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Online since: July 2012
Authors: Ying Ming Chen, Wen Xia Zheng, Ying Huang
Purifying formaldehyde by ornamental plants has been the hot and frontier science in recent years.
Materials and Methods Experimental Materials.
Acknowledgement The research was supported by Research Project of Department of Education of Hubei Province (Q20111605), Humanities and Social Sciences Project of Department of Education of Hubei Province (Grant No. 2010d040) and Construction Science Project of Construction Department of Hubei Province (Grant No. 2009a23).
Guo: Journal of Organometallic Chemistry vol. 704 (2012), p. 38-481 [4] X.J.
Wang: Chiese Journal of Environmental Engineering vol. 1 (2007), p. 104-106 (in Chinese) [11]Y.
Materials and Methods Experimental Materials.
Acknowledgement The research was supported by Research Project of Department of Education of Hubei Province (Q20111605), Humanities and Social Sciences Project of Department of Education of Hubei Province (Grant No. 2010d040) and Construction Science Project of Construction Department of Hubei Province (Grant No. 2009a23).
Guo: Journal of Organometallic Chemistry vol. 704 (2012), p. 38-481 [4] X.J.
Wang: Chiese Journal of Environmental Engineering vol. 1 (2007), p. 104-106 (in Chinese) [11]Y.
Online since: July 2014
Authors: Ya Zhen Sun, Jin Chang Wang, Gang Bing Wu, Chuan Jiang Zhu, Yuan Yuan
Raw Materials and Asphalt Mixture Design
The Shengzhou permeating basalt mineral aggregate is shown in Table 1 and Table 2.The mineral powder gain from the levigation of Lanxi’s limestone. 70#Bitumen were used in this paper is shown in Table 3.
Acknowledgements This work was financially supported by the Zhejiang Province Communications Department Science and Technology Program (2013H30), the National Natural Science Foundation of China (NSFC)(51078331, 51108411) and the Ningbo City Science and Technology Program (201301C5005002).
New specimen for fracture toughness determination for rock and other materials .
International Journal of Fracture, 1984, 26:59~62
Journal of Shenyang Jianzhu University (Natural Science).2013,29(1):56-64.
Acknowledgements This work was financially supported by the Zhejiang Province Communications Department Science and Technology Program (2013H30), the National Natural Science Foundation of China (NSFC)(51078331, 51108411) and the Ningbo City Science and Technology Program (201301C5005002).
New specimen for fracture toughness determination for rock and other materials .
International Journal of Fracture, 1984, 26:59~62
Journal of Shenyang Jianzhu University (Natural Science).2013,29(1):56-64.
Online since: June 2015
Authors: S. Basavarajappa, N.G. Siddeshkumar, G.S. Shiva Shankar
For Al alloy the deeper grooves, surface cracks and scratches are more severe forms craters ensuing plastic deformation of unreinforced materials.
Kerti, The Effect of Ti Addition on the Properties of Al-B4C Interface:A Microstructural Study,Materials Science Forum Vols. 636-637 (2010) pp 192-197 (2010), Trans Tech Publications
Paulo Davim, Application of Taguchi techniques to study dry sliding wear behaviour of metal matrix composites, Science Direct, Materials and Design 28 (2007) 1393–1398
Science Direct, Wear 259(2005)620-625
Science Direct, Wear 259(2005)620-625
Kerti, The Effect of Ti Addition on the Properties of Al-B4C Interface:A Microstructural Study,Materials Science Forum Vols. 636-637 (2010) pp 192-197 (2010), Trans Tech Publications
Paulo Davim, Application of Taguchi techniques to study dry sliding wear behaviour of metal matrix composites, Science Direct, Materials and Design 28 (2007) 1393–1398
Science Direct, Wear 259(2005)620-625
Science Direct, Wear 259(2005)620-625
Online since: August 2013
Authors: Xiu Lin Ji, Hai Shuai Wang, Shu Qi Wang, Zhi Gang Zhao
From the XRD patterns and microstructures of Fe-Al alloy layer, the samples diffused at 900˚C without pores and cracks were selected as erosion test materials.
Generally, the hardness of materials is controlling factor at low injecting angle, the toughness at high injecting angle [5].
Materials Science and Engineering of Powder Metallurgy, Vol. 10(2005), p. 133-137 [3] Q.L.
Transactions of Materials and Heat Treatment, Vol. 33(2012), p. 142-148 [4] X.M.
