Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: October 2012
Authors: Yan Qing Niu, Yu Peng Gao, Zhong Su Ma, Shan Shan Chen
Food UHP technology is to treat the materials with high pressure, which can change the Hydrogen bonds, Ionic bonds, Hydrophobic bonds and other non-covalent bonds, achieving the role of sterilization inhibitory activity and improving food features[3, 4].
Materials and Methods Materials Glycerol and Acetic acid were supplied by Shanghai chemical reagent procurement and supply station.
Food Science, 25(2003): 49-51
International Journal of Biological Macromolecules, 34(2004): 155-161
Chemical Engineering Journal, 133(2007): 311-316.
Materials and Methods Materials Glycerol and Acetic acid were supplied by Shanghai chemical reagent procurement and supply station.
Food Science, 25(2003): 49-51
International Journal of Biological Macromolecules, 34(2004): 155-161
Chemical Engineering Journal, 133(2007): 311-316.
Online since: June 2012
Authors: Ree Ho Kim, Jung Hun Lee, Jong Bin Park, Jung Soo Mun
Some factors affecting the formation of a heat island are the intensive use of asphalt and diverse construction materials, mainly concrete [1].
Fig. 1 Outdoor test facility for various pavement materials and systems To measure the surface temperature of pavement, k-type thermocouple was applied.
Kim, et al: Material Science Forum, 510-511 (2006) p. 914-917
[6]Yuliya Kalmykova, Ann-Margret Strom vall, Britt-Marie Steenari: Journal of Hazardous Materials 152 (2008) p. 885–891 [7] Kim Y.R., Urbaization and recovery approach of water cycle, Water journal, vol 84, 2011 [8] Jurged, W.
Fig. 1 Outdoor test facility for various pavement materials and systems To measure the surface temperature of pavement, k-type thermocouple was applied.
Kim, et al: Material Science Forum, 510-511 (2006) p. 914-917
[6]Yuliya Kalmykova, Ann-Margret Strom vall, Britt-Marie Steenari: Journal of Hazardous Materials 152 (2008) p. 885–891 [7] Kim Y.R., Urbaization and recovery approach of water cycle, Water journal, vol 84, 2011 [8] Jurged, W.
Online since: February 2013
Authors: Li Geng Zhao, Hong Sheng Ding, Hui Rong, Zhi Fang Cheng
Introduction
Plasma spray coating is a metastable non-homogeneous materials whose wear process is very complex and influenced by many factors.
The higher the temperature of the surface of the coating the lower the hardness of the material which may cause greater wear loss.
Microstructure characteristics of Al2O3- 13wt.% TiO2 coating plasma spray deposited with nanocrystalline powders [J].Journal of materials processing technology.2008(197): 31- 35
Characterization of alumina- 3 wt.% titania coating prepared by plasma spraying of nanos tructured powders [J].Journal of the European Ceramic Society, 2004, 24(3): 627- 643
Materials Science and Engineering , 2001 , 301:80- 89.
The higher the temperature of the surface of the coating the lower the hardness of the material which may cause greater wear loss.
Microstructure characteristics of Al2O3- 13wt.% TiO2 coating plasma spray deposited with nanocrystalline powders [J].Journal of materials processing technology.2008(197): 31- 35
Characterization of alumina- 3 wt.% titania coating prepared by plasma spraying of nanos tructured powders [J].Journal of the European Ceramic Society, 2004, 24(3): 627- 643
Materials Science and Engineering , 2001 , 301:80- 89.
Online since: June 2011
Authors: M.S.J. Hashmi, Bekir Sami Yilbas, Y.A. Al-Shehri
The splats are well integrated into the base material at the coating base material interface.
