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Online since: July 2012
Authors: Rui Liu, Hong Li
Materials
Silk power spinning was purchased from Heng Da Textile Co., Dalian.
So we chose 1:20 as the material-solvent ratio.
Wool Textile Journal 2006;12 :5 - 8
Jiangsu Journal of Agricultural Sciences 2005;22(2):159 - 161
Journal of Yangzhou University: Agricultural and Life 2006;27(3):81 – 83
So we chose 1:20 as the material-solvent ratio.
Wool Textile Journal 2006;12 :5 - 8
Jiangsu Journal of Agricultural Sciences 2005;22(2):159 - 161
Journal of Yangzhou University: Agricultural and Life 2006;27(3):81 – 83
Online since: December 2014
Authors: Hui Liu, Jiu Lan Dai
Quality assurance and control of the analyses were ensured by using sample replicates, reference material (National Research Center for Certified Reference Materials, China), control solutions, and blanks.
Wang: Acta Science Circumstantiae. 34. 712-719 (2014)
Zhang: Acta Science Circumstantiae. 31. 987-995 (2011) [5] M.S.
Zhou: Journal of Hazardous Materials. 162. 1135-1140 (2009) [10] Y.
Qiu: Journal of Hazardous Materials. 173. 369-378 (2010) [16] J.A.
Wang: Acta Science Circumstantiae. 34. 712-719 (2014)
Zhang: Acta Science Circumstantiae. 31. 987-995 (2011) [5] M.S.
Zhou: Journal of Hazardous Materials. 162. 1135-1140 (2009) [10] Y.
Qiu: Journal of Hazardous Materials. 173. 369-378 (2010) [16] J.A.
Online since: January 2012
Authors: Wei Jun Xia, Ling Liu, Fu Quan Zhang, Cong Chang Xu
Wang: Journal of Materials Processing Technology, Vol. 124, 1-2 (2002), p.19-24
Gottstein: Materials Science and Engineering, Vol. 395, 1-2 (2005), p.338-349
Bettlesb: Materials Science and Engineering, Vol. 386, 1-2, (2004), p.205-211
Okamoto: Journal of Materials Processing Technology, Vol. 155-156, 30 (2004), p.1313-1316
[18] Watanbe H, Mukai T, Ishikawa K: Journal of Materials Science, Vol. 39, 4(2004), 1477-1480
Gottstein: Materials Science and Engineering, Vol. 395, 1-2 (2005), p.338-349
Bettlesb: Materials Science and Engineering, Vol. 386, 1-2, (2004), p.205-211
Okamoto: Journal of Materials Processing Technology, Vol. 155-156, 30 (2004), p.1313-1316
[18] Watanbe H, Mukai T, Ishikawa K: Journal of Materials Science, Vol. 39, 4(2004), 1477-1480
Online since: May 2011
Authors: Hamid Nikraz, Amin Chegenizadeh
Material used to make fibers for reinforcement may be obtained from paper, metal, nylon, polyester and other materials having widely varied physical properties.
MATERIAL Composite soils consist of two parts.
REFERENCES [1] Akbulut, S., Arasan, S. and Kalkan, E. (2007) Modification of clayey soils using scrap tire rubber and synthetic fibres, Journal of Applied Clay Science 38, 23-32
and Choi, T. (1982) “A probabilistic theory of strength of short-fibre composites with variable fibre length and orientation”, Journal of Materials Science 17, pp. 1003–1011 [8] Hoare, D.J. (1979) “Laboratory study of granular soils reinforced with randomly oriented discrete fibres”, Proceedings of the International Conference on Soil Reinforcement Paris, France 1, pp. 47–52
Journal of Geotechnical and Geoenvironmental Engineering, Vol. 130, No. 10, pp. 1-9
MATERIAL Composite soils consist of two parts.
