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Online since: February 2014
Authors: Hui Rong Liang
The absorption law of the eosin dye on the nano materials TiO2 was researched in this paper.
Figure 7 The effect of the TiO2 amount on the absorption amount, Q Figure 8 The effect of the TiO2 amount on the absorption rate, E Conclusions The absorption law of the eosin dye on the nano materials TiO2 was investigated in this paper.
References [1] Li Y, Guo M, et al: International Journal of Hydrogen Energy Vol. 34 (2009), p. 5629
[3] Meng N, Leung MKH, Leung DYC, et al: Solar Energy Materials and Solar Cells Vol. 90 (2006), p. 2000
[8] Liang HR, Guo LJ: Advanced Materials Research Vol. 512 (2012), p. 1426.
Figure 7 The effect of the TiO2 amount on the absorption amount, Q Figure 8 The effect of the TiO2 amount on the absorption rate, E Conclusions The absorption law of the eosin dye on the nano materials TiO2 was investigated in this paper.
References [1] Li Y, Guo M, et al: International Journal of Hydrogen Energy Vol. 34 (2009), p. 5629
[3] Meng N, Leung MKH, Leung DYC, et al: Solar Energy Materials and Solar Cells Vol. 90 (2006), p. 2000
[8] Liang HR, Guo LJ: Advanced Materials Research Vol. 512 (2012), p. 1426.
Online since: October 2013
Authors: Kai Yong Jiang, Jie Yan
Experimental
As starting material, high purity powders of electrolytic copper(<75μm)and titanium carbide powder(<45μm)were used.
The composites electric conductivity is connected with material composition and internal organization, also with the material milling process.
With increasing the milling time, deformation and fracture of powder filled in the pores, causing the relative density increased and porosity reduction, particle need to undergo large deformations to file pores, so reaches a certain density, prolonging ball milling time the material density increase is not obvious.
Acknowledgements This work was supported by Project of Fujian Science and Technology Innovation Platform (2011H2003) and the Fundamental Research Funds for the Central Universities No. 11QZR10 Corresponding author: Kaiyong Jiang, e-mail:jiangky@hqu.edu.cn References [1] Osman Yilmaz, Mustafa Aksoy:Journal of Materials Processing Technology Vol.110(2001),p. 177 [2] Y.
[5] F.A.da Costa,J.F.da Silva Jr,Refractory Metals & Hard Materials Vol.26 (2008) p. 207-211 [6] H.Dutta,A.Sen,S.K.Pradhan: Journal of Alloys and Compounds.Vol.501(2010),p.198 [7] L.B.Kong,J.Ma,H.Huang,R.F.Zhang: Journal of Alloys and Compounds.Vol.340(2002)L1-L4
The composites electric conductivity is connected with material composition and internal organization, also with the material milling process.
With increasing the milling time, deformation and fracture of powder filled in the pores, causing the relative density increased and porosity reduction, particle need to undergo large deformations to file pores, so reaches a certain density, prolonging ball milling time the material density increase is not obvious.
Acknowledgements This work was supported by Project of Fujian Science and Technology Innovation Platform (2011H2003) and the Fundamental Research Funds for the Central Universities No. 11QZR10 Corresponding author: Kaiyong Jiang, e-mail:jiangky@hqu.edu.cn References [1] Osman Yilmaz, Mustafa Aksoy:Journal of Materials Processing Technology Vol.110(2001),p. 177 [2] Y.
[5] F.A.da Costa,J.F.da Silva Jr,Refractory Metals & Hard Materials Vol.26 (2008) p. 207-211 [6] H.Dutta,A.Sen,S.K.Pradhan: Journal of Alloys and Compounds.Vol.501(2010),p.198 [7] L.B.Kong,J.Ma,H.Huang,R.F.Zhang: Journal of Alloys and Compounds.Vol.340(2002)L1-L4
Online since: February 2014
Authors: Yong Chen, Xin Qi Yan, Sheng Xin Liu, Wei Min Long, Jun Lan Huang, Liang Ying Zhang
Effect of Homogenization Treatment on Microstructure and Properties of ZnAl15 Alloy
Yan Xin-Qi1,2,a, Chen Yong1,b, Liu Sheng-Xin1,c*,Long Wei-Min2,d,
Huang Jun-Lan2,e, Zhang Liang-Ying1,2,f
1School of Materials Science and Engineering, Zhengzhou University,Zhengzhou 450001, P.
Introduction Zn-Al alloys are gaining increasing attention as potential substitutes for several ferrous and non-ferrous materials, due to its good mechanical properties, casting property, processability, wide raw material sources, no pollution and low price.
