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Online since: June 2014
Authors: M. Horprathum, C. Chananonnawathorn, T. Plirdpring, S. Limwichean, P. Eiamchai, T. Boonpichayapha, Tawat Suriwong
The tantalum oxide as nanostructure material have recently become attractive due to the particular fundamental properties that are present in such low-dimensional systems, which have unique properties different from those found in bulk scale.
The fabricated nanostructured films yielded high optical transmittance and were applicable for surface reaction devices and biocompatibility, as well as, photocatalytic materials and sensors.
Acknowledgments This work was supported by Faculty of Science and Technology, Rajamangala University of Technology Suvarnabhumi.
Zhang, Study on the anticorrosion, Biocompatibilty, and Osteoinductivity of Tantalum Decorated with Tantalum Oxide Nanotube Array Films, ACS Applied Material and Interfaces 4 (2012) 4516-4523
Thornton, Influence of apparatus geometry and deposition conditions on the structure and topography of thick sputtered coatings, Journal of Vacuum Science Technology A 11 (1974) 66.
The fabricated nanostructured films yielded high optical transmittance and were applicable for surface reaction devices and biocompatibility, as well as, photocatalytic materials and sensors.
Acknowledgments This work was supported by Faculty of Science and Technology, Rajamangala University of Technology Suvarnabhumi.
Zhang, Study on the anticorrosion, Biocompatibilty, and Osteoinductivity of Tantalum Decorated with Tantalum Oxide Nanotube Array Films, ACS Applied Material and Interfaces 4 (2012) 4516-4523
Thornton, Influence of apparatus geometry and deposition conditions on the structure and topography of thick sputtered coatings, Journal of Vacuum Science Technology A 11 (1974) 66.
Online since: November 2014
Authors: Lin Jun Wang, Ke Tang, Jian Huang, Bing Ren, Hong Ze Yu, Jun Nan Wang, Yi Ming Yang
Magnetron Sputtering
Yiming Yang a, Bing Ren b , Jian Huang c , Ke Tang d , Junnan Wang e ,
Hongze Yu f and Linjun Wang g *
School of Materials Science and Engineering, Shanghai University, No. 333 Nancheng Road, Shanghai 200444, China
ayymatshu@163.com, brb1989@shu.edu.cn, cjianhuang@shu.edu.cn, dtangke26@yahoo.com.cn, ewjnan1109@163.com, fyuhongze@aliyun.com, g *ljwang@shu.edu.cn
Keywords: r. f. magnetron sputtering; boron films; pressure; power.
Acknowledgements This work was supported by National Natural Science Foundation of China (61176072), Doctoral Fund of Ministry of Education of China (No. 20123108120021), Innovation Fund of Shanghai University (sdcx2012004) and Shanghai Funding Scheme for Youth Scholars Training (ZZSD12015, ZZSD12036) References [1] J.
[5] Zhongke Wan, Yoshiki Shimizu, et al., Fabrication of crystallized boron films by laser ablation, Journal of Solid State Chemistry. 177 (2004) 1639–1645
Devine, A surface enhanced Raman spectroscopic study of The Passive films formed in borate buffer on iron, nickel, chromium and stainless steel, Corrosion Science. 37 (1995) 17-41
Diaz-Torresb, et al., Structural and photoluminescence study of Er-Yb codoped nanocrystalline ZrO2-B2O3 solid solution, Materials Science and Engineering B. 177 (2012) 1423-1429
Acknowledgements This work was supported by National Natural Science Foundation of China (61176072), Doctoral Fund of Ministry of Education of China (No. 20123108120021), Innovation Fund of Shanghai University (sdcx2012004) and Shanghai Funding Scheme for Youth Scholars Training (ZZSD12015, ZZSD12036) References [1] J.
[5] Zhongke Wan, Yoshiki Shimizu, et al., Fabrication of crystallized boron films by laser ablation, Journal of Solid State Chemistry. 177 (2004) 1639–1645
Devine, A surface enhanced Raman spectroscopic study of The Passive films formed in borate buffer on iron, nickel, chromium and stainless steel, Corrosion Science. 37 (1995) 17-41
Diaz-Torresb, et al., Structural and photoluminescence study of Er-Yb codoped nanocrystalline ZrO2-B2O3 solid solution, Materials Science and Engineering B. 177 (2012) 1423-1429
Online since: September 2013
Authors: Xi Qing Yue, Tian Li Sun, Ping Zhang, Zhao Hui Ren, Peng Zhang
Introduction
In resent years, people continuously explore better storage methods for fresh food by developing the packaging materials, additives or MAP (Modified Atmosphere Package).