REFERENCES [1] Akbulut, S., Arasan, S. and Kalkan, E. (2007) Modification of clayey soils using scrap tire rubber and synthetic fibres, Journal of Applied Clay Science 38, 23-32
and Choi, T. (1982) “A probabilistic theory of strength of short-fibre composites with variable fibre length and orientation”, Journal of Materials Science 17, pp. 1003–1011 [8] Hoare, D.J. (1979) “Laboratory study of granular soils reinforced with randomly oriented discrete fibres”, Proceedings of the International Conference on Soil Reinforcement Paris, France 1, pp. 47–52
Journal of Geotechnical and Geoenvironmental Engineering, Vol. 130, No. 10, pp. 1-9
Online since: July 2013
Authors: Giovanni Fabbrocino, Carmen Pannunzio, Mark J. Schulz, Vesselin Shanov, Carlo Rainieri, Yi Song
In this framework smart materials with sensing capabilities have recently gained attention.
Shi, A carbon nanotube strain sensor for structural health monitoring, Smart Materials andStructures 15 (2006) 737-748
Kwon, A carbon nanotube/cement composite with piezoresistive properties, Smart Materials and Structures 18 (2009)
Li, The influence of surfactants on the processing of multi-walled carbon nanotubes in reinforced cement matrix composites, Physica Status Solidi a-Applications and Materials Science 206 (2009) 2783–2790
Beaudoin, Electrical percolation phenomena in cement composites containing conductive fibres, Journal of Materials Science 31 (1996) 4093-4097
Shi, A carbon nanotube strain sensor for structural health monitoring, Smart Materials andStructures 15 (2006) 737-748
Kwon, A carbon nanotube/cement composite with piezoresistive properties, Smart Materials and Structures 18 (2009)
Li, The influence of surfactants on the processing of multi-walled carbon nanotubes in reinforced cement matrix composites, Physica Status Solidi a-Applications and Materials Science 206 (2009) 2783–2790
Beaudoin, Electrical percolation phenomena in cement composites containing conductive fibres, Journal of Materials Science 31 (1996) 4093-4097
Online since: October 2014
Authors: Xue Xin Yang
Weakness of the Investment of Science and Technology.
Brand Building Depends on Advanced Science and Technology.
Chinese health food developed with Chinese characteristics shares 41.5% of the total number of health food in current China market, according to TCM theory, combined with modern research results, from materials edible for medicine and food and that can be used for health food as raw materials, in accordance with the functions specified by national standards [7], which is an important component of the health food of China with unique advantage, and less investment, short development cycles and small risk.
Chen: Nutrition Health Foods, Chinese light industry publishing press, Beijing, (2001) [4] Levêque: European Journal of Epidemiology No. 21 (2006), p. 145-152
Jin: Science and Technology of Food Industry No. 9 (2005), p. 7-14.
Brand Building Depends on Advanced Science and Technology.
Chinese health food developed with Chinese characteristics shares 41.5% of the total number of health food in current China market, according to TCM theory, combined with modern research results, from materials edible for medicine and food and that can be used for health food as raw materials, in accordance with the functions specified by national standards [7], which is an important component of the health food of China with unique advantage, and less investment, short development cycles and small risk.
Chen: Nutrition Health Foods, Chinese light industry publishing press, Beijing, (2001) [4] Levêque: European Journal of Epidemiology No. 21 (2006), p. 145-152
Jin: Science and Technology of Food Industry No. 9 (2005), p. 7-14.
Online since: August 2012
Authors: Feng Jiao, Ming Zhang
Lau: Journal of Materials Processing Technology, Vol. 102 ( 2000) No. 1-3, pp. 122-127
Kuo: International Journal of Machine Tools and Manufacture, Vol. 42(1997) No.1, pp. 7-13; [4] Jeong-Du Kim and In-Hyu Choi: Journal of Materials Processing Technology, Vol.68 (1997) No. 1, pp. 89-98
[8] Tso, Pei-Lum and Chang Yao-Cheng: Advanced Materials Research, Vols. 126-128 (2010), pp 311-315
Materials Processing Technology Advanced Materials Research, v 418-420, pp. 1690-1693, 2012, [12] Zhang M: Key Engineering Materials, Vol. 392-394 (2009), pp.146-150
Li: Key Engineering Materials, Vol.416 (2009), pp.173-177.
