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Online since: December 2010
Authors: Wen Yi, Rui Zhou, Yong He Wang
Grouting Materials and Their Application
Cement material is the most widely used in grouting.
Nearly four decades, China has developed and applied a number of chemical pulp materials, which is shown in Table 1.
According to different materials we can divided them into plasma chemical grouting, cement grouting and the clay slurry grouting.
“Geotechnical engineering chemistry. ” Science Press.
Rock Mechanics and Engineering Journal,20 (6) ,839-841.
Nearly four decades, China has developed and applied a number of chemical pulp materials, which is shown in Table 1.
According to different materials we can divided them into plasma chemical grouting, cement grouting and the clay slurry grouting.
“Geotechnical engineering chemistry. ” Science Press.
Rock Mechanics and Engineering Journal,20 (6) ,839-841.
Online since: January 2010
Authors: Xiang Zhong Ren, Pei Xin Zhang, Mu Chong Lin, Qiu Hua Yuan, Zhen Zhen Fan, Dong Yun Zhang
Advanced battery materials.
Materials Review, 2006, 20 (S1): 285-287 [3] Yongli Fan, Zhiyuan Tang, et al.
LiCo1/3Mn1/3Ni1/3O2 as cathode materials of lithium-ion battery.
Research progress in the cathode materials of lithium ion battery .
Journal of Functional Materials, 2004, 35 (6): 667-671 [8] Xueshan Hu, Xingquan Liu.
Materials Review, 2006, 20 (S1): 285-287 [3] Yongli Fan, Zhiyuan Tang, et al.
LiCo1/3Mn1/3Ni1/3O2 as cathode materials of lithium-ion battery.
Research progress in the cathode materials of lithium ion battery .
Journal of Functional Materials, 2004, 35 (6): 667-671 [8] Xueshan Hu, Xingquan Liu.
Online since: March 2015
Authors: Meng Xuan He, Gang Wu, Lin Wei Han
Study on the Effect of Adding Substrates onthe Quantitative Characteristics and Germination Dynamic of Soil Seed Banks
LinweiHan12,a,Mengxuan He3,b and Gang Wu1,c
1State Key Laboratory of Urban and Regional Ecology, Research Centre for Eco-Environmental Sciences,Chinese Academy of Sciences, Beijing 100085, China
2University of Chinese Academy of Sciences, Beijing 100049, China
3College of Environmental Science and Engineering,Nankai University,Tianjin 300071,China
alwhannk@163.com, btianshideyanleiqd@163.com, cwug@rcees.ac.cn
Keywords:Soil seed banks; Germinationcharacteristics; Substrates; Diversity indexes
Abstract.In order to study the effect of adding substrates onsoil seed banks(SSBs) germination characteristics, vermiculite(inorganic substrates), rice husk char(organic substrates)and their mixed substrates were selected to be added to SSBs by different ratios.
Introduction of substrates materials.Substrates are generally used for soilless culture.
References [1] Thompson K, Grime J P:Journal of Ecology. vol. 67(1979), p. 893 [2] Kurtz C, Heinken T:TUEXENIA. vol.31(2011), p. 105 [3] Mehara Tetsu, Nagano Masahiro, et al: Journal of Japanese Revegetational Technology Society. vol.9(1980), p. 1 [4] Hongyuan Li, Xunqiang Mo, et al:Ecology and Environmental Sciences. vol. 18(2)(2009), p. 731(In Chinese) [5] Yaoyuan Liang, Hongyuan Li, et al: Chinese Journal of Applied Ecology. vol. 20(11)(2009), p. 2832(In Chinese) [6] Guodong Wang, Beth A Middleton, et al: Acta Ecologica Sinica. vol. 33(1)(2013), p. 0205(In Chinese) [7] Yanrong Wang, Lei Yang, et al: Journal of Plant Ecology.vol.8(2012), p. 774(In Chinese) [8] Ruixue Liu, Juan Zhan, et al:Chinese Journal of Applied Ecology.vol. 24(3)(2013), p. 801(In Chinese)
Introduction of substrates materials.Substrates are generally used for soilless culture.
