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Online since: October 2018
Authors: Maria A. Vasilyeva
Statement of the Problem
The main evaluation performance criterion for the efficiency of pipelines from polymeric materials is the hydraulic potential of the pipeline.
Piping parameters of polymeric materials with d = 315 mm.
Kushnir, Anticorrosion Coatings based on a Water-Bitumen-Polymeric Composite with High Rates of Formation, Materials science, 49/3 (2013) 404-407
Rhodes, Are tracking resistance of polymeric materials in oxygen deficient conditions, 2003 annual report conference on electrical insulation and dielectric phenomena (2003), 104-107
Chen, Interfacial dynamics in complex fluids, Journal of fluid science and technology. 11/4(2016)
Piping parameters of polymeric materials with d = 315 mm.
Kushnir, Anticorrosion Coatings based on a Water-Bitumen-Polymeric Composite with High Rates of Formation, Materials science, 49/3 (2013) 404-407
Rhodes, Are tracking resistance of polymeric materials in oxygen deficient conditions, 2003 annual report conference on electrical insulation and dielectric phenomena (2003), 104-107
Chen, Interfacial dynamics in complex fluids, Journal of fluid science and technology. 11/4(2016)
Online since: July 2011
Authors: Xian Yan Zhou, Qian Wang, Jing Hao Li, Zhong Feng Zhang
Materials and Methods
Materials. 10-year-old eucalyptus veneers came from planted forest in Guangxi Autonomous Region China.
Fiberglass mesh is a kind of GFRP materials which came from Dong lin Fiberglass Cloth Factory in Renqiu.
According to table 2, reinforced materials influenced the static bending strength of lumber.
According to table 2, elastic modulus was affected by reinforced materials on lumber.
Advanced Materials Research Vols.168-170 (2011) pp 578-581.
Fiberglass mesh is a kind of GFRP materials which came from Dong lin Fiberglass Cloth Factory in Renqiu.
According to table 2, reinforced materials influenced the static bending strength of lumber.
According to table 2, elastic modulus was affected by reinforced materials on lumber.
Advanced Materials Research Vols.168-170 (2011) pp 578-581.
Online since: October 2012
Authors: Yan Xia Li, Hai Long Weng, Fu De Wang, Hong Mei Wang, Xian Chang Zhou
Material and Methods
Testing Material.
The material testing was conducted in Heilongjiang Research Institute of Wood Science.
,Gindl Wa,et al., Longitudinal Shear Properties of European Larch Wood Related to Cell-wall Structure, Wood and Fibre Science. 2(2004), 143-151
[4] Hanguo Zhang, Xianchang Zhou, Songyan Tian, A Research on the Geographical Variations of both the Grow Process and Material Quality Traits of Larix olgensis,Forestry Science and Technology. 5(1996), 5-8
[6] Qiyi Tang, Minguang Feng, DPS Data Processing System, Science Publisher,Beijing, 2007
The material testing was conducted in Heilongjiang Research Institute of Wood Science.
,Gindl Wa,et al., Longitudinal Shear Properties of European Larch Wood Related to Cell-wall Structure, Wood and Fibre Science. 2(2004), 143-151
[4] Hanguo Zhang, Xianchang Zhou, Songyan Tian, A Research on the Geographical Variations of both the Grow Process and Material Quality Traits of Larix olgensis,Forestry Science and Technology. 5(1996), 5-8
[6] Qiyi Tang, Minguang Feng, DPS Data Processing System, Science Publisher,Beijing, 2007
Online since: February 2011
Authors: Yong Xian Liu, Cheng San Yang, Yu Lun Chi, Xue Feng Bi
Journal of materials processing technology Vol. 202 (2008), p. 475
[3] H.
International Journal of Machine Tools and Manufacture Vol. 48 (2008), p. 228 [4] M.G.
Journal of Northeastern University (Natural Science) Vol. 30 (2009), p. 1185 (in Chinese) [6] J.
