Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: June 2011
Authors: Guo Ying Zhou, He Li
Chinese fir (Cunninghamia Lanceolata) is a unique fast growing merchantable timber species in China with good materials, and is a major fast growing timber species in provinces of southern China.
Journal of Fujian College of Forestry, 1987,7(2):9-13 [3] Shen Bokui.
Journal of Nanjing Forestry University, 1994,18(4): 39-45 [4] Ou Zhaosheng, Zhang Zaifu, Wu Jianqun, etc.
Fujian Forestry Science and Technology. 2007,6(2):41-47 [6] Zhao Shengping, Zhang Shengbai, Jiang Kebo, etc.
Hubei Forestry Science and Technology. 1989, 4:6-9.
Journal of Fujian College of Forestry, 1987,7(2):9-13 [3] Shen Bokui.
Journal of Nanjing Forestry University, 1994,18(4): 39-45 [4] Ou Zhaosheng, Zhang Zaifu, Wu Jianqun, etc.
Fujian Forestry Science and Technology. 2007,6(2):41-47 [6] Zhao Shengping, Zhang Shengbai, Jiang Kebo, etc.
Hubei Forestry Science and Technology. 1989, 4:6-9.
Online since: March 2006
Authors: Nam Seo Goo, Kwang Joon Yoon, Hoon Cheol Park, Hery Setiawan
Introduction
Application of piezoelectric ceramic materials as actuator is one of its potential application that has
been widely developed and documented.
Goo: Design and manufacture of a lightweight piezo-composite curved actuator: Smart Materials and Structures, Vol. 11 (2002), p. 163-168
Park: Analytical design model for piezo-composite unimorph actuator and its verification using LIPCAs: Smart Materials and Structures, Vol. 13 (2004), p. 1-9
Yoon: Analysis of LIPCA Actuators: International Journal of Modern Physics B, Vol.17 (2003), p. 647-652
McGowan: Piezoelectric power requirements for active vibration control: Proceeding of SPIE, Smart Structures and Materials, Vol. 3039 (1997), p. 660
Goo: Design and manufacture of a lightweight piezo-composite curved actuator: Smart Materials and Structures, Vol. 11 (2002), p. 163-168
Park: Analytical design model for piezo-composite unimorph actuator and its verification using LIPCAs: Smart Materials and Structures, Vol. 13 (2004), p. 1-9
Yoon: Analysis of LIPCA Actuators: International Journal of Modern Physics B, Vol.17 (2003), p. 647-652
McGowan: Piezoelectric power requirements for active vibration control: Proceeding of SPIE, Smart Structures and Materials, Vol. 3039 (1997), p. 660
Online since: December 2004
Authors: J. Wei, Y. Lei, Z.G. Liang, Wei Hao Xiong, Chou Fan, Ping Fa Feng
Materials Science Forum Vols. *** (2004) pp.390-395
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Evaluation on Died-pressed Binders of Ti(C,N)-based Cermet Powders
C.
Materials Science Forum Vols. *** 391 Fig.1 SEM micrograph of mixed powders The compaction experiment was conducted using a hardened steel die with a 40.0mm×6.0mm cavity and pressing pressure of 150 to 380 MPa was applied with uniaxial pressing at a universal testing machine. 7 grams the mixed powders were poured into the die cavity, subsequently vibrated, and then compacted at designed pressure.
Materials Science Forum Vols. *** 393 Binders BSR and PVA were beneficial to green strength and density under high pressing pressure.
Materials Science Forum Vols. *** 395 References [1] P.
White: Journal of Light Metals.
Materials Science Forum Vols. *** 391 Fig.1 SEM micrograph of mixed powders The compaction experiment was conducted using a hardened steel die with a 40.0mm×6.0mm cavity and pressing pressure of 150 to 380 MPa was applied with uniaxial pressing at a universal testing machine. 7 grams the mixed powders were poured into the die cavity, subsequently vibrated, and then compacted at designed pressure.
Materials Science Forum Vols. *** 393 Binders BSR and PVA were beneficial to green strength and density under high pressing pressure.
Materials Science Forum Vols. *** 395 References [1] P.
White: Journal of Light Metals.
Online since: December 2018
Authors: Masoud Farzaneh, Gelareh Momen, Reza Jafari, Tony Carreira, Khosrow Maghsoudi
Many materials can be used to fabricate templates.
Experimental Procedure Equipment and Materials.
An aluminum 3-piece flat mold was used to cast the rubber materials.
In general, fluorocarbon or hydrocarbon based coating materials are the most common antistiction coatings [8].
Farzaneh, Development a simple method to create the superhydrophobic composite coatings, Journal of Composite Materials, 47 (2013) 3125-3129
Experimental Procedure Equipment and Materials.
An aluminum 3-piece flat mold was used to cast the rubber materials.
In general, fluorocarbon or hydrocarbon based coating materials are the most common antistiction coatings [8].
Farzaneh, Development a simple method to create the superhydrophobic composite coatings, Journal of Composite Materials, 47 (2013) 3125-3129
Online since: April 2012
Authors: Tian Ping Song, Liang Feng Shen
Saving-materials.
