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Online since: April 2011
Authors: Riaz Muhammad, Vadim V. Silberschmidt, Naseer Ahmed, Yasir Maqbool Shariff
Mimura, Numerical evaluation of measurement accuracy of non coaxial Hopkinson bar method, International Journal Series A Solid Mechanics and materials Engineering, Vol. 48: (2005), p. 215-221
Siemers, Finite element simulation of segmented chip formation of Ti6Al4V, Journal of Manufacturing Science and Engineering (Trans ASME), Vol. 124: (2002), p. 485