Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: September 2009
Authors: Er Liang Liu, Li Min Shi, Yong Feng Ma, Yong Jiang Niu
Magnetic-electrochemical compound polishing is applied in difficult-to-process materials
little by little.
Liu: Key Engineering Materials, Vol. 8 (2008) No.375, pp.6-11
Ch: Journal of Materials Processing Techology, Vol. 129 (2002), pp.310-314
Journal of Materials Processing Technology, Vol. 95 (1999), pp.191-200
Shi: Journal of Harbin University of Science and Technology, Vol. 12 (2007) No.6, pp.113-116.
Liu: Key Engineering Materials, Vol. 8 (2008) No.375, pp.6-11
Ch: Journal of Materials Processing Techology, Vol. 129 (2002), pp.310-314
Journal of Materials Processing Technology, Vol. 95 (1999), pp.191-200
Shi: Journal of Harbin University of Science and Technology, Vol. 12 (2007) No.6, pp.113-116.
Online since: June 2025
Authors: Riyatun Riyatun, Budi Purnama, Retna Arilasita, Adiana Musadewi, Utari Utari
Kuwait Journal of Science.50. 569-574
In Key Engineering Materials (Vol. 855, pp. 64-69).
Materials Chemistry and Physics. 224: 29-35
Material Science in Semiconductors Processing, 91, 367-376 [18] R.M.
Journal of Magnetism and Magnetic Materials, 494, 165726
In Key Engineering Materials (Vol. 855, pp. 64-69).
Materials Chemistry and Physics. 224: 29-35
Material Science in Semiconductors Processing, 91, 367-376 [18] R.M.
Journal of Magnetism and Magnetic Materials, 494, 165726
Online since: November 2011
Authors: Xiao Ning Tang, Bin Zhang
Ag+ is the most usually used ion in antibacterial materials.
Diamond and Related Materials, 2009,18(5-8):1010 [2] J.
Materials Letters. 2009, 63(1):31-33 [5] J.H.
Journal of Colloid and Interface Science, 2009, 336, (1): 117 [8] Ruixian Yin, Yaqin Huang, Chongjun Huang, Yuanjian Tong, Na Tian.
Journal of Wuhan University of Technology-Materials Science Edition. 2008, 2(36): 771-774
Diamond and Related Materials, 2009,18(5-8):1010 [2] J.
Materials Letters. 2009, 63(1):31-33 [5] J.H.
Journal of Colloid and Interface Science, 2009, 336, (1): 117 [8] Ruixian Yin, Yaqin Huang, Chongjun Huang, Yuanjian Tong, Na Tian.
Journal of Wuhan University of Technology-Materials Science Edition. 2008, 2(36): 771-774
Online since: November 2011
Authors: Shuichi Miyazaki, Tomonari Inamura, Hideki Hosoda, Abdul Wadood
Miyazaki: Materials Science and Engineering A 438–440 (2006) 865–869
Hosoda: Materials Science and Engineering A 438–440 (2006) 18–24
Miyazaki: Materials Science and Engineering A 438–440 (2006) 835–838
[10] Keun Taek O.H, Hyung Min Shim, Kyoung Nam Kim: Journal of Biomedical Materials Research Volume 74B, Issue 1 p. 649-658 (2005)
[12] Hyung-Min Shim, Keun-Taek Oh, Jae-Young Woo, Chung-Ju Hwang, Kyoung-Nam Kim: Journal of Biomedical Materials Research Volume 73B, Issue 2 p. 252-259 (2005)
Hosoda: Materials Science and Engineering A 438–440 (2006) 18–24
Miyazaki: Materials Science and Engineering A 438–440 (2006) 835–838
[10] Keun Taek O.H, Hyung Min Shim, Kyoung Nam Kim: Journal of Biomedical Materials Research Volume 74B, Issue 1 p. 649-658 (2005)
[12] Hyung-Min Shim, Keun-Taek Oh, Jae-Young Woo, Chung-Ju Hwang, Kyoung-Nam Kim: Journal of Biomedical Materials Research Volume 73B, Issue 2 p. 252-259 (2005)
Online since: January 2012
Authors: Peng Wang, Can Cui
To prevent the development of the cracks, the tensile strength of the layer’s material should be enhanced in any way.
Effects of tire contact pressure on asphalt pavement structure[J].Journal of Chang'an University(Natural Science Edition), 2004, 24(1) :12-16 [5] Hu Xiaodi,Sun Lijun.Analysis of asphalt pavement structure under non-uniform distributed tire pressure with 3D finite element method[J].
