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Online since: April 2019
Authors: Chu Wen Guo, Qi Wen Xu, Liu Can Li
And the ratio of it is different in different materials.
Journal of Engineering Materials & Technology, 1991, 7(3):107-108
Journal of Engineering Materials & Technology Transactions of the Asme, 1984, 106(1):88
Journal of Engineering Materials & Technology Transactions of the Asme, 1984, 106(1):88
Nanjing University of Science and Technology. 2002
Journal of Engineering Materials & Technology, 1991, 7(3):107-108
Journal of Engineering Materials & Technology Transactions of the Asme, 1984, 106(1):88
Journal of Engineering Materials & Technology Transactions of the Asme, 1984, 106(1):88
Nanjing University of Science and Technology. 2002
Online since: January 2021
Authors: Lahcene Mebarki, Abdelyamine Boukhobza, Kamel Fedaoui, Lazhar Baroura, Karim Arar
Baek, Mechanical alloying process of 93W-5.6Ni-1.4Fe tungsten heavy alloy, Journal of Materials Processing Technology ,1997, Volume 63, pp. 292-297
Miguel, Mechanical-property relationships of Co/WC and CoNiFe/WC hard metal alloys, International Journal of Refractory Metals and Hard Materials.
Materials Science and Engineering: A, Volume 379, Issues 1–2, 15 August 2004, Pages 148-153
Crystallization and thermal stability of mechanically alloyed W-Ni-Fe noncrystalline materials Courtney in Materials Science and Engineering A315, 2001, Vol 315, Num 1-2, pp. 166-173, [14] S.H.
Skorodzievski Structure and Properties of Nanostructured Vacuum-Deposited Foils of Invar Fe– (35–38 wt %) Ni Alloys, Journal of Materials Science & Technology 31 (2015) 1079–1086.
Miguel, Mechanical-property relationships of Co/WC and CoNiFe/WC hard metal alloys, International Journal of Refractory Metals and Hard Materials.
Materials Science and Engineering: A, Volume 379, Issues 1–2, 15 August 2004, Pages 148-153
Crystallization and thermal stability of mechanically alloyed W-Ni-Fe noncrystalline materials Courtney in Materials Science and Engineering A315, 2001, Vol 315, Num 1-2, pp. 166-173, [14] S.H.
Skorodzievski Structure and Properties of Nanostructured Vacuum-Deposited Foils of Invar Fe– (35–38 wt %) Ni Alloys, Journal of Materials Science & Technology 31 (2015) 1079–1086.
Online since: November 2013
Authors: Hong Yan Liu, Ji Huan He, Hai Yan Kong
Nanofibers, especially aligned fibers, have different varieties of applications in filtration, artificial organ components, tissue engineering, implant material, drug delivery, wound dressing, and medical textile materials, catalytic systems, sensors and so on[4-10].
Experimental Materials Polylactide (PLA), with the molecular weight of, was bought form Shenzhen Bright China Industrial Co.
He, et al, Apparatus for preparing electrospun nanofibres: a comparative review, Materials Science and Technology, 26(2010)1275-1287 [3] Z.M.
Viswanathamurthi, et al, Preparation and morphology of palladium oxide fibers via electrospinning, Materials Letters, 58(2004) 3368-3372 [5] X.F.
Qi, et al, Imfluence of collecting velocity on fiber orientation, morphology and tensile properties of electrospun PPESK fabrics, Journal of Applied Polymer Science, 118(2010), 2236-2243
Experimental Materials Polylactide (PLA), with the molecular weight of, was bought form Shenzhen Bright China Industrial Co.
He, et al, Apparatus for preparing electrospun nanofibres: a comparative review, Materials Science and Technology, 26(2010)1275-1287 [3] Z.M.
Viswanathamurthi, et al, Preparation and morphology of palladium oxide fibers via electrospinning, Materials Letters, 58(2004) 3368-3372 [5] X.F.
Qi, et al, Imfluence of collecting velocity on fiber orientation, morphology and tensile properties of electrospun PPESK fabrics, Journal of Applied Polymer Science, 118(2010), 2236-2243
Online since: June 2013
Authors: De Gao Zhong, Bing Teng, Shu Jie Zhuang, Li Feng Cao, Ke Feng, Yong Xin Shi, Ya Nan Li, Qi Jia Guo, Ming Shun Yang
Therefore, plenty of effort has been devoted to the investigation of NLO materials.