International Journal of Machine Tools and Manufacture Vol. 43 (2003), p. 103 [7] F.Klocke and H.
Advanced Materials Research Vol. 97-101 (2009), p.1891
International Journal of Machine Tools and Manufacture Vol. 48 (2008), p. 228 [4] M.G.
Journal of Northeastern University (Natural Science) Vol. 30 (2009), p. 1185 (in Chinese) [6] J.
International Journal of Machine Tools and Manufacture Vol. 43 (2003), p. 103 [7] F.Klocke and H.
Advanced Materials Research Vol. 97-101 (2009), p.1891
Online since: October 2011
Authors: Wen Tao Zhang, Lei Zhang, Zhi Yong Wu
This hypothesis is supported by the fact that a wide range of ductile materials, such as pure metals and polymers, have been successfully deposited [9].
Khor: Advanced Engineering Materials Vol. 9(2007), p. 418-423 [2] S.
Liu: Materials Letters Vol. 60(2006), p. 2627-2632 [5] R.C.
Helfritch: Applied Surface Science Vol. 219(2003), p.211-227 [7] T.
Gao: Applied Surface Science Vol. 255(2009), p.7878-7892 [9] T.
Khor: Advanced Engineering Materials Vol. 9(2007), p. 418-423 [2] S.
Liu: Materials Letters Vol. 60(2006), p. 2627-2632 [5] R.C.
Helfritch: Applied Surface Science Vol. 219(2003), p.211-227 [7] T.
Gao: Applied Surface Science Vol. 255(2009), p.7878-7892 [9] T.
Online since: February 2012
Authors: Hai Hong Wu, Yong Feng Cheng, Xing Zhi Sun
Experiments
Materials
The 304 SSF used in the experiments were made by Huitong Advanced Material Company in China.
Journal of Polymer Science, Part B:Polymer Physics 2004;42(11):2161-7
Journal of Polymer Science, Part B: Polymer Physics 2003;41(17):2079-89
Advanced Materials 2005; 17:1186-91
Chemistry of Materials 2007;19:3787-92
Journal of Polymer Science, Part B:Polymer Physics 2004;42(11):2161-7
Journal of Polymer Science, Part B: Polymer Physics 2003;41(17):2079-89
Advanced Materials 2005; 17:1186-91
Chemistry of Materials 2007;19:3787-92
Online since: December 2011
Authors: Prita Pant, Satish Kumar Shekhawat, K.G. Suresh, V.D. Hiwarkar, Jayshri Dumbre, A. Ingle, S. Chakerbarti, K.V. Mani, Indradev Samajdar, V. Basavaraj
Seshadri, Relative effect(s) of texture and grain size on magnetic properties in a low silicon non-grain oriented electrical steel, Journal of Magnetism and Magnetic Materials 264 (2003) 75–85
[2] Chikara Kaido, Spiral core made of grain-oriented electrical steel sheet, Electrical engineering in Japan, Vol. 118, No. 3,1997
[3] Yu.
Schoppa, Aspects of the cut-edge effect stress on the power loss and flux density distribution in electrical steel sheets, JMMM, 215-216 (2000) 690-692 [5] Alexander Pulnikov, Philippe Baudouin, Jan Melkebeek Induced, Stresses due to the mechanical cutting of non-oriented electrical steels, Journal of Magnetism and Magnetic Materials 254–255 (2003) 355–357 [6] H.
Mulasalihovic, 3D-measurements of magnetic flux on joint regions of Si-Fe steel model core, Journal of Magnetism and Magnetic Materials 320 (2008) e935–e938 [7] M.
Teixeira, Angular dependence of magnetic properties of 2% silicon electrical steel, Journal of Magnetism and Magnetic Materials 226-230 (2001)1524 -1526 [8] Nicolau A.