Kuo: International Journal of Machine Tools and Manufacture, Vol. 42(1997) No.1, pp. 7-13; [4] Jeong-Du Kim and In-Hyu Choi: Journal of Materials Processing Technology, Vol.68 (1997) No. 1, pp. 89-98
[8] Tso, Pei-Lum and Chang Yao-Cheng: Advanced Materials Research, Vols. 126-128 (2010), pp 311-315
Materials Processing Technology Advanced Materials Research, v 418-420, pp. 1690-1693, 2012, [12] Zhang M: Key Engineering Materials, Vol. 392-394 (2009), pp.146-150
Li: Key Engineering Materials, Vol.416 (2009), pp.173-177.
Online since: December 2010
Authors: Hui Pan, Yuan Bo Huang, Y. Hse Chung, Zhi Feng Zheng
Experimental
Materials.
Glasser: Journal Applied Polymer Science, Vol. 29 (1984), p. 1111
Bagley: Journal of Applied Polymer Science, Vol. 44 (1992), p. 1477
Shiraishi: Journal of Applied Polymer Science, 78 (2000), p. 319
Xu: Polymer Materials Science and Engineering, 19 (2003), p. 194.
Glasser: Journal Applied Polymer Science, Vol. 29 (1984), p. 1111
Bagley: Journal of Applied Polymer Science, Vol. 44 (1992), p. 1477
Shiraishi: Journal of Applied Polymer Science, 78 (2000), p. 319
Xu: Polymer Materials Science and Engineering, 19 (2003), p. 194.
Online since: December 2016
Authors: Saidat Olanipekun Giwa, Abel Adekanmi Adeyi, Abdulwahab Giwa
Biodiesels are typically made from renewable organic raw materials such as jatropha, soybean or rapeseed oils, animal fats, waste vegetable oils or microalgae oils [2].
Apart from that, this process combines the benefits of equilibrium reaction with distillation in order to achieve a substantial progress in promoting reaction conversion as a result of constant recycling of unconverted materials and removal of products.
Jimmy, Microwave assisted to biodiesel production from palm oil in time and material feeding frequency, International Journal of ChemTech Research, 8(4) (2015) 1695-1700
Giwa, Modelling and simulation of a reactive distillation process for fuel additive production, Journal of Environmental Science, Computer Science and Engineering & Technology, Section C: Engineering & Technology, 5(1) (2016) 63-74
Giwa, PI and PID Control of a fuel additive reactive distillation process, ARPN Journal of Engineering and Applied Sciences, 11(11) (2016) 6779-6793
Apart from that, this process combines the benefits of equilibrium reaction with distillation in order to achieve a substantial progress in promoting reaction conversion as a result of constant recycling of unconverted materials and removal of products.
Jimmy, Microwave assisted to biodiesel production from palm oil in time and material feeding frequency, International Journal of ChemTech Research, 8(4) (2015) 1695-1700
Giwa, Modelling and simulation of a reactive distillation process for fuel additive production, Journal of Environmental Science, Computer Science and Engineering & Technology, Section C: Engineering & Technology, 5(1) (2016) 63-74
Giwa, PI and PID Control of a fuel additive reactive distillation process, ARPN Journal of Engineering and Applied Sciences, 11(11) (2016) 6779-6793
Online since: March 2010
Authors: Rui Dong Xu, Jun Li Wang, Yu Zhi Zhang
Research of Characteristics of Ni-W-P Nanocomposites Containing CeO2
and SiO2 Particles
Junli Wang1,a, Ruidong Xu2, b*
and Yuzhi Zhang3,c
1
Research Center for Analysis and Measurement, Kunming University of Science and Technology,
Kunming, 650093, P.R China
2
Faculty of Metallurgical and Energy Engineering, Kunming University of Science and Technology,
Kunming, 650093, P.R China
3
Key Laboratory of Inorganic Coating Materials, Chinese Academy of Sciences, Shanghai, 200050,
P.R China
awangjunli78@yahoo.com.cn, brdxupaper@yahoo.com.cn, czhyzh@126.com
Keywords: Pulse electrodepositon, Nanocomposites, Structures, Properties.