Journal of Chang'an University(Natural Science Edition), 2003,5(3):15-20 [6] Yue,Zhong Qi,Svec,Otto J..Effects of tire-pavement contact pressure distributions on the response of asphalt concrete pavements[J].Canadian Journal of Civil Engineering,1995,22(5):849—860 [7] Sebaaly, Peter,Tabatabaee,Nader.Effect of tire pressure and type on response of flexible pavement[Z].Transportation Research Record,1989,No.1227:ll5—127 [8] Wang Yang,Liu Zhaojin.The influence of characteristics of vehicle load on pavement structure [J].Liaoning construction material,2004,3(3):69-70 [9] Bi Yufeng,Sun Lijun.
Research on Test Method of Asphalt Mixture’s Shearing Properties[J],Journal of Tongji University(Natural Science Edition) ,2005,33(8): 1036-1040 [10] Lu Weimin.
Finite Element Analysis of Top-Down Cracking in Asphalt Pavement[J], Journal of Highway and Transportation Research and Development, 2006,23(6):1-4
Effects of tire contact pressure on asphalt pavement structure[J].Journal of Chang'an University(Natural Science Edition), 2004, 24(1) :12-16 [5] Hu Xiaodi,Sun Lijun.Analysis of asphalt pavement structure under non-uniform distributed tire pressure with 3D finite element method[J].
Journal of Chang'an University(Natural Science Edition), 2003,5(3):15-20 [6] Yue,Zhong Qi,Svec,Otto J..Effects of tire-pavement contact pressure distributions on the response of asphalt concrete pavements[J].Canadian Journal of Civil Engineering,1995,22(5):849—860 [7] Sebaaly, Peter,Tabatabaee,Nader.Effect of tire pressure and type on response of flexible pavement[Z].Transportation Research Record,1989,No.1227:ll5—127 [8] Wang Yang,Liu Zhaojin.The influence of characteristics of vehicle load on pavement structure [J].Liaoning construction material,2004,3(3):69-70 [9] Bi Yufeng,Sun Lijun.
Research on Test Method of Asphalt Mixture’s Shearing Properties[J],Journal of Tongji University(Natural Science Edition) ,2005,33(8): 1036-1040 [10] Lu Weimin.
Finite Element Analysis of Top-Down Cracking in Asphalt Pavement[J], Journal of Highway and Transportation Research and Development, 2006,23(6):1-4
Online since: April 2016
Authors: Li Bin Liu, Yu Xiang, Zhao Dang, Ting Li
[13] Zhong M, Liu YT and Xie XM: Journal of Materials Chemistry B, Vol. 3 (2015), p.4001
[15] Chen Y, Chen L, Bai H and et al: Journal of Materials Chemistry A, Vol. 1 (2013), p.1992
[27] Zhang H , XieA, Wang C, et al: Journal of Materials Chemistry A, Vol. 1 (2013), p.8547
[31] Srinivas G, Burress J W, Ford J, et al: Journal of Materials Chemistry, Vol. 21 (2011), p.11323
[32] ZhangL, Wang Z P, Liu Y, et al: Journal of Materials Chemistry, Vol. 21 (2011), p.10399
[15] Chen Y, Chen L, Bai H and et al: Journal of Materials Chemistry A, Vol. 1 (2013), p.1992
[27] Zhang H , XieA, Wang C, et al: Journal of Materials Chemistry A, Vol. 1 (2013), p.8547
[31] Srinivas G, Burress J W, Ford J, et al: Journal of Materials Chemistry, Vol. 21 (2011), p.11323
[32] ZhangL, Wang Z P, Liu Y, et al: Journal of Materials Chemistry, Vol. 21 (2011), p.10399
Online since: July 2013
Authors: Yuan Zhang
However, the whole industrial chain is still rough, necessary to improve in science and technology, and also its products have low added-values.
First, upstream raw materials are abundant.
The raw material purchase model of the coal chemical enterprises in Hebei province mainly attaches importance to how to trade with suppliers as well as the supply prices of raw materials.
Product Production The purpose of green coal chemical industry is to improve the utilization rate of atoms and promote all atoms as materials to be digested, making the "zero emission" realized in a real sense.
International Journal of Physical Distribution& Logistics Management 33(1):36-58 [2] Donald J.
First, upstream raw materials are abundant.
The raw material purchase model of the coal chemical enterprises in Hebei province mainly attaches importance to how to trade with suppliers as well as the supply prices of raw materials.
Product Production The purpose of green coal chemical industry is to improve the utilization rate of atoms and promote all atoms as materials to be digested, making the "zero emission" realized in a real sense.