Main materials recovery and regeneration.
The composite wall is given the industrial waste as main materials, reutilized, such as used quartz sand tailings for CCA wallboard main materials, filled with fly ash etc industrial waste as main materials in light grouting materials, then the national called for “advancing industrial waste recycle use” is responded realistically.
In general, saving-materials rate can be above 20%, saving-water rate can be above 60%.
Yue Jiang Academic Journal Vol.2 (2010), p27-31
Main materials recovery and regeneration.
The composite wall is given the industrial waste as main materials, reutilized, such as used quartz sand tailings for CCA wallboard main materials, filled with fly ash etc industrial waste as main materials in light grouting materials, then the national called for “advancing industrial waste recycle use” is responded realistically.
In general, saving-materials rate can be above 20%, saving-water rate can be above 60%.
Yue Jiang Academic Journal Vol.2 (2010), p27-31
Online since: January 2011
Authors: Michael L. Branham
Materials and Methods
Hollow Fibre Immunoextraction Model.
Smith: Science 1984;224:1312-1316
Nelson: Journal of Immunology 1986;137:3841-3844
Rubin et al: Journal of Immunology 1985;35:3172-3177
Mohacsi: Transfusion and Apheresis Science 2001;24:39-47
Smith: Science 1984;224:1312-1316
Nelson: Journal of Immunology 1986;137:3841-3844
Rubin et al: Journal of Immunology 1985;35:3172-3177
Mohacsi: Transfusion and Apheresis Science 2001;24:39-47
Online since: July 2008
Authors: Ramachandran Saravanan, K.S. Syed Ali, M. Prema Rani, R. Saravanan
Introduction
The distribution of electrons in the crystalline system is an interesting and important
subject of research in the field of physics, chemistry, material science and
Engineering.
Hence, these two methods can be used in combination to study the electronic charge distribution in pure and doped system which will help understand the physical and conducting phenomenon of these materials.
References 1 Banerjee, N.K. and Mitra, G.B.: Indian Journal of Pure and Applied Physics, 71 (1969) 13 2 Burley, G.: Acta Crystallographica, 1, (1967) 23 3 Hansen, N.K. and Coppens, P.: Acta Crystallographica A, 34 (1978) 909 4 Israel, S., Saravanan, R., Srinivasan, N. and Rajaram, R.K.: Journal of the Physics and Chemistry of Solids, 64 (2003) 43 5 Israel, S., Saravanan, R. and Rajaram, R.K.: Physica B, 349 (2004) 390 6 Izumi, F. and Dilanian, R.A.: "Recent Research Developments in Physics", Vol. 3, Part II, Transworld Research Network, Trivandrum (2002), 699. 7 Linkoaho, M.V.: Acta Crystallographica A, 25 III (1969) 8 Mohanlal, S.K. and Pathinettam Padiyan, D.: Radiation Effects and Defects in Solids, 110 (1989) 385 9 Momma, K. and Izumi, F.: Commission on Crystallogr.
Comput., IUCr Newslett., 7 (2006) 106 10 Petříček, V., Dušek, M. and Palatinus, L.: JANA 2000, The Crystallographic Computing System, Institute of Physics, Academy of Sciences of the Czech Republic, Praha (2000). 11 Rietveld, H.M.: Journal of Applied Crystallography, 2 (1969) 65 12 Saravanan, R., Mohanlal, S.K. and Nethaji, M.: Physica Status Solidi B, 183 (1994) 359 13 Saravanan, R., Mohanlal, S.K. and Nethaji, M.: Crystal Research and Technology, 30 (1995) 115 14 Saravanan, R., Israel, S., Swaminathan, S., Kalidoss, R. and Muruganantham, M.: Crystal Research and Technology, 37 (2002) 1310 15 Saravanan, R., Ono, Y., Ohno Isshiki, M., Ohno, K. and Kajitani, T.: Journal of the Physics and Chemistry of Solids, 64 (2003) 51 16 Saravanan, R., Majella, M., Ann, A. and Jainulabdeen, S.: Physica B, 400 (2007) 16 17 Shahi, K., Wagner, J.B.: Physical Review B, 23 (1981) 12 18 Valvoda, V.: Acta Crystallographica A, 26 (1970) 405
Hence, these two methods can be used in combination to study the electronic charge distribution in pure and doped system which will help understand the physical and conducting phenomenon of these materials.
References 1 Banerjee, N.K. and Mitra, G.B.: Indian Journal of Pure and Applied Physics, 71 (1969) 13 2 Burley, G.: Acta Crystallographica, 1, (1967) 23 3 Hansen, N.K. and Coppens, P.: Acta Crystallographica A, 34 (1978) 909 4 Israel, S., Saravanan, R., Srinivasan, N. and Rajaram, R.K.: Journal of the Physics and Chemistry of Solids, 64 (2003) 43 5 Israel, S., Saravanan, R. and Rajaram, R.K.: Physica B, 349 (2004) 390 6 Izumi, F. and Dilanian, R.A.: "Recent Research Developments in Physics", Vol. 3, Part II, Transworld Research Network, Trivandrum (2002), 699. 7 Linkoaho, M.V.: Acta Crystallographica A, 25 III (1969) 8 Mohanlal, S.K. and Pathinettam Padiyan, D.: Radiation Effects and Defects in Solids, 110 (1989) 385 9 Momma, K. and Izumi, F.: Commission on Crystallogr.