Ogawa, Effects of structure and processing technique on the properties of thermal spray WC-Co and NiCrAl/WC-Co coatings, Materials Science and Engineering A 371 (2004) 187-192
Journal of Modelling and Simulation 19 (1999) 410-417
Pharr, Improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments J of Materials Research, 7 (1992) 1564-1580
Hasselman, Indentation fracture toughness of brittle materials for palmqvist cracks, Fracture Mechanics of Ceramics, 5 (1983) 97-105
Ogawa, Effects of structure and processing technique on the properties of thermal spray WC-Co and NiCrAl/WC-Co coatings, Materials Science and Engineering A 371 (2004) 187-192
Journal of Modelling and Simulation 19 (1999) 410-417
Pharr, Improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments J of Materials Research, 7 (1992) 1564-1580
Hasselman, Indentation fracture toughness of brittle materials for palmqvist cracks, Fracture Mechanics of Ceramics, 5 (1983) 97-105
Online since: February 2013
Authors: Yi Zheng, Wei Hong Xia, Chao Nan Liu
Options to minimize waste and emissions out of industrial processes through source reduction strategies can be identified by analyzing the flow of materials and energy in a company [3].
Through improvements of organization and technology, it helps to reduce or suggest better choices in use of materials and energy, to avoid waste, waste water generation, and gaseous emissions, and also waste heat and noise.
Examples for cleaner production options are: documentation of consumption, use of indicators and controlling, substitution of raw materials and auxiliary materials, increase of useful life of auxiliary materials and process liquids (by avoiding drag in, drag out, contamination), improved control, reuse of waste (internal or external), new, low waste processes and technologies and etc. [7,8] .
Li, Journal of Zhejiang University of Engineering Vol.96(2009), p.93-96
Zhang, Journal of Anhui Agricultural Sciences Vol.37(2009), p.10801-108ll.
Through improvements of organization and technology, it helps to reduce or suggest better choices in use of materials and energy, to avoid waste, waste water generation, and gaseous emissions, and also waste heat and noise.
Examples for cleaner production options are: documentation of consumption, use of indicators and controlling, substitution of raw materials and auxiliary materials, increase of useful life of auxiliary materials and process liquids (by avoiding drag in, drag out, contamination), improved control, reuse of waste (internal or external), new, low waste processes and technologies and etc. [7,8] .
Li, Journal of Zhejiang University of Engineering Vol.96(2009), p.93-96
Zhang, Journal of Anhui Agricultural Sciences Vol.37(2009), p.10801-108ll.
Online since: July 2011
Authors: Zhu He, Qiao Zhen Shen, Bao Kuan Li, Tat Leung Chan
Kittelson: Journal of Aerosol Science.
Solomon: Aerosol Science and Technology.
Mikkanen: Aerosol Science and Technology.
Fox: Journal of Aerosol Science.
Chan: submitted to The International Conference of Renewable Energy Sources and Environmental Materials (2011) [11] T.L.
Solomon: Aerosol Science and Technology.
Mikkanen: Aerosol Science and Technology.
Fox: Journal of Aerosol Science.
Chan: submitted to The International Conference of Renewable Energy Sources and Environmental Materials (2011) [11] T.L.
Online since: July 2012
Authors: Hua Rui Wu, Xiang Sun, Chen Feng, Hua Ji Zhu
Thereby, it is impossible for users to make accurate analysis according time, block and monitoring quantity, combine real-time video material, and reflect accurately and dynamically climate and environment changes of apple orchards.
This system has collected continually more than 4000 data samples and more than 1100 planting work material, has guided the cooperative to carry out accurately every planting management measure, have improved the quality of apples and the production ability, have increased the yield rate of high quality apples up to 5%, and have reduced the management cost of the plantation more than 15%.
Acknowledgement This paper is supported by a grant from the Ministry of Industry and Information Technology (Grant No. 2010ZX01045-001-004), a grant from the National Natural Science Foundation of China (Grant No.61102126) , a grant from Beijing Natural Science Foundation (4122034) and National Science and Technology Support Program (2011BAD21B02).
[8] Ye Na, Qian Ji, Liu Junfeng, Chen Qilin, and Wei Jingbin, “Apple Orchard's Environment Monitor System” Journal of Agricultural Mechanization Research, vol.10, 2010 [9] HE Chengping, Gong Yimin and Lin Wei, “Facility Agriculture Intelligent Monitoring System Based on Wireless Sensor Networks” Journal of Anhui Agricultural Sciences , vol.8, 2010 [10] Song Changpo, “Monitoring System Design of Vineyard Based on Wireless Sensor Network” Journal of Anhui Agricultural Sciences , vol. 13, 2010
This system has collected continually more than 4000 data samples and more than 1100 planting work material, has guided the cooperative to carry out accurately every planting management measure, have improved the quality of apples and the production ability, have increased the yield rate of high quality apples up to 5%, and have reduced the management cost of the plantation more than 15%.