[2] Ruiyu Zhang, Cuixi Yin: Food Science & Technology Vol 2 (2006), p.113-116 (in Chinese)
[6] Jiang Shen, Xiaodong Wang, Yufeng Zhang, Suyin Wang, Bin Liu: Journal of Chemical Industry and Engineering Vol 59(2) (2008), p.99-103 (in Chinese)
[7] Pinghua Ling, Jing Xie: Food Science Vol 31 (2010), p.280-284 (in Chinese)
[12] Jing Xie, Jianxiong Li, Yingjie Pan, Shengping Yang, Hong Xiao: Journal of Shanxi Agricultural Sciences Vol 37 (2009), p. 66-71 (in Chinese)
[2] Ruiyu Zhang, Cuixi Yin: Food Science & Technology Vol 2 (2006), p.113-116 (in Chinese)
[6] Jiang Shen, Xiaodong Wang, Yufeng Zhang, Suyin Wang, Bin Liu: Journal of Chemical Industry and Engineering Vol 59(2) (2008), p.99-103 (in Chinese)
[7] Pinghua Ling, Jing Xie: Food Science Vol 31 (2010), p.280-284 (in Chinese)
[12] Jing Xie, Jianxiong Li, Yingjie Pan, Shengping Yang, Hong Xiao: Journal of Shanxi Agricultural Sciences Vol 37 (2009), p. 66-71 (in Chinese)
Online since: May 2003
Authors: Tatsuya Miyajima, Fukue Nagata, Yoshiyuki Yokogawa
The obtained microspheres were molded
with dissolved PLA in solvent and porous materials were formed by solvent evaporation.
Introduction Formation of porous materials using biodegradable microspheres would have the possibility to obtain easily three-dimensional designed materials for bone grafts[1].
Biodegradable polymers such as poly (D,L-lactide), PLA are now used as bone implant materials.
Phase of the microspheres was analyzed by XRD (MAC science, MXP3).
By the use of the microspheres, porous materials consisting of only biodegradable materials were successfully prepared under the condition at ordinary temperature and pressure.
Introduction Formation of porous materials using biodegradable microspheres would have the possibility to obtain easily three-dimensional designed materials for bone grafts[1].
Biodegradable polymers such as poly (D,L-lactide), PLA are now used as bone implant materials.
Phase of the microspheres was analyzed by XRD (MAC science, MXP3).
By the use of the microspheres, porous materials consisting of only biodegradable materials were successfully prepared under the condition at ordinary temperature and pressure.
Online since: January 2017
Authors: Omid Nabinejad, Sujan Debnath, Mohammad Mohsen Taheri
Using new technologies to produce green materials has become an attractive topic for researchers in the field of material science and engineering [2].
The utilization of OPEFBs has attracted a great deal of interest as a reinforcing agent in composite materials.
Materials & Design, 2015. 65: p. 823-830
Hassan, et al., A review on oil palm empty fruit bunch fiber-reinforced polymer composite materials.
Journal of Materials Science, 2009. 45(1): p. 1-33
The utilization of OPEFBs has attracted a great deal of interest as a reinforcing agent in composite materials.
Materials & Design, 2015. 65: p. 823-830
Hassan, et al., A review on oil palm empty fruit bunch fiber-reinforced polymer composite materials.
Journal of Materials Science, 2009. 45(1): p. 1-33
Online since: May 2012
Authors: Chin Che Tin, Tamara Isaacs-Smith, Michelle T. Tin, Erika R. Crandall, Suwan P. Mendis
This paper describes the successful deposition of a Ni:P layer on 4H-SiC through electroless nickel plating followed by a discussion of the results of surface science and electrical measurements.