Journal of Materials Science and Engineering, Vol. 17(1999), p. 92-96
Generally, the hardness of materials is controlling factor at low injecting angle, the toughness at high injecting angle [5].
Materials Science and Engineering of Powder Metallurgy, Vol. 10(2005), p. 133-137 [3] Q.L.
Transactions of Materials and Heat Treatment, Vol. 33(2012), p. 142-148 [4] X.M.
Journal of Materials Science and Engineering, Vol. 17(1999), p. 92-96
Online since: November 2014
Authors: Qi Tang, Peng Liu, Jian Xun Tang
One is starting time limit caused by material supply constraint, namely, the batch production can start only when there is material.
One is priority of material supply represented by (Ci, Sj).
Summary This work is supported by National Natural Science Foundation of China under Grant (71001074); Humanity Social Science Youth foundation of Ministry of Education of China under Grant (13YJC630146); Soft Science Project of Shenyang Science and Technology Bureau ( F13-315-5-29).
Ghafari, R.Sahraeian: International Journal of Industrial Engineering and Production Research Vol. 25(1)(2014), p. 55-63
[6]D.Shabtay: European Journal of Operational Research Vol. 233(1)(2014), p. 64-74.
One is priority of material supply represented by (Ci, Sj).
Summary This work is supported by National Natural Science Foundation of China under Grant (71001074); Humanity Social Science Youth foundation of Ministry of Education of China under Grant (13YJC630146); Soft Science Project of Shenyang Science and Technology Bureau ( F13-315-5-29).
Ghafari, R.Sahraeian: International Journal of Industrial Engineering and Production Research Vol. 25(1)(2014), p. 55-63
[6]D.Shabtay: European Journal of Operational Research Vol. 233(1)(2014), p. 64-74.
Online since: September 2013
Authors: Xin Zhong Wang, Rui Liu, Shu Jun Peng
Fig.3 Curves of maximum dry density and materials humectation time
It can be seen from the figure 3 that with materials humectation time prolonging, the maximum dry density of each lime dosage soil is decreasing in a certain trend.
Compared with the maximum dry density of lime dosage 3% and 6%,When the dry density of lime dosage is 9%,the maximum dry density reduces a lot, which the difference of dry density is 0.14-0.19 g/cm ³With the same materials humectation time.
The maximum dry density changes little when materials humectation time is between 24h-48h and 48h-72h.
As materials humectation time increases, soil aggregate particles get bigger and pore diameter between the soils aggregate get greater.
With materials humectation time prolonging, the maximum dry density of each lime dosage soil is decreasing in a certain trend.
Compared with the maximum dry density of lime dosage 3% and 6%,When the dry density of lime dosage is 9%,the maximum dry density reduces a lot, which the difference of dry density is 0.14-0.19 g/cm ³With the same materials humectation time.
The maximum dry density changes little when materials humectation time is between 24h-48h and 48h-72h.
As materials humectation time increases, soil aggregate particles get bigger and pore diameter between the soils aggregate get greater.
With materials humectation time prolonging, the maximum dry density of each lime dosage soil is decreasing in a certain trend.
Online since: March 2013
Authors: Guo Yuan Xu, Wen Tong Huang
Test Programme
Materials.
The lag of angle phase δ is due to the viscous component of experimental material, tanδ is known as the loss tangent.
Acknowledgements This work was financially supported by the National Natural Science Funds (51078151).
[2] Wentong Huang, Guoyuan Xu: Journal of South China University of Technology(Natural Science Edition), Vol.40(2012), p.87-91 [3] Min Hua: Study on Modification Mechanism of Natural Asphalt to Base Asphalt[D], Master Thesis, Chang’an University, Xi’an, China, (2008) [4] Mahmoud Ameri, Ahmad Mansourian, etc: Construction and Building Materials, Vol.25(2011), p.1379-1387 [5] Baiwan Zhan: Study on Rock Asphalt Pavement Properties of Northern America [D], Master Thesis, South China University of Technology, Guangzhou, China, (2007) [6] Yefang Liu, Yongfeng Hao, etc: Modern Transportation Technology, Vol.8(2011), p.4-6, 19 [7] Dallas N.
Little, Lnjun Song: Performance Graded Asphalt Binder Specification and Testing, Lexington, Asphalt Institute, (1994), p.91-131 [8] Yingmei Yin, Xiaoning Zhang: Journal of Wuhan University of Technology, Vol.32(2010), p.85-89 [9] Ruixia Li, Peiwen Hao: Journal of Wuhan University of Technology, Vol.33(2011), p.42-45
The lag of angle phase δ is due to the viscous component of experimental material, tanδ is known as the loss tangent.