The raw materials were melted using high frequency induction heating in a graphite crucible to 650 °C, and held 10 min.
Zeng: Journal Agency of Special Casting & Nonferrous Alloys.
Li: Chinese Journal of Chemical Physics.
Introduction Zn-Al alloys are gaining increasing attention as potential substitutes for several ferrous and non-ferrous materials, due to its good mechanical properties, casting property, processability, wide raw material sources, no pollution and low price.
The raw materials were melted using high frequency induction heating in a graphite crucible to 650 °C, and held 10 min.
Zeng: Journal Agency of Special Casting & Nonferrous Alloys.
Li: Chinese Journal of Chemical Physics.
Online since: March 2009
Authors: Małgorzata Grądzka-Dahlke
The structure of
materials was observed with scanning electron microscope (SEM).
Materials Composite materials based on the 316L stainless steel with addition of calcium pyrophosphate were researched.
Microstructures of obtained materials are presented on Fig. 7.
Kestler: Advanced Engineering Materials Vol. 9 (2000), p. 551
Stachowiak: Journal of Materials Processing Technology Vol. 48 (1995), p. 503
Materials Composite materials based on the 316L stainless steel with addition of calcium pyrophosphate were researched.
Microstructures of obtained materials are presented on Fig. 7.
Kestler: Advanced Engineering Materials Vol. 9 (2000), p. 551
Stachowiak: Journal of Materials Processing Technology Vol. 48 (1995), p. 503
Online since: October 2015
Authors: Xiao Wang, Pin Li, Cai Lian Fan, Hui Xia Liu, Xue Jiao Zhong
Experimental Materials and Methods
Experimental Materials and Equipment.
The upper materials are ecru HDPE (40mm×80mm×3mm) and LDPE (40mm×80mm×3mm).
Liu et al: Polymer Materials Science and Engineering.
Zak, et al: Journal of Heat Transfer,Vol. 129 (2007) No. 9,pp. 1177~1186
Chen, et al: Journal of Materials Processing Technology, Vol. 210 (2010), No. 1, pp. 24~31
The upper materials are ecru HDPE (40mm×80mm×3mm) and LDPE (40mm×80mm×3mm).
Liu et al: Polymer Materials Science and Engineering.
Zak, et al: Journal of Heat Transfer,Vol. 129 (2007) No. 9,pp. 1177~1186
Chen, et al: Journal of Materials Processing Technology, Vol. 210 (2010), No. 1, pp. 24~31
Online since: December 2012
Authors: Abdallah Diha, Zakaria Boumerzoug
Wire Journal International, Vol 20, No,10,pp.25-26 and 28, The Wire Association International, Inc, Guilford, Connecticut, 1987
On Creep and Fracture of Engineering Materials and Structures, Wilshire B.
Evans R.W., eds., The Institute of Materials, London, 1990, pp. 1-9
Deformation-mechanism map: the plasticity and creep of metals and ceramics, l.Aufl, Prgamon Press, 1982 [8] Gandhi C, and Ashby M.F. ”Fracture-mechanism maps for materials which cleave: FCC, BCC and HCP metals and ceramics”, Acta Metall., 27, 1979 [9] Dubiez-Le goff S.
Application à l’évaluation de l’endommagement par fluage, La revue de Métallurgie-CIT/Science et Génie des Matériaux Mai 2001.
On Creep and Fracture of Engineering Materials and Structures, Wilshire B.
Evans R.W., eds., The Institute of Materials, London, 1990, pp. 1-9
Deformation-mechanism map: the plasticity and creep of metals and ceramics, l.Aufl, Prgamon Press, 1982 [8] Gandhi C, and Ashby M.F. ”Fracture-mechanism maps for materials which cleave: FCC, BCC and HCP metals and ceramics”, Acta Metall., 27, 1979 [9] Dubiez-Le goff S.
Application à l’évaluation de l’endommagement par fluage, La revue de Métallurgie-CIT/Science et Génie des Matériaux Mai 2001.
Online since: December 2010
Authors: Jing Min Duan
Acknowledgment
The paper is funded by the National Natural Science Foundation (No.: 50574037), moreover, achieve fund from key science and technology project of Henan Province (No.: 082102240095).
Sichuan Building Science, Vol.30 (2004).p.86-88.
Engineer Science, Vol.7(2005).p.22-25
Journal of Structural Engineering, Vol.123(1997).p.11-19
[10] BracciJ.M.Seismic Journal of Structural Engineering,vol.123 (1997).p.3-10.
Sichuan Building Science, Vol.30 (2004).p.86-88.