International Journal of Physical Distribution& Logistics Management 33(1):36-58 [2] Donald J.
Online since: September 2017
Authors: M.L. Lunina, A.E. Kazakova, D.A. Arustamyan
Yakutkina, The multicomponent doping of surface layers of materials under the influence of ion beams with a broad energy spectrum, IOP Conference Series: Materials Science and Engineering, 2016
Pashchenko, Structure of Ge nanoclusters grown on Si(001) by ion beam crystallization, Inorganic Materials, 49(5) (2013) 435-438
Bolobanova, Ion beam deposition of photoactive nanolayers for silicon solar cells, Inorganic Materials, 48(5) (2012) 439-444
Lunina, Growth and properties of GayIn1-yPzAs1-x-zBix solid solutions on GaP substrates, Inorganic Materials, 50(2) (2014) 113-119
Lunina, GaxIn1-xBiyAszSb1-y-z/InSb and InBiyAszSb1-y-z/InSb heterostructures grown in a temperature gradient, Inorganic Materials, 48(9) (2012) 877-883
Pashchenko, Structure of Ge nanoclusters grown on Si(001) by ion beam crystallization, Inorganic Materials, 49(5) (2013) 435-438
Bolobanova, Ion beam deposition of photoactive nanolayers for silicon solar cells, Inorganic Materials, 48(5) (2012) 439-444
Lunina, Growth and properties of GayIn1-yPzAs1-x-zBix solid solutions on GaP substrates, Inorganic Materials, 50(2) (2014) 113-119
Lunina, GaxIn1-xBiyAszSb1-y-z/InSb and InBiyAszSb1-y-z/InSb heterostructures grown in a temperature gradient, Inorganic Materials, 48(9) (2012) 877-883
Online since: February 2011
Authors: Li Cun Wang, Jin Chen, Shi Liu Li, Xu Dong Wang
PTFE: It is comparatively soft and white crystalline plastics, having low stiffness, hardness, strength and poorest mechanical properties in four materials.
The high-temperature and frozen experimental study on shields pattern and bolts manufactured in four materials is as the following table 1.
The antirust device of other materials’ corporation with blots has no variance in compactness.
Four materials haven’t loss of gloss and discoloration, and also have no appearance of ropiness, exfoliation, crack, deformation and surface roughness as shown in Fig. 2.
Science China: September 2010 Vol.53 No.10: 2783-2791 [7] L.
The high-temperature and frozen experimental study on shields pattern and bolts manufactured in four materials is as the following table 1.
The antirust device of other materials’ corporation with blots has no variance in compactness.
Four materials haven’t loss of gloss and discoloration, and also have no appearance of ropiness, exfoliation, crack, deformation and surface roughness as shown in Fig. 2.
Science China: September 2010 Vol.53 No.10: 2783-2791 [7] L.
Online since: January 2013
Authors: Dileep Kumar Gupta, Mani Shankar Dasgupta
Dasgupta1,b
1 Mechanical Engineering Department
Birla Institute of Technology and Science Pilani -333031, India
a dileep.vnit@gmail.com b msdasgupta@gmail.com
Keywords: gas cooler, CO2 refrigeration systems, material and energy saving
Abstract: Carbon dioxide is one of the rediscovered sustainable options, as CFCs and HFCs are now in the list of regulated substances, to be phased out in time bound way.
However the approach is found to be inefficient not only from the point of view of excess material use but also from energy consumption and performance.
[5] Yin, J.M., Bullard, C.W., and Hrnjak P.S., R-744 gas cooler model development and validation;, International Journal of Refrigeration 24 (2001) 692–701
[7] Kim .M.H., Pettersen , J., Bullard ,C.W., Fundamental process and system design issues in CO2 vapour compression systems; Progress in Energy and Combustion Science 30 (2004) 119–174
A heat transfer and friction correlation for wavy fin-and-tube heat exchangers, International Journal of Heat Mass Transfer 42 (1999) 1919–1924.
However the approach is found to be inefficient not only from the point of view of excess material use but also from energy consumption and performance.
[5] Yin, J.M., Bullard, C.W., and Hrnjak P.S., R-744 gas cooler model development and validation;, International Journal of Refrigeration 24 (2001) 692–701
[7] Kim .M.H., Pettersen , J., Bullard ,C.W., Fundamental process and system design issues in CO2 vapour compression systems; Progress in Energy and Combustion Science 30 (2004) 119–174
A heat transfer and friction correlation for wavy fin-and-tube heat exchangers, International Journal of Heat Mass Transfer 42 (1999) 1919–1924.