Comput., IUCr Newslett., 7 (2006) 106 10 Petříček, V., Dušek, M. and Palatinus, L.: JANA 2000, The Crystallographic Computing System, Institute of Physics, Academy of Sciences of the Czech Republic, Praha (2000). 11 Rietveld, H.M.: Journal of Applied Crystallography, 2 (1969) 65 12 Saravanan, R., Mohanlal, S.K. and Nethaji, M.: Physica Status Solidi B, 183 (1994) 359 13 Saravanan, R., Mohanlal, S.K. and Nethaji, M.: Crystal Research and Technology, 30 (1995) 115 14 Saravanan, R., Israel, S., Swaminathan, S., Kalidoss, R. and Muruganantham, M.: Crystal Research and Technology, 37 (2002) 1310 15 Saravanan, R., Ono, Y., Ohno Isshiki, M., Ohno, K. and Kajitani, T.: Journal of the Physics and Chemistry of Solids, 64 (2003) 51 16 Saravanan, R., Majella, M., Ann, A. and Jainulabdeen, S.: Physica B, 400 (2007) 16 17 Shahi, K., Wagner, J.B.: Physical Review B, 23 (1981) 12 18 Valvoda, V.: Acta Crystallographica A, 26 (1970) 405
Online since: December 2012
Authors: Jun Qi Xun, Jun Hong Su, Jian Bo Ma, Feng Zou
ZnSe as a high refractive index material with wide transparent region (0.55-15µm), so we usually choose it as high refractive index material in infrared optical thin films.
Acknowledgements This work was supported by science and technology innovation support program of Xi'an city(No.
CHINESE JOURNAL OF LASERS, In Chinese.1999,26(8): 763-767
CHINESE JOURNAL OF LASERS, In Chinese. 2008, 35(10): 1601-1604
CHINESE JOURNAL OF LASERS, In Chinese.2010, 37(6): 1626-1630
Acknowledgements This work was supported by science and technology innovation support program of Xi'an city(No.
CHINESE JOURNAL OF LASERS, In Chinese.1999,26(8): 763-767
CHINESE JOURNAL OF LASERS, In Chinese. 2008, 35(10): 1601-1604
CHINESE JOURNAL OF LASERS, In Chinese.2010, 37(6): 1626-1630
Online since: November 2011
Authors: Ning Zhao, Shao Hua Dong, Qing Tian
Data Mining for ERW Welded Tube Scheduling Rules Based on Decision Tree
ZhaoNing a, Dong Shaohuab , Tian Qingc
Mechanical school of university of science and technology Beijing 100083, Beijing China
azhning@sina.com, bdsh-dle@me.ustb.edu.cn, ctianqingycy@163.com
Keywords: Data mining, Scheduling rules, Decision-Tree, Welded tube
Abstract.
Data mining for welded tube scheduling rules based on decision tree The strip is the raw material of ERW welded tube production whose technological process has three main stages: (1) Vertically trim product line of wide strip steel to obtain appropriate band steel
Combined with related thesis [7] [8] and present condition of enterprise, order attribute of selection includes the following aspects: Absolute remaining sorting time (ARST): in the project, ARST refers to all the time from the raw materials received to finishing warehousing.
European Journal of Operational Research, 2000,123:42-60
International Journal of Production Economics, 2000, 64:113~125
Data mining for welded tube scheduling rules based on decision tree The strip is the raw material of ERW welded tube production whose technological process has three main stages: (1) Vertically trim product line of wide strip steel to obtain appropriate band steel
Combined with related thesis [7] [8] and present condition of enterprise, order attribute of selection includes the following aspects: Absolute remaining sorting time (ARST): in the project, ARST refers to all the time from the raw materials received to finishing warehousing.
European Journal of Operational Research, 2000,123:42-60
International Journal of Production Economics, 2000, 64:113~125
Online since: September 2011
Authors: Ying Chao Ji, Jin Xing Ju, Yu Jia Liang
Experiment
Experimental material.
The raw material: Hemp fiber.
Journal of Tianjin Polytechnic University, Vol. 22 (1) (2003), p. 13~16
Journal of Textile Research, Vol. 27 (1) (2006), p. 20~22
[5] Geng Wang, Minsheng Wang, in: Modern methods of mathematical modeling, edited by Peking: Science Press in Peking, (2008), p. 145~156.
The raw material: Hemp fiber.
Journal of Tianjin Polytechnic University, Vol. 22 (1) (2003), p. 13~16
Journal of Textile Research, Vol. 27 (1) (2006), p. 20~22
[5] Geng Wang, Minsheng Wang, in: Modern methods of mathematical modeling, edited by Peking: Science Press in Peking, (2008), p. 145~156.