Acknowledgements This work was financially supported by Program for National Natural Science Foundation of China (Grant No. 51172111, No. 10979029 and No. 11204148), and National Engineering Research Center for Optoelectronic Crystalline Materials (2007k08).
References [1] YAO Jian-quan, LU Yang, ZHANG Bai-gang, WANG Peng: Journal of Optoelectronics· Laser.
Lett. 69 (1996).p.13 [6] Hui Xu, Bing Teng, Zheng he Yu, Fei You, Degao Zhong,Shiming Zhang, Yuejuan Yu,Jiangtao Ma: Advanced Materials Research Vols.197-198 (2011) .pp.358-361 [7] Fei You, Jin Sun, Bing Teng, Lin-Hua Xia, Xin-Xing Jiang,Hui Xu, De-Gao Zhong3,c and Romano A Rupp:Materials Science Forum Vol. 686 (2011). pp.392-395 [8] K.
Kalainathan: Materials Research Bulletin 42 (2007) .pp.81–1887 [9] R.
Acknowledgements This work was financially supported by Program for National Natural Science Foundation of China (Grant No. 51172111, No. 10979029 and No. 11204148), and National Engineering Research Center for Optoelectronic Crystalline Materials (2007k08).
References [1] YAO Jian-quan, LU Yang, ZHANG Bai-gang, WANG Peng: Journal of Optoelectronics· Laser.
Lett. 69 (1996).p.13 [6] Hui Xu, Bing Teng, Zheng he Yu, Fei You, Degao Zhong,Shiming Zhang, Yuejuan Yu,Jiangtao Ma: Advanced Materials Research Vols.197-198 (2011) .pp.358-361 [7] Fei You, Jin Sun, Bing Teng, Lin-Hua Xia, Xin-Xing Jiang,Hui Xu, De-Gao Zhong3,c and Romano A Rupp:Materials Science Forum Vol. 686 (2011). pp.392-395 [8] K.
Kalainathan: Materials Research Bulletin 42 (2007) .pp.81–1887 [9] R.
Online since: May 2012
Authors: Yu Feng Li, Shi Fu Zhu, Yun An
In addition, different materials irradiated by microwave have different heating because different materials have reflection, absorption and transmission efficiency on microwave.
New Carbon Materials,1991,(2):12-15
Journal of Applied Polymer Science, 2010.117(3): 1837-1842
Journal of Inorganic Materials, 2003,18(2):509-512. ) [10] Zhang Wei-xin, Wang Qiang, Ren Xiang-bin.
Journal of Applied Polymer Science, 2008. 109(3):1377-1380
New Carbon Materials,1991,(2):12-15
Journal of Applied Polymer Science, 2010.117(3): 1837-1842
Journal of Inorganic Materials, 2003,18(2):509-512. ) [10] Zhang Wei-xin, Wang Qiang, Ren Xiang-bin.
Journal of Applied Polymer Science, 2008. 109(3):1377-1380
Online since: March 2014
Authors: Khaled M. Shokry
Piggott, B.Harris, Compression Strength of Carbon, Glass and Kevlar-49 Fiber Reinforced Polyester Resins, Journal of Materials Science 15 (1980)
Hull, An Introduction to Composite Materials, Cambridge University Press London, (1988)
Anand, Utilization of Fly Ash as Filler for Unsaturated Polyester Resin, Journal of Applied Polymer Science. 69. (1998).
[7] M.Paauw, A.Pizzi, Some Filler Effects on Cross-Linking of Unsaturated Polyesters, Journal of Applied Polymer Science. 50 (1993)
[8] T.Hirai, D.E.Kline, Dynamic Mechanical Properties of Graphite-Epoxy and Carbon-Epoxy Composites, Journal of Composite Materials. 7 (1973)
Hull, An Introduction to Composite Materials, Cambridge University Press London, (1988)
Anand, Utilization of Fly Ash as Filler for Unsaturated Polyester Resin, Journal of Applied Polymer Science. 69. (1998).