References [1] Thompson K, Grime J P:Journal of Ecology. vol. 67(1979), p. 893 [2] Kurtz C, Heinken T:TUEXENIA. vol.31(2011), p. 105 [3] Mehara Tetsu, Nagano Masahiro, et al: Journal of Japanese Revegetational Technology Society. vol.9(1980), p. 1 [4] Hongyuan Li, Xunqiang Mo, et al:Ecology and Environmental Sciences. vol. 18(2)(2009), p. 731(In Chinese) [5] Yaoyuan Liang, Hongyuan Li, et al: Chinese Journal of Applied Ecology. vol. 20(11)(2009), p. 2832(In Chinese) [6] Guodong Wang, Beth A Middleton, et al: Acta Ecologica Sinica. vol. 33(1)(2013), p. 0205(In Chinese) [7] Yanrong Wang, Lei Yang, et al: Journal of Plant Ecology.vol.8(2012), p. 774(In Chinese) [8] Ruixue Liu, Juan Zhan, et al:Chinese Journal of Applied Ecology.vol. 24(3)(2013), p. 801(In Chinese)
Online since: December 2011
Authors: Qi Jie Zhai, Chang Jiang Song, Yuan Yi Guo, Liang Zhu, Ke Feng Li, Ke Xie
As near-rapid solidification and near-net casting, it can refine the structure, improve the performance of materials and save the energy [8].
Herlach: Materials Science and Engineering A Vol. 133 (1991), p. 790 [3] A.
Norman et.al: Materials Science and Engineering A Vol. 226-228 (1997), P. 119 [6] N.
Garcia: Journal of Materials Processing Technology Vol. 102 (2000), p. 33 [8] R.
Liu et.al: Journal of Crystal Growth Vol. 282 (2005), p. 490
Herlach: Materials Science and Engineering A Vol. 133 (1991), p. 790 [3] A.
Norman et.al: Materials Science and Engineering A Vol. 226-228 (1997), P. 119 [6] N.
Garcia: Journal of Materials Processing Technology Vol. 102 (2000), p. 33 [8] R.
Liu et.al: Journal of Crystal Growth Vol. 282 (2005), p. 490
Online since: December 2010
Authors: Xin Gong Li, Xia Zheng, Yi Qiang Wu
Introduction
Inorganic particleboard is made from wooden or non-wooden plant particle (as reinforcing materials), cement or gypsum (as adhesive) and right amount additives by means of a certain technological process.
Materials and methods Materials.Bamboo particle: processing waste and residue from bamboo floorboard factory.
Finally, adding NaHCO3 to the mixture,stirring rapidly to make the raw materials mixed evenly.
Leting the prepared materials spread in the mold frame with uniform thickness, which was on a steel plate.Thickness meter was put at both mat side after preloading.
[6]Chungui Du, Jin Chun-de, Liu Zhi-kun,ect:Journal of Agricultural Science Yanbian University,Vol.26 (2004), p.32.
Materials and methods Materials.Bamboo particle: processing waste and residue from bamboo floorboard factory.
Finally, adding NaHCO3 to the mixture,stirring rapidly to make the raw materials mixed evenly.
Leting the prepared materials spread in the mold frame with uniform thickness, which was on a steel plate.Thickness meter was put at both mat side after preloading.
[6]Chungui Du, Jin Chun-de, Liu Zhi-kun,ect:Journal of Agricultural Science Yanbian University,Vol.26 (2004), p.32.
Online since: April 2014
Authors: Tomasz Rzychoń, Andrzej Kiełbus, Izabela Pikos
Mordike, Development of highly creep resistant magnesium alloys, Journal of Materials Processing Technology 117 (2001) 319-394
Kierzek, Influence of heat treatment on susceptibility to hot cracking of magnesium alloy EN-MCMgRE3Zn2Zr, Archives of Metallurgy and Materials 55 (2010) 69-78
Nie, Microstructure evolution in a Mg–15Gd–0.5Zr (wt.%) alloy during isothermal aging at 250◦C, Materials Science and Engineering A 431 (2006) 322–327
Rzychoń, The intermetallic phases in sand casting magnesium alloys for elevated temperature, Materials Science Forum 690 (2011) 214-217
Kral, Microstructural evolution of Mg–Al–Ca–Sr alloy during creep, Materials Science and Engineering A 498 (2008) 369–376
Kierzek, Influence of heat treatment on susceptibility to hot cracking of magnesium alloy EN-MCMgRE3Zn2Zr, Archives of Metallurgy and Materials 55 (2010) 69-78
Nie, Microstructure evolution in a Mg–15Gd–0.5Zr (wt.%) alloy during isothermal aging at 250◦C, Materials Science and Engineering A 431 (2006) 322–327
Rzychoń, The intermetallic phases in sand casting magnesium alloys for elevated temperature, Materials Science Forum 690 (2011) 214-217
Kral, Microstructural evolution of Mg–Al–Ca–Sr alloy during creep, Materials Science and Engineering A 498 (2008) 369–376
Online since: January 2013
Authors: Pin Le Zhang
Nonlinear Dynamic Analysis Model for RC Shear Wall
Pinle Zhang
Department of Civil Engineering, Kunming University of Science and Technology, Kunming, China
*Correspondence to: Zhang Pin-le, Kunming University of Science and Technology, 650500, P.R.