Engineer Science, Vol.7(2005).p.22-25
Journal of Structural Engineering, Vol.123(1997).p.11-19
[10] BracciJ.M.Seismic Journal of Structural Engineering,vol.123 (1997).p.3-10.
Online since: January 2022
Authors: Qiang Zhu, Jin Kang Peng, En Jie Dong, Juan Chen, Hong Xing Lu, Gan Li
Acknowledge
This work was financially supported by the Shenzhen Science and Technology Innovation Commission (No.
Li, A novel rheological high pressure die-casting process for preparing large thin-walled Al–Si–Fe–Mg–Sr alloy with high heat conductivity, high plasticity and medium strength, Materials Science and Engineering: A 776 2020 139040
Fan, Model for Predicting Radial Temperature Distribution of Semi-Solid Slug Produced by Swirled Enthalpy Equilibration Device (SEED) Process, Journal of Materials Processing Technology 273 2019 116236
Fan, Mold–Slug Interfacial Heat Transfer Characteristics of Different Coating Thicknesses: Effects on Slug Temperature and Microstructure in Swirled Enthalpy Equilibration Device Process, Materials 12(11) 2019 1836
Zhu, Research Progress in Semi-solid Rheoforming of Aluminium Alloys, Journal of Netshape Forming Engineering 12(3) 2020 29-48
Li, A novel rheological high pressure die-casting process for preparing large thin-walled Al–Si–Fe–Mg–Sr alloy with high heat conductivity, high plasticity and medium strength, Materials Science and Engineering: A 776 2020 139040
Fan, Model for Predicting Radial Temperature Distribution of Semi-Solid Slug Produced by Swirled Enthalpy Equilibration Device (SEED) Process, Journal of Materials Processing Technology 273 2019 116236
Fan, Mold–Slug Interfacial Heat Transfer Characteristics of Different Coating Thicknesses: Effects on Slug Temperature and Microstructure in Swirled Enthalpy Equilibration Device Process, Materials 12(11) 2019 1836
Zhu, Research Progress in Semi-solid Rheoforming of Aluminium Alloys, Journal of Netshape Forming Engineering 12(3) 2020 29-48
Online since: February 2018
Authors: Yue Ming Liu, Jian Yong Li, Zhe He, Yue Feng Wu
Introduction
Grinding is a processing method for material removal of the workpiece by using micro-cutting effect of abrasive grain.
A clearer understanding on the abrasive belt wear process is conducive to improving the grinding efficiency and reducing the cost of labor and materials.
Acknowledgement The work was supported by “The National Natural Science Foundation of China” (No.51605024) and “Science and Technology Research of China Railway Corporation” (No.M15D00170).
Study of abrasive wear in belt grinding of a close alpha titanium alloy, Journal of shandong university (engineering science), 40 (2010) 53-58
Research of the science and technology development in high-speed and efficient processing field, Journal of mechanical engineering, 46 (2010) 106-120
A clearer understanding on the abrasive belt wear process is conducive to improving the grinding efficiency and reducing the cost of labor and materials.
Acknowledgement The work was supported by “The National Natural Science Foundation of China” (No.51605024) and “Science and Technology Research of China Railway Corporation” (No.M15D00170).
Study of abrasive wear in belt grinding of a close alpha titanium alloy, Journal of shandong university (engineering science), 40 (2010) 53-58
Research of the science and technology development in high-speed and efficient processing field, Journal of mechanical engineering, 46 (2010) 106-120
Online since: December 2016
Authors: Cătălin Alexandru
Orhuna, A remotely accessible solar tracker system design, Journal of Renewable and Sustainable Energy 6(3) (2014) 033143(1-12)
Petuya, Design of a solar tracking parallel mechanism with low energy consumption, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 229(3) (2015) 566-579
Ceccarelli, Challenges for mechanism design, International Symposium on Science of Mechanisms and Machines, p. 1-13 (2009)
Krainski, Adaptive control system for drill machine, Applied Mechanics and Materials 436 (2013) 445-450
Alexandru, A novel open-loop tracking strategy for photovoltaic systems, The Scientific World Journal (2013) 205396(1-12).
Petuya, Design of a solar tracking parallel mechanism with low energy consumption, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 229(3) (2015) 566-579
Ceccarelli, Challenges for mechanism design, International Symposium on Science of Mechanisms and Machines, p. 1-13 (2009)
Krainski, Adaptive control system for drill machine, Applied Mechanics and Materials 436 (2013) 445-450
Alexandru, A novel open-loop tracking strategy for photovoltaic systems, The Scientific World Journal (2013) 205396(1-12).