Pulse parameters were: forward and reverse pulse duty cycles were controlled at 10% and 30%, forward and reverse average current densities were controlled 15A/dm2 and 1.5A/dm2, forward and reverse pulse woking times were controlled at 300ms and 40ms. 316L stainless steel was used as anode materials and common carbon steel was used as substrate materials.
Acknowledgements Projects from National Natural Science Foundation of China, Opening Project of Key Laboratory of Inorganic Coating Materials of Chinese Academy of Sciences, Applied Basic Research Plans Program and Back-up Personnel Foundation of Academic and Technology Leaders of Yunnan Province of China, Scientific Research Fund of Yunan Provincial Education Department of China, are acknowledged.
References [1] K.Nabeen,Shrestha,S.Kazuaki,M.Masabumi and S.Tetsuo:Surface and Coatings Technology Vol.140(2001),p.175 [2] Z.C.Guo and X.Y.Zhu:Materials Science and Engineering A Vol. 363 (2003), p.325 [3] T.Denny,L.Ronny and B.Andreas:Electrochimica Acta Vol.52(2007),p.7362 [4] A.F.Zimmerman,D.G.Clark,K.T.Aust and U.
Erb:Materials Letters Vol.52(2002), p.85 [5] R.D.Xu,J.L.Wang,Z.C.Guo and H.Wang:Journal of Rare Earths Vol.26(2008),p.579 [6] R.D.Xu,J.L.Wang, L.F.He and Z.C.Guo.Surface and Coatings Technology Vol. 202(2008),p.1574 [7] R.D.Xu,J.L.Wang,Z.C.Guo and H.Wang:Journal of Aeronautical Materials Vol.28(2008), p.46 [8] R.D.Xu,J.L.Wang,Z.C.Guo and H.Wang: Journal of Materials Engineering (2008), p.17 [9] D.S.Wang,Y.H.Huan and Z.J.Tian:Electromachining & Mould Vol.31(2007), p.28
Pulse parameters were: forward and reverse pulse duty cycles were controlled at 10% and 30%, forward and reverse average current densities were controlled 15A/dm2 and 1.5A/dm2, forward and reverse pulse woking times were controlled at 300ms and 40ms. 316L stainless steel was used as anode materials and common carbon steel was used as substrate materials.
Acknowledgements Projects from National Natural Science Foundation of China, Opening Project of Key Laboratory of Inorganic Coating Materials of Chinese Academy of Sciences, Applied Basic Research Plans Program and Back-up Personnel Foundation of Academic and Technology Leaders of Yunnan Province of China, Scientific Research Fund of Yunan Provincial Education Department of China, are acknowledged.
References [1] K.Nabeen,Shrestha,S.Kazuaki,M.Masabumi and S.Tetsuo:Surface and Coatings Technology Vol.140(2001),p.175 [2] Z.C.Guo and X.Y.Zhu:Materials Science and Engineering A Vol. 363 (2003), p.325 [3] T.Denny,L.Ronny and B.Andreas:Electrochimica Acta Vol.52(2007),p.7362 [4] A.F.Zimmerman,D.G.Clark,K.T.Aust and U.
Erb:Materials Letters Vol.52(2002), p.85 [5] R.D.Xu,J.L.Wang,Z.C.Guo and H.Wang:Journal of Rare Earths Vol.26(2008),p.579 [6] R.D.Xu,J.L.Wang, L.F.He and Z.C.Guo.Surface and Coatings Technology Vol. 202(2008),p.1574 [7] R.D.Xu,J.L.Wang,Z.C.Guo and H.Wang:Journal of Aeronautical Materials Vol.28(2008), p.46 [8] R.D.Xu,J.L.Wang,Z.C.Guo and H.Wang: Journal of Materials Engineering (2008), p.17 [9] D.S.Wang,Y.H.Huan and Z.J.Tian:Electromachining & Mould Vol.31(2007), p.28