Acknowledgements This work was financially supported by the National Natural Science Funds (51078151).
[2] Wentong Huang, Guoyuan Xu: Journal of South China University of Technology(Natural Science Edition), Vol.40(2012), p.87-91 [3] Min Hua: Study on Modification Mechanism of Natural Asphalt to Base Asphalt[D], Master Thesis, Chang’an University, Xi’an, China, (2008) [4] Mahmoud Ameri, Ahmad Mansourian, etc: Construction and Building Materials, Vol.25(2011), p.1379-1387 [5] Baiwan Zhan: Study on Rock Asphalt Pavement Properties of Northern America [D], Master Thesis, South China University of Technology, Guangzhou, China, (2007) [6] Yefang Liu, Yongfeng Hao, etc: Modern Transportation Technology, Vol.8(2011), p.4-6, 19 [7] Dallas N.
Little, Lnjun Song: Performance Graded Asphalt Binder Specification and Testing, Lexington, Asphalt Institute, (1994), p.91-131 [8] Yingmei Yin, Xiaoning Zhang: Journal of Wuhan University of Technology, Vol.32(2010), p.85-89 [9] Ruixia Li, Peiwen Hao: Journal of Wuhan University of Technology, Vol.33(2011), p.42-45
Online since: February 2014
Authors: Liu Chao Qiu
The most important material parameter on loss factor is the yield strength.
As shown in Fig. 7, the elastic modulus is the measurement of the material’s deforming ability.
Numerical results show that the materials with higher mass density, higher elastic modulus, and lower yield strength have better dissipation effects.
Acknowledgments The authors would like to acknowledge financial supports from the National Natural Science Foundation of China (grant numbers: 11172321) and Chinese Universities Scientific Fund (grant numbers: 2011JS047).
References [1] Du Y C, Wang S L 2009 Journal of applied mechanics 76 061010-1 [2] Ketterhagen W R, Ende M T A, and Hancock B C 2009 J.
As shown in Fig. 7, the elastic modulus is the measurement of the material’s deforming ability.
Numerical results show that the materials with higher mass density, higher elastic modulus, and lower yield strength have better dissipation effects.
Acknowledgments The authors would like to acknowledge financial supports from the National Natural Science Foundation of China (grant numbers: 11172321) and Chinese Universities Scientific Fund (grant numbers: 2011JS047).
References [1] Du Y C, Wang S L 2009 Journal of applied mechanics 76 061010-1 [2] Ketterhagen W R, Ende M T A, and Hancock B C 2009 J.
Online since: September 2007
Authors: Guo Fa Mi, Hong Wei Wang, Song Yan Zeng, Zhou Li, Shi Fan Tian
Ni3Al-based superalloy is one high performance
casting materials in the Ni-Al-Mo system.
Thus, the tensile strengths and ductilities of atomization deposited materials may be higher than those of materials produced by powder metallurgy [2-4].
References [1] S.H.Li, Y.F.Han and Y.N.Tan: Journal of Beijing institute of technology.
Mi et al: Chinese journal of aeronautics.Vol.10 (1997), P. 127-130 [4] G.
Mi et al: Materials science & Engineering.
Thus, the tensile strengths and ductilities of atomization deposited materials may be higher than those of materials produced by powder metallurgy [2-4].
References [1] S.H.Li, Y.F.Han and Y.N.Tan: Journal of Beijing institute of technology.
Mi et al: Chinese journal of aeronautics.Vol.10 (1997), P. 127-130 [4] G.
Mi et al: Materials science & Engineering.
Online since: September 2020
Authors: Mohammad Khairul Azhar Abdul Razab, Nurfarah Aini Mocktar, An'amt Mohamed Noor, Nor Hakimin Abdullah
Microfibrillated cellulose and new nanocomposite materials: a review.
In IOP Conference Series: Materials Science and Engineering (Vol. 107, No. 1, p. 012045).
In Advanced Materials Research (Vol. 488, pp. 72-75).
Journal of Nanomaterials, 2014, 13
Advanced Materials Research, 488–489(March 2012), 72–75
In IOP Conference Series: Materials Science and Engineering (Vol. 107, No. 1, p. 012045).
In Advanced Materials Research (Vol. 488, pp. 72-75).
Journal of Nanomaterials, 2014, 13
Advanced Materials Research, 488–489(March 2012), 72–75