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Online since: November 2013
Authors: Li Qing Zhao, Cai Qi Hu, Yuan Yuan Yin
Rotary material disk structure includes drive motor, reducer, material tray, material cup and gauge pile.
Acknowledgements This work was financially supported by The Nature Science Foundation of Shandong Province (ZR2011FM034),A Project of Shandong Province Higher Educational Science and Technology Program(J10LC11).
Agricultural products processing (journal), 2008, (12) : 117-118
AnHui agricultural science, 2007, 35 (13) : 4059-4061
Journal of agricultural machinery, 2000, 31 (3): 112-115
Acknowledgements This work was financially supported by The Nature Science Foundation of Shandong Province (ZR2011FM034),A Project of Shandong Province Higher Educational Science and Technology Program(J10LC11).
Agricultural products processing (journal), 2008, (12) : 117-118
AnHui agricultural science, 2007, 35 (13) : 4059-4061
Journal of agricultural machinery, 2000, 31 (3): 112-115
Online since: June 2014
Authors: Huan Liu, Yu Jiao Li, Chang Xun Dong, Pei Ya Liu
Such materials still have high metal concentrations and are a major source of heavy metal pollution in the local environment[2, 3].
Materials and methods 2.1.
Journal of Hazardous Materials 2010;180:152-7
Journal of Hazardous Materials 2009;163:1129-33
Journal of Environmental Sciences-China 2008;20:75-9
Materials and methods 2.1.
Journal of Hazardous Materials 2010;180:152-7
Journal of Hazardous Materials 2009;163:1129-33
Journal of Environmental Sciences-China 2008;20:75-9
Online since: May 2009
Authors: Min Li Zheng, Bin Jiang, Wen Chao Xu, L. Jiang
Then diameter, the number of teeth, axial length, angle between teeth, and
materials of cutter should be carried out orderly.
Wu: Materials Science Forum, Vol. 471-472 (2004), pp.663-667
Liu: Key Engineering Materials, Vol. 259-260 (2004), pp.462-465
Toh: Materials and Design, Vol. 26 (2005), pp.517-533
Li: Journal of Engineering Design,Vo1.13 (2002), pp.321-326.
Wu: Materials Science Forum, Vol. 471-472 (2004), pp.663-667
Liu: Key Engineering Materials, Vol. 259-260 (2004), pp.462-465
Toh: Materials and Design, Vol. 26 (2005), pp.517-533
Li: Journal of Engineering Design,Vo1.13 (2002), pp.321-326.
Online since: August 2012
Authors: Yun Bin Zhang, Juang Jiang
Edible films are new packaging materials with advantages of green, bio-degradable, innocuous features.
Materials and methods 2.1Materials Isolated soy protein with 90% protein content, and two types of commercial essential oil monomers(cinnamaldehyde and eugenol) supplied by SIGMA. 2.2 Soy protein isolate based film preparation[9,10] Film solution was prepared by slowly dissolving 6 g isolated soy protein in 90 mL distilled water while stirring.
Journal of Food Engineering, 2007, 81(3): 634−641
Meat Science, 2010,86(2):283-288 [7] Baskaran S.
Zaritzky,Lipid addition to improve barrier properties of edible starch-based films and coatings[J].Journal of Food Science,2000,65(6):941-947 [11] Jong-Whan Rhim, Jun Ho Lee, Perry K.
Materials and methods 2.1Materials Isolated soy protein with 90% protein content, and two types of commercial essential oil monomers(cinnamaldehyde and eugenol) supplied by SIGMA. 2.2 Soy protein isolate based film preparation[9,10] Film solution was prepared by slowly dissolving 6 g isolated soy protein in 90 mL distilled water while stirring.
Journal of Food Engineering, 2007, 81(3): 634−641
Meat Science, 2010,86(2):283-288 [7] Baskaran S.
Zaritzky,Lipid addition to improve barrier properties of edible starch-based films and coatings[J].Journal of Food Science,2000,65(6):941-947 [11] Jong-Whan Rhim, Jun Ho Lee, Perry K.
Online since: April 2011
Authors: Pei Si Zhong, Chun Fen Guo, Jun Ying Wei
Narrow manufacturing resources mainly refer to the material elements needed to manufacture one component.
Being the bottom manufacturing resources in a manufacturing system, narrow manufacturing resources include machine, tools, fixtures, gauges and materials and so on.
Acknowledgement This research is supported by the Science and Technology Development Program of Shandong Province (No. 2010GGX10408).
Sheng: Journal of Wuhan Automotive Polytechnic University, Vol.22 (2000) No.2, pp. 19-21 ( In Chinese)
Ge: Journal of Jiangsu University of Science and Technology (Natural Science Edition), Vol. 21 (2007) No.2, pp.85-89 ( In Chinese).
Being the bottom manufacturing resources in a manufacturing system, narrow manufacturing resources include machine, tools, fixtures, gauges and materials and so on.
Acknowledgement This research is supported by the Science and Technology Development Program of Shandong Province (No. 2010GGX10408).
