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Influence of Severe Plastic Deformation on the PLC Effect and Mechanical Properties in Al 5XXX Alloy
Online since: July 2006
Authors: Krzysztof Jan Kurzydlowski, Pawel Widlicki, Jaroslaw Mizera, Halina Garbacz, Joanna Zdunek
Motz Materials Science and Engineering,
A301, 237-243 (2001)
[4] M.
Kurzydłowski Materials Science and Engineering A369 (2004) 151-156 [6] A.P.
Langdon Materials Science and Engineering A 391 (2005) 377-389 [7] W.Q.
Lowe Materials Science and Engineering A291 (2000) 46-53 [9] Z.P.
Islamgaliev Journal of Metastable and Nanocrystalline Materials Vol. 17 (2003) pp. 37-44 [13] Yu.
Kurzydłowski Materials Science and Engineering A369 (2004) 151-156 [6] A.P.
Langdon Materials Science and Engineering A 391 (2005) 377-389 [7] W.Q.
Lowe Materials Science and Engineering A291 (2000) 46-53 [9] Z.P.
Islamgaliev Journal of Metastable and Nanocrystalline Materials Vol. 17 (2003) pp. 37-44 [13] Yu.
Online since: September 2013
Authors: Wei Chen, Xiang Wang, Qing Zhao, Zhi Fu Cao, Yang Zhang, Zhi Feng Chen
Journal of Materials Processing Technology, Vol. 211 (2011) No.6, p.1117
Journal of Materials Processing Technology, Vol. 207 (2008) p. 1
Materials Engineering. (2010) No.7, p.54
Materials and Design.
Journal of Materials Processing Technology, Vol. 103 (2000) No.1, p.65.
Journal of Materials Processing Technology, Vol. 207 (2008) p. 1
Materials Engineering. (2010) No.7, p.54
Materials and Design.
Journal of Materials Processing Technology, Vol. 103 (2000) No.1, p.65.
Online since: October 2011
Authors: Md. Safiuddin, Mohd Zamin Jumaat, Md. Abdus Salam
Materials and Methodology
Materials.
Khayat: ACI Materials Journal Vol. 96 (1999), p. 346
Tantiwitayawanich, in: Proceedings of the 4th Thailand Materials Science and Engineering, Pathumthani, Thailand (2006), p. 1
Khayat: ACI Materials Journal Vol. 97 (2000), p. 526
Shah: ACI Materials Journal Vol. 93 (1996), p. 409
Khayat: ACI Materials Journal Vol. 96 (1999), p. 346
Tantiwitayawanich, in: Proceedings of the 4th Thailand Materials Science and Engineering, Pathumthani, Thailand (2006), p. 1
Khayat: ACI Materials Journal Vol. 97 (2000), p. 526
Shah: ACI Materials Journal Vol. 93 (1996), p. 409
Online since: July 2012
Authors: Hui Qing Sun, Yi Qiang Li, Guang Jun Xu, Xiao Zhen, Jin Li Xu, Xiu Guo Wang
Reference Materials of fentin acetate with 98.0% hallmark from Germany Dr.
Results and analysis 2.1 Linear relationship Stand curve working liquid of 0.05, 0.1, 0.5, 1.0, 5.0 and 10.0 mg/L of reference materials of fentin acetate were collocated from reference materials of fentin acetate.
Fig. 2, Chromatogram of reference materials of fentin acetate 2.3 Accuracy of method Add two concentrations of reference materials of fentin acetate in blank beet plants, beet earthnut and soils, with 5 repeats for every treatment.
[2] HANKS A.R., Titrimetric determination of maneb in formulations containing fentin acetate or fentin hydroxide: CIPAC collaborative study, Journal of AOAC International. 75(1992)69-71
[3] LI Ying, LI Bin, LIU Li, etc, Simultaneous determination of ten organotin compounds in polyvinyl chloride plastics using gas chromatography-mass spectrometry[J], Chinese Journal of Chromatography. 27(2009) 69-73
Results and analysis 2.1 Linear relationship Stand curve working liquid of 0.05, 0.1, 0.5, 1.0, 5.0 and 10.0 mg/L of reference materials of fentin acetate were collocated from reference materials of fentin acetate.