It is necessarily to investigate hysteretic characteristics of shear spring, axial spring and bending spring with high strength and axial compression ratio, for the strength of materials and axial compression of high-rise building is increasingly increased.
Journal of Structural Division, ASCE, 1970, 96(12): 2557-2572
Journal of Structural Division, ASCE, 1993, 119(3)
Journal of Building Structures, 2004, 25(5):35-42 (in Chinese)
It is necessarily to investigate hysteretic characteristics of shear spring, axial spring and bending spring with high strength and axial compression ratio, for the strength of materials and axial compression of high-rise building is increasingly increased.
Journal of Structural Division, ASCE, 1970, 96(12): 2557-2572
Journal of Structural Division, ASCE, 1993, 119(3)
Journal of Building Structures, 2004, 25(5):35-42 (in Chinese)
Online since: May 2012
Authors: Yan Yan Zeng, Qi Wu, Si Hao Lv, Hong Bo Fan
Jounal of Hazardous Materials, 2009, 166: 1134-1140
Journal of Hazardous Materials, 2009, 162: 954-959
Journal of Southeast University (Natural Science Edition), 2010, 6(40): 1337-1341
Chemical Engineering Journal, 2010, 160: 226-231
Journal of Hazardous Materials, 2009, 164: 527-532.
Journal of Hazardous Materials, 2009, 162: 954-959
Journal of Southeast University (Natural Science Edition), 2010, 6(40): 1337-1341
Chemical Engineering Journal, 2010, 160: 226-231
Journal of Hazardous Materials, 2009, 164: 527-532.
Online since: October 2011
Authors: Wen Pei Sung, Yu Kuang Zhao, Chi Chau Lien, Lei Wei
The influence of roofing materials with various insulation capacities on the building interior temperature is simulated in this study using the basic thermal data measured in the laboratory.
Roof Building Materials-Physical and Chemical Properties of Phenolic Resin The global tendency is to emphasize the appeal for fire-resistant materials that are energy-saving and eco-friendly [5] to achieve the maximum energy saving and the minimum environmental damage when the product is manufacture or consumed.
Acknowledgements The National Science Council of Taiwan supported this research through grant No.
Lee, Journal of Architecture(in Chinese), Vol. 66(2008), p.23-34
Yin, Journal of Combustion Science and Technology, Vol. 10(2004), p. 149-154.
Roof Building Materials-Physical and Chemical Properties of Phenolic Resin The global tendency is to emphasize the appeal for fire-resistant materials that are energy-saving and eco-friendly [5] to achieve the maximum energy saving and the minimum environmental damage when the product is manufacture or consumed.
Acknowledgements The National Science Council of Taiwan supported this research through grant No.
Lee, Journal of Architecture(in Chinese), Vol. 66(2008), p.23-34
Yin, Journal of Combustion Science and Technology, Vol. 10(2004), p. 149-154.
Online since: July 2014
Authors: D.G. Sondur, D.G. Mallapur, K.R. Udupa
It is found in the present study that, cast aged A356 materials possess higher wear resistance as compared to forge aged materials.
However, the forge aged materials show a different behavior.
Cast aged A356 material possesses higher wear resistance as compared to forge aged materials.
Forging improves both strength and ductility of the materials.
Materials and Design, 27, 2006, PP. 610-616
However, the forge aged materials show a different behavior.
Cast aged A356 material possesses higher wear resistance as compared to forge aged materials.
Forging improves both strength and ductility of the materials.
Materials and Design, 27, 2006, PP. 610-616