Acknowledgement This paper is supported by a grant from the Ministry of Industry and Information Technology (Grant No. 2010ZX01045-001-004), a grant from the National Natural Science Foundation of China (Grant No.61102126) , a grant from Beijing Natural Science Foundation (4122034) and National Science and Technology Support Program (2011BAD21B02).
[8] Ye Na, Qian Ji, Liu Junfeng, Chen Qilin, and Wei Jingbin, “Apple Orchard's Environment Monitor System” Journal of Agricultural Mechanization Research, vol.10, 2010 [9] HE Chengping, Gong Yimin and Lin Wei, “Facility Agriculture Intelligent Monitoring System Based on Wireless Sensor Networks” Journal of Anhui Agricultural Sciences , vol.8, 2010 [10] Song Changpo, “Monitoring System Design of Vineyard Based on Wireless Sensor Network” Journal of Anhui Agricultural Sciences , vol. 13, 2010
Online since: July 2014
Authors: Pei Hong Zhang, Xiao Wei Lu, Xiao Ming Zhang
Burning Behavior in a Poorly-ventilated Compartment Fire-Ghosting Fire[J].Fire Science and Technology,1989,9(2):5-14
Fire Safety Journal, 2005,40: 367-390
Clem: submitted to Journal of Materials Research (2003)
Journal of university of science and technology of China,2010(07)
A Real Scenario for a Ghosting Flame[C]//Fire Safety Science-Proceedings of the Fifth International Symposium on Fire Safety Science.
Fire Safety Journal, 2005,40: 367-390
Clem: submitted to Journal of Materials Research (2003)
Journal of university of science and technology of China,2010(07)
A Real Scenario for a Ghosting Flame[C]//Fire Safety Science-Proceedings of the Fifth International Symposium on Fire Safety Science.
Online since: October 2015
Authors: Alexander A. Baryakh, N.A. Samodelkina
Calculation diagram included the whole complex of mining and geological (bedding, strata hypsometry) and mine technical conditions of mining (depth of mining, parameter of mining system, degree of chamber filling with backfill material).
References [1] Baryakh A.A., Samodelkina N.A., Rheological analysis of geomechanical processes, Journal of Mining Science. 41(6) (2005) 522-530
,Water-tight stratum failure under large-scale mining, Part I, Journal of Mining Science. 48(5) (2012) 771-780
[3] Baryakh A.A., Samodelkina N.A., Water-tight stratum rupture under large-scale mining, Part II, Journal of Mining Science. 48(6) (2012) 954-961
[4] Zienkiewich O.C., The Finite Element Method in Engineering Science, McGraw- Hill-London, 1971.
References [1] Baryakh A.A., Samodelkina N.A., Rheological analysis of geomechanical processes, Journal of Mining Science. 41(6) (2005) 522-530
,Water-tight stratum failure under large-scale mining, Part I, Journal of Mining Science. 48(5) (2012) 771-780
[3] Baryakh A.A., Samodelkina N.A., Water-tight stratum rupture under large-scale mining, Part II, Journal of Mining Science. 48(6) (2012) 954-961
[4] Zienkiewich O.C., The Finite Element Method in Engineering Science, McGraw- Hill-London, 1971.
Online since: April 2013
Authors: Hui Wang, Bao Shan Yang, Shu Hua Dai
Zhu, Chinese Journal of Eco-Agriculture, vol. 16, pp. 217-222, 2008
Zhou, Advances in Earth Science, vol. 20, pp. 99-105, 2005
Liu, Advance in Earth Sciences, vol. 14, pp.358-364, 1999
Yu and et al., Journal of Environmental Management, doi:10.1016/j.jenvman. 2011.05.030
Yu and et al., Journal of Soil and Water Conservation, vol. 17, pp. 5-8, 2003
Zhou, Advances in Earth Science, vol. 20, pp. 99-105, 2005
Liu, Advance in Earth Sciences, vol. 14, pp.358-364, 1999
Yu and et al., Journal of Environmental Management, doi:10.1016/j.jenvman. 2011.05.030
Yu and et al., Journal of Soil and Water Conservation, vol. 17, pp. 5-8, 2003