Fig. 2, Chromatogram of reference materials of fentin acetate 2.3 Accuracy of method Add two concentrations of reference materials of fentin acetate in blank beet plants, beet earthnut and soils, with 5 repeats for every treatment.
[2] HANKS A.R., Titrimetric determination of maneb in formulations containing fentin acetate or fentin hydroxide: CIPAC collaborative study, Journal of AOAC International. 75(1992)69-71
[3] LI Ying, LI Bin, LIU Li, etc, Simultaneous determination of ten organotin compounds in polyvinyl chloride plastics using gas chromatography-mass spectrometry[J], Chinese Journal of Chromatography. 27(2009) 69-73
Online since: June 2004
Authors: S. Hayashi, B. Heying, B. Poust, M.S. Goorsky
Goorsky
1
1
Department of Materials Science and Engineering
University of California, Los Angeles CA 90095 USA
2
Northrop Grumman Space Technology
Redondo Beach, CA 90278 USA
Keywords: Ion implantation, wafer bonding, GaN, high resolution x-ray diffraction
Abstract.
It is noted that the radial pattern of blistering follows the material quality of the GaN, with broad peaks (highly defective material) found in the center of the wafer and more narrow peaks towards the edges.
Journal Title and Volume Number (to be inserted by the publisher) 3 Fig. 3.
From previous work, it is known that hydrogen is very mobile in other III-V materials at 300 °C, i.e. a large amount of strain relaxation is seen even if no blistering of the surface occurs.
Electronic Materials Vol. 29 (2000), p. 928 [6] S.
It is noted that the radial pattern of blistering follows the material quality of the GaN, with broad peaks (highly defective material) found in the center of the wafer and more narrow peaks towards the edges.
Journal Title and Volume Number (to be inserted by the publisher) 3 Fig. 3.
From previous work, it is known that hydrogen is very mobile in other III-V materials at 300 °C, i.e. a large amount of strain relaxation is seen even if no blistering of the surface occurs.
Electronic Materials Vol. 29 (2000), p. 928 [6] S.
Online since: November 2011
Authors: Li Juan An, Zhi Hui Sun, Jun Wang, Tie Feng Zhang, Han Lin Yang
The use of optical conductivity of nano-sized ZnO can be used as image recording materials, electronic photography, electric recording paper etc.
Direct precipitation method provides a practical way for low cost and large-scale production, which does not need expensive raw materials and is expected to realize industrialization.
In this paper, ZnO nanoparticles were prepared by direct precipitation method using Zn(NO3)2 and (NH4)2CO3 as raw materials.
[3] Liu Yang, Zhou Jian-er and Andre Larbot: Journal of Materials Processing Technology.
Buscaglia: Journal of the European Ceramic Society.
Direct precipitation method provides a practical way for low cost and large-scale production, which does not need expensive raw materials and is expected to realize industrialization.
In this paper, ZnO nanoparticles were prepared by direct precipitation method using Zn(NO3)2 and (NH4)2CO3 as raw materials.
[3] Liu Yang, Zhou Jian-er and Andre Larbot: Journal of Materials Processing Technology.
Buscaglia: Journal of the European Ceramic Society.
Online since: October 2014
Authors: Xin Wang, Ye Tian, Peng Cheng Zhao, Yang Tao Yu
aYuyangtao312@163.com
Keywords: Nano spinning technology, nano materials, the high voltage electrostatic spinning machine, virtual prototype
Abstract: The main approach to obtain nano material is nano spinning technology at present.
International Fibers Journal.2002.12: 62~63
Electrospinning:The Quest for Nano fibers International Fiber Journal[R]. 2001,16(5): 50~53
Journal of Material Science, 2006 , 41 (12) : 3821~3824
[4]Q N X H , WAN G S Y, SANDRAT, etal Effect of LiCl on the stability length of electro-spinning jet by PAN polymer solution materials [ J ].
