. 319, 2012 [24] M.
Karagianni, Sensor Lett. 11, 4, p. 670, 2013 [25] Saci Messaadi, Mosbah Daamouche, Abderrahim Guittoum, Hadria Medouer, Noureddine Fenineche, Ibtissem Zidani, Key Engineering Materials, 495, p.1-4, 2012 [26] Malek J., Kinetic analysis of crystallization processes in amorhous materials.
The present study attempts to shed light to the nucleation and growth mechanisms during solid state processes which influence the resulting microstructure and properties of these materials [1,2,13,19,21-25].
The ribbons preparation and the measurements took place in Slovak Academy of Sciences (Institute of Physics).
Mat., 116, p. 177-188, 1992 [23] Hadria Medouer, Mosbah Daamouche, Abderrahim Guittoum, Saci Messaadi, Stefania Haido Karagianni, Key Engineering Materials, 495, p. 319, 2012 [24] M.
Karagianni, Sensor Lett. 11, 4, p. 670, 2013 [25] Saci Messaadi, Mosbah Daamouche, Abderrahim Guittoum, Hadria Medouer, Noureddine Fenineche, Ibtissem Zidani, Key Engineering Materials, 495, p.1-4, 2012 [26] Malek J., Kinetic analysis of crystallization processes in amorhous materials.
Online since: October 2014
Authors: Gabriel Popescu
The model can be applied to any initial contact geometry and different contact materials.
Part I: Single contacts, Part II: Repeated contacts, ASME Journal of Applied Mechanics, 52 (1983) 66-82
Wemekamp, Microplastic material model and residual fields in rolling contacts, Journal of ASTM International, 3:5 (2006) 1-12
Journal of Eng.
Science, 18 (1980) 277-285.
Part I: Single contacts, Part II: Repeated contacts, ASME Journal of Applied Mechanics, 52 (1983) 66-82
Wemekamp, Microplastic material model and residual fields in rolling contacts, Journal of ASTM International, 3:5 (2006) 1-12
Journal of Eng.
Science, 18 (1980) 277-285.