Sheng: Journal of Wuhan Automotive Polytechnic University, Vol.22 (2000) No.2, pp. 19-21 ( In Chinese)
Ge: Journal of Jiangsu University of Science and Technology (Natural Science Edition), Vol. 21 (2007) No.2, pp.85-89 ( In Chinese).
Online since: February 2011
Authors: Sheng Hua Lv, Jian Ping Duan, Gong Rui, Yan Fen Ma, Rui Jun Gao
Experimental
Materials.
Acknowledgements This research program was supported financially by the National Natural Science foundation of China (No. 20876091), Shaanxi Province Natural Science Foundation (No.
Kotchey, Y.Chen: Journal of the American Chemical Society.
Jing: Polymeric Materials Science & Engineering.
Boffi: Journal of Molecular Catalysis B: Enzymatic.
Acknowledgements This research program was supported financially by the National Natural Science foundation of China (No. 20876091), Shaanxi Province Natural Science Foundation (No.
Kotchey, Y.Chen: Journal of the American Chemical Society.
Jing: Polymeric Materials Science & Engineering.
Boffi: Journal of Molecular Catalysis B: Enzymatic.
Online since: October 2011
Authors: Jian Ping Zhang, Shu Guang Gong, Yan Kun Jiang, Xin Liu
The material properties are listed as follows, Young’s modulus , Poisson’s ratio, and a 40% volume constraint is prescribed.
Acknowledgments This research is funded by National Natural Science Foundation of China [50875223] and Natural Science Foundation of Xiangtan University [08XZX20].
Zhang: International Journal for Numerical Method in Fluids Vol. 20(1995), p. 1081-1106
Liu, et al.: International Journal of Computational Methods in Engineering Science and Mechanics Vol. 11(2010), p. 328-336
Jiang: Advanced Materials Research Vol. 97-101(2010), p. 3646-3650
Acknowledgments This research is funded by National Natural Science Foundation of China [50875223] and Natural Science Foundation of Xiangtan University [08XZX20].
Zhang: International Journal for Numerical Method in Fluids Vol. 20(1995), p. 1081-1106
Liu, et al.: International Journal of Computational Methods in Engineering Science and Mechanics Vol. 11(2010), p. 328-336
Jiang: Advanced Materials Research Vol. 97-101(2010), p. 3646-3650
Online since: September 2011
Authors: Ke Zhang, Feng Lu, Yu Hou Wu, Yuan Bao, Shi Chao Chen
Preface
As an important kind of engineering ceramic material, zirconia ceramics is obtained a widespread concern in recent years and more and more precise zirconia ceramics products get specific applications.
The main parameters of the specimen material: the material density is 5.9, the compressive strength is 2000~2700, the vickers hardness is 18~20, the fracture toughness is 3~5and the thermal expansion coefficient is 10.The external circular grinding of zirconia ceramics spindle is processed on the MGA1432A high-precision grinding machine.
Acknowledgments: This paper is supported by the National natural science funds (50975182), International technical cooperation projects (2008DFAT0330), Natural science fund of Liaoning (20102186), The Science and Technology Project Foundation of Ministry of Housing and Urban-Rural Development (2008-k8-6), The innovative team plans of Liaoning Provincial Department of Education (2007T146,2007T47,2008T160), Science and technology plan project of Shenyang (F10-205-1-15) and The Key Lab Opening Fund of Shengyang Jianzhu University (JX200709).
Chen: Journal of Mechanical Strength, Vol 33 (2011), No.1, p152.
Wang: Journal of ShanDong University (Engineering Science), Vol. 37 (2007) No.5, p65.
The main parameters of the specimen material: the material density is 5.9, the compressive strength is 2000~2700, the vickers hardness is 18~20, the fracture toughness is 3~5and the thermal expansion coefficient is 10.The external circular grinding of zirconia ceramics spindle is processed on the MGA1432A high-precision grinding machine.
Acknowledgments: This paper is supported by the National natural science funds (50975182), International technical cooperation projects (2008DFAT0330), Natural science fund of Liaoning (20102186), The Science and Technology Project Foundation of Ministry of Housing and Urban-Rural Development (2008-k8-6), The innovative team plans of Liaoning Provincial Department of Education (2007T146,2007T47,2008T160), Science and technology plan project of Shenyang (F10-205-1-15) and The Key Lab Opening Fund of Shengyang Jianzhu University (JX200709).
Chen: Journal of Mechanical Strength, Vol 33 (2011), No.1, p152.
Wang: Journal of ShanDong University (Engineering Science), Vol. 37 (2007) No.5, p65.
Online since: January 2011
Authors: Yi Ping Luo, Li Cheng Yang, Jin Xiang Hu, Li Wei Ning
The dynamic failure mode of material loose and fatigue cracking is obvious in the previous damage phenomena.
The reason is that the material pressed will move the two sides and the depth part.
Lu: Science in China Series E: Technological Sciences, vol.52, 3(2009), p.721 [2] S. h.
Richard Kim: Journal of Civil Engineering, vol.10, (2), p.97 [3] Y.
Shane Underwood, et al: Journal of Civil Engineering, vol.12, (2), p.109 [4] Cherif Asli, Z.
The reason is that the material pressed will move the two sides and the depth part.