International Fibers Journal.2002.12: 62~63
Electrospinning:The Quest for Nano fibers International Fiber Journal[R]. 2001,16(5): 50~53
Journal of Material Science, 2006 , 41 (12) : 3821~3824
[4]Q N X H , WAN G S Y, SANDRAT, etal Effect of LiCl on the stability length of electro-spinning jet by PAN polymer solution materials [ J ].
Online since: March 2010
Authors: Zheng Yang Xu, Lei Wang
Introduction
Electrochemical machining (ECM) is an economical and effective method for machining
high-strength or high-stiffness electric-conductive materials into complicated surfaces with high
quality and high machining rate.
Xu: Journal of Materials Processing Technology Vol.129(1-3)(2002), p.15
Davydov: Journal of Materials Processing Technology Vol. 149(1-3)(2004), p.466
Bossche: Journal of Materials Processing Technology Vol. 149(1-3)(2004), p.486
Kozak: Journal of Materials Processing Technology Vol.107(1-3)(2000), p.300.
Xu: Journal of Materials Processing Technology Vol.129(1-3)(2002), p.15
Davydov: Journal of Materials Processing Technology Vol. 149(1-3)(2004), p.466
Bossche: Journal of Materials Processing Technology Vol. 149(1-3)(2004), p.486
Kozak: Journal of Materials Processing Technology Vol.107(1-3)(2000), p.300.
Online since: December 2012
Authors: Ming Zhe Li, Ren Jun Li, Ning Jia Qiu
International Journal of Mechanical Sciences, 2006, (48): 1046-1062
Journal of Materials Processing Technology, 2006, 172:159-162
Journal of Materials Processing Technology, 2006, 176:13-18
Multi-point forming: a flexible manufacturing method for a 3-d surface sheet [J], Journal of Materials Processing Technology 1999 (87): 277-280
Kohser, Materials and Processes in Manufacturing [M], Wiley, ISBN 0-471-65653-4, 2003
Journal of Materials Processing Technology, 2006, 172:159-162
Journal of Materials Processing Technology, 2006, 176:13-18
Multi-point forming: a flexible manufacturing method for a 3-d surface sheet [J], Journal of Materials Processing Technology 1999 (87): 277-280
Kohser, Materials and Processes in Manufacturing [M], Wiley, ISBN 0-471-65653-4, 2003
Online since: May 2017
Authors: Stepan N. Nikitin, Boris A. Tarasov, Dmitry P. Shornikov, Maria S. Tarasova, Igor I. Konovalov
(in Russian)
[2] Hofman G.L., Snelgrove J.L., Dispersion Fuel, Materials Science and Technology, vol. 10A, ed.
[13] Olander D., Growth of the interaction layer around fuel particles in dispersion fuel, Journal of Nuclear Materials 383 (2009) 201-208
Transmission electron microscopy investigation of irradiated U–7wt% Mo dispersion fuel, Journal of Nuclear Materials 375 (2008) 340-346
[17] Gan J. et al., Transmission electron microscopy characterization of irradiated U–7Mo/Al–2Si dispersion fuel, Journal of Nuclear Materials 396 (2010) 234-239
[23] Sizmann R., The effect of radiation upon diffusion in metals, Journal of Nuclear Materials 69 (1978) 386-412
[13] Olander D., Growth of the interaction layer around fuel particles in dispersion fuel, Journal of Nuclear Materials 383 (2009) 201-208
Transmission electron microscopy investigation of irradiated U–7wt% Mo dispersion fuel, Journal of Nuclear Materials 375 (2008) 340-346
[17] Gan J. et al., Transmission electron microscopy characterization of irradiated U–7Mo/Al–2Si dispersion fuel, Journal of Nuclear Materials 396 (2010) 234-239
[23] Sizmann R., The effect of radiation upon diffusion in metals, Journal of Nuclear Materials 69 (1978) 386-412