Lemiti, Electrical and structural characterization of electroless nickel–phosphorus contacts for silicon solar cell metallization, Journal of The Electrochemical Society 157 (2010) H742
Davis, A critical review of ohmic and rectifying contacts for silicon carbide, Materials Science and Engineering: B 34 (1995) 83
Lemiti, Electrical and structural characterization of electroless nickel–phosphorus contacts for silicon solar cell metallization, Journal of The Electrochemical Society 157 (2010) H742
Davis, A critical review of ohmic and rectifying contacts for silicon carbide, Materials Science and Engineering: B 34 (1995) 83
Online since: September 2010
Authors: Q.Z. Yang, R.S. Ng, H.C. Low, Y.P. Zhang, G.J. Qi
A further
breakdown to the material cost reveals that among all the materials involved, the cost of NiO powder
takes 73.6% of the total material cost.
Other raw materials, such as additives (13.5%) and sulfuric acid (12.9%), only take small portions of the total.
Reddy: J. of Hazardous Materials Vol. 176 (2010), p.1122-1125
Donati: Journal of Hazardous Materials Vol.154(1-3) (2008), p.804-810
Sci. and Eng., Elsevier Science, Oxford (2000), pp.1718-1727
Other raw materials, such as additives (13.5%) and sulfuric acid (12.9%), only take small portions of the total.
Reddy: J. of Hazardous Materials Vol. 176 (2010), p.1122-1125
Donati: Journal of Hazardous Materials Vol.154(1-3) (2008), p.804-810
Sci. and Eng., Elsevier Science, Oxford (2000), pp.1718-1727
Online since: December 2012
Authors: Kai Fu Zhang, Hui Cheng, Yuan Li, Bin Luo
Introduction
Carbon Fiber Reinforced Plastics (CFRP) materials are increasingly used in various fields of science and engineering, because of their particular mechanical and physical properties such as high specific strength and high specific stiffness.
Different properties of two materials made the drilling process so complex that the delamination is rebelliousness.
The difference of the two materials’ stiffness made the thrust force increasing as the drilling process going on in S3.
Journal of Composite Materials, 45(2011) 2359-2368
Maio, A torque and thrust prediction model for drilling of composite materials.
Different properties of two materials made the drilling process so complex that the delamination is rebelliousness.
The difference of the two materials’ stiffness made the thrust force increasing as the drilling process going on in S3.
Journal of Composite Materials, 45(2011) 2359-2368
Maio, A torque and thrust prediction model for drilling of composite materials.
Online since: May 2011
Authors: Ren Zuo Wang, Shi Kai Chen, Chung Yue Wang, Bin Chin Lin
Journal of Sound and Vibration, Vol. 33 (1974), p. 49-58
Journal of Sound and Vibration, Vol. 145 (1991), p. 299-307
Journal of Mechanics, Vol. 20 (2004), No. 2, p.113-22
Journal of Mechanics, Vol. 22, No. 3 (2006), p.199-212
Journal of Sound and Vibrations, Vol. 199 (1997), p. 33-50.
Journal of Sound and Vibration, Vol. 145 (1991), p. 299-307
Journal of Mechanics, Vol. 20 (2004), No. 2, p.113-22
Journal of Mechanics, Vol. 22, No. 3 (2006), p.199-212
Journal of Sound and Vibrations, Vol. 199 (1997), p. 33-50.
Online since: July 2011
Authors: Li Lu, Yi Ren Yang, Ming Lu Zhang, Chen Guang Fan
Miller: ASME Journal of Engineering for Power Vol. 82 (1960), pp. 83-95
Dowell: AIAA Journal Vol. 33 (1995), pp. 109-115
Paidoussis: ASME Journal of Applied Mechanics Vol.67 (2000), pp. 171-176
Zhao: Journal of Vibration Engineering Vol. 5 (1992), pp. 296-305
Holmes: Journal of Sound and Vibration Vol. 90 (1983), pp. 129-155.
Dowell: AIAA Journal Vol. 33 (1995), pp. 109-115
Paidoussis: ASME Journal of Applied Mechanics Vol.67 (2000), pp. 171-176
Zhao: Journal of Vibration Engineering Vol. 5 (1992), pp. 296-305
Holmes: Journal of Sound and Vibration Vol. 90 (1983), pp. 129-155.