[7] M.Paauw, A.Pizzi, Some Filler Effects on Cross-Linking of Unsaturated Polyesters, Journal of Applied Polymer Science. 50 (1993)
[8] T.Hirai, D.E.Kline, Dynamic Mechanical Properties of Graphite-Epoxy and Carbon-Epoxy Composites, Journal of Composite Materials. 7 (1973)
Online since: January 2014
Authors: Yin Cheng, Hai Jun Yang, Wei Wei Zhou, Xi Hu, Zhong Qing Wu
Pan: Journal of Energetic Materials Vol. 19(2011), p.483-490
[2]X.M.
Wang: Journal of Energetic Materials Vol. 16(2008), p. 298-300 [3] X.H.
Zhao: Journal of Explosive Materials Vol. 37(2008), p. 33-35 [4] P.
Qian: Journal of The Safety Science and Technology of China Vol. 4(2008), p. 63-66 [5] S.P.
Chen: Journal of Polymer Materials Science & Engineering Vol. 28(2012), p. 179-182 [8]Y.
Wang: Journal of Energetic Materials Vol. 16(2008), p. 298-300 [3] X.H.
Zhao: Journal of Explosive Materials Vol. 37(2008), p. 33-35 [4] P.
Qian: Journal of The Safety Science and Technology of China Vol. 4(2008), p. 63-66 [5] S.P.
Chen: Journal of Polymer Materials Science & Engineering Vol. 28(2012), p. 179-182 [8]Y.
Online since: November 2005
Authors: Michael Korchynsky
The recent worldwide surge of steel consumption, mainly of low-strength carbon grades,
has created raw-materials shortages and price increases.
However, materials used for such a substitution must combine high weight reducing potential with low cost.
Raw materials, such as iron ore, coke, scrap, etc, are in short supply, triggering price increases.
This is evident from price increases in raw materials, energy and sea-transport fees.
For that reason microalloyed steels deserve to be classified as advanced structural materials.
However, materials used for such a substitution must combine high weight reducing potential with low cost.
Raw materials, such as iron ore, coke, scrap, etc, are in short supply, triggering price increases.
This is evident from price increases in raw materials, energy and sea-transport fees.
For that reason microalloyed steels deserve to be classified as advanced structural materials.
Online since: March 2015
Authors: John Ojur Dennis, M.G.A. Ahmed, M.A. Abdullah, Almur Abdelkreem Saeed Rabih, M.H. Md Khir
Spectrophotometry method oxidizes H2O2 using some materials like cobalt (II), iodide, or titanium to give a compound that can absorb certain wavelengths [30].
These materials have been used to enhance the electron transfer between redox proteins/enzymes and electrodes [33].
They use tubing with different materials such as Teflon®, Polypropylene, or double-wall glas chambers.
Latino, et al., "Novel sensing materials for breath analysis devices," in Engineering in Medicine and Biology Society (EMBC), 2010 Annual International Conference of the IEEE, 2010, pp. 670-673
Gupta, "Exhaled Breath Condensate Analysis in Chronic Obstructive Pulmonary Disease," Indian Journal of Chest Disease and Allied Science, vol. 54, pp. 27-37, 2012
These materials have been used to enhance the electron transfer between redox proteins/enzymes and electrodes [33].
They use tubing with different materials such as Teflon®, Polypropylene, or double-wall glas chambers.
Latino, et al., "Novel sensing materials for breath analysis devices," in Engineering in Medicine and Biology Society (EMBC), 2010 Annual International Conference of the IEEE, 2010, pp. 670-673
Gupta, "Exhaled Breath Condensate Analysis in Chronic Obstructive Pulmonary Disease," Indian Journal of Chest Disease and Allied Science, vol. 54, pp. 27-37, 2012
Online since: April 2011
Authors: Chuan Yuan Shin, Yi Wen Guo, Ruey Gwo Chung
According to experts’ or scholars’ opinions, materials will be modified so as to complete digital materials.
Traditional direct method, demonstration and materials are used in the control group.
S: National Science Council, Taiwan, NSC94-2516-S-018-002(2006)
X: National Science Council, Taiwan, NSC94-2516-S-018-005(2006)
Informing Science, InSITE - “Where Parallels Intersect”
Traditional direct method, demonstration and materials are used in the control group.
S: National Science Council, Taiwan, NSC94-2516-S-018-002(2006)
X: National Science Council, Taiwan, NSC94-2516-S-018-005(2006)
Informing Science, InSITE - “Where Parallels Intersect”