Landgraf, Effect of deformation and annealing on the microstructure and magnetic properties of grain-oriented electrical steels, Journal of Magnetism and Magnetic Materials 304 (2006) e617–e619 [9] Ken-ichi Yamamoto and Yasumasa Yamashiro, Effect of compressive stress on hysteresis loss and magnetostriction of grain oriented Si–Fe sheets, journal of applied physics, volume 93, number 10, 2003 [10] G.
Schoppa, Aspects of the cut-edge effect stress on the power loss and flux density distribution in electrical steel sheets, JMMM, 215-216 (2000) 690-692 [5] Alexander Pulnikov, Philippe Baudouin, Jan Melkebeek Induced, Stresses due to the mechanical cutting of non-oriented electrical steels, Journal of Magnetism and Magnetic Materials 254–255 (2003) 355–357 [6] H.
Mulasalihovic, 3D-measurements of magnetic flux on joint regions of Si-Fe steel model core, Journal of Magnetism and Magnetic Materials 320 (2008) e935–e938 [7] M.
Teixeira, Angular dependence of magnetic properties of 2% silicon electrical steel, Journal of Magnetism and Magnetic Materials 226-230 (2001)1524 -1526 [8] Nicolau A.
Landgraf, Effect of deformation and annealing on the microstructure and magnetic properties of grain-oriented electrical steels, Journal of Magnetism and Magnetic Materials 304 (2006) e617–e619 [9] Ken-ichi Yamamoto and Yasumasa Yamashiro, Effect of compressive stress on hysteresis loss and magnetostriction of grain oriented Si–Fe sheets, journal of applied physics, volume 93, number 10, 2003 [10] G.
Online since: March 2015
Authors: Xiao Ling Liu, Xiao Ming Chen, Yan Xu, Chao Wang, Chen Ruan, Shou Song
[4] R Ramos, L Jacome, J Barron,et al, Journal of Hazardour Materials, vol. 90(1)(2002), p. 27-38
[5] H Hui, G Xia, W Juan, Journal of agro-environment science, vol. 30(4)(2011), p. 633-638(In Chinese)
[6] M Uysal, I Ar, Journal of Hazardous Materials, vol. 149(2) (2007), p. 482-491
[8] C Pires, A Marques, N Magan,et al, Journal of Hazardous Materials, vol. 191(1)(2011), p. 277-286
[12] M Pei, G Bao-xiang, Z Dan, Journal of agro-environment science, vol. 32(3) (2013), p. 653-660(In Chinese)
[5] H Hui, G Xia, W Juan, Journal of agro-environment science, vol. 30(4)(2011), p. 633-638(In Chinese)
[6] M Uysal, I Ar, Journal of Hazardous Materials, vol. 149(2) (2007), p. 482-491
[8] C Pires, A Marques, N Magan,et al, Journal of Hazardous Materials, vol. 191(1)(2011), p. 277-286
[12] M Pei, G Bao-xiang, Z Dan, Journal of agro-environment science, vol. 32(3) (2013), p. 653-660(In Chinese)
Online since: June 2008
Authors: Zeng Liang Gao, Wen Feng Tu, Xiao Gui Wang
Kujawski: International Journal of Fatigue, Vol. 23(2001), p.
Lee: International Journal of Fatigue, Vol. 21(1999), p.
Blahova: Materials Science and Engineering A, Vol.
Jiang and M.L.Feng: ASME Journal of Engineering Materials and Technology, Vol. 126 (2004), p. 77-86 [9] Z.H.
Jiang: Fatigue and Fracture of Engineering Materials and Structures Vol. 23(1) (2000), p. 19-32 [13] X.G.
Lee: International Journal of Fatigue, Vol. 21(1999), p.
Blahova: Materials Science and Engineering A, Vol.
Jiang and M.L.Feng: ASME Journal of Engineering Materials and Technology, Vol. 126 (2004), p. 77-86 [9] Z.H.
Jiang: Fatigue and Fracture of Engineering Materials and Structures Vol. 23(1) (2000), p. 19-32 [13] X.G.