Lu: Science in China Series E: Technological Sciences, vol.52, 3(2009), p.721 [2] S. h.
Richard Kim: Journal of Civil Engineering, vol.10, (2), p.97 [3] Y.
Shane Underwood, et al: Journal of Civil Engineering, vol.12, (2), p.109 [4] Cherif Asli, Z.
Online since: July 2011
Authors: Zeng Shou Sun, Ke Ju Fan, Xu Guang Yin, Peng Jie Han
Its length is 6m, and material elastic modulus , and density , and poisson ratio.
Material density , and elastic modulus .
So the relative wavelet entropy may be used to identify structural damage location Tab.3 The damage time scenarios of test beam Scenarios Damage moment Simulation state Scenario 1 4th second discharge a quality block Scenario 2 1.8th and 3th second discharge two quality blocks Fig.10 The bar chart of damage location of test beam under three scenarios Fig.11 The bar chart of damage time of test beam Acknowledgements This work was financially supported by the China National Natural Science Foundation (50878198) References [1] Dajian HAN, Wendong WANG: Journal of South China University of Technology (Natural Science), Vol. 31(1) (2003), p. 91-96, In Chinese [2] Zengshou SUN: Study on Wavelet-based Damage Identification Method for Civil Engineering Structures [D], Fuzhou, China, 2006, In Chinese [3] Jian GUO, Zhengwei GU and Bingnan SUN: Engineering
Sweldens: Journal of Fourier Analysis and Application, Vol. 4(3) (1998), p. 245-267 [5] Chendong DUAN, Zhengjia HE: Journal of Vibration and Shock, Vol. 26(2) (2007), p. 10-13, In Chinese [6] Jichun ZHANG, Jianguo YANG: Journal of Harbin Institute of Technology, Vol. 40(5) (2008), p. 775-778, In Chinese [7] Hongkai Jiang, Zhongsheng Wang, Zhengjia HE: Journal of Northwestern Polytechnical University, Vol. 26(1) (2008), p. 99-103, In Chinese [8] Shuting WAN, Luyong LV, Yuling HE: Journal of Vibration and Shock, Vol. 28(1) (2009), p. 170-173, In Chinese [9] Zengshou SUN, Keju FAN, Bo ZHANG: Journal of Zhengzhou University (Engineering Science), Vol. 31(1) (2010), p. 1-5, In Chinese [10] Svaldo A Rosso, Susana Blanco: Journal of Neuroscience Methods, Vol. 105 (2001), p. 65-75 [11] Xinyun YIN, Yongyong HE, Zhike PENG: Journal of Vibration Engineering, Vol. 17(2) (2004), p. 165-69, In Chinese [12] Zengshou SUN, Keju FAN: Journal of Xi'an University of Architecture & Technology (Natural
Science Edition), Vol. 41(1) (2009), p. 18-24, In Chinese
Material density , and elastic modulus .
So the relative wavelet entropy may be used to identify structural damage location Tab.3 The damage time scenarios of test beam Scenarios Damage moment Simulation state Scenario 1 4th second discharge a quality block Scenario 2 1.8th and 3th second discharge two quality blocks Fig.10 The bar chart of damage location of test beam under three scenarios Fig.11 The bar chart of damage time of test beam Acknowledgements This work was financially supported by the China National Natural Science Foundation (50878198) References [1] Dajian HAN, Wendong WANG: Journal of South China University of Technology (Natural Science), Vol. 31(1) (2003), p. 91-96, In Chinese [2] Zengshou SUN: Study on Wavelet-based Damage Identification Method for Civil Engineering Structures [D], Fuzhou, China, 2006, In Chinese [3] Jian GUO, Zhengwei GU and Bingnan SUN: Engineering
Sweldens: Journal of Fourier Analysis and Application, Vol. 4(3) (1998), p. 245-267 [5] Chendong DUAN, Zhengjia HE: Journal of Vibration and Shock, Vol. 26(2) (2007), p. 10-13, In Chinese [6] Jichun ZHANG, Jianguo YANG: Journal of Harbin Institute of Technology, Vol. 40(5) (2008), p. 775-778, In Chinese [7] Hongkai Jiang, Zhongsheng Wang, Zhengjia HE: Journal of Northwestern Polytechnical University, Vol. 26(1) (2008), p. 99-103, In Chinese [8] Shuting WAN, Luyong LV, Yuling HE: Journal of Vibration and Shock, Vol. 28(1) (2009), p. 170-173, In Chinese [9] Zengshou SUN, Keju FAN, Bo ZHANG: Journal of Zhengzhou University (Engineering Science), Vol. 31(1) (2010), p. 1-5, In Chinese [10] Svaldo A Rosso, Susana Blanco: Journal of Neuroscience Methods, Vol. 105 (2001), p. 65-75 [11] Xinyun YIN, Yongyong HE, Zhike PENG: Journal of Vibration Engineering, Vol. 17(2) (2004), p. 165-69, In Chinese [12] Zengshou SUN, Keju FAN: Journal of Xi'an University of Architecture & Technology (Natural
Science Edition), Vol. 41(1) (2009), p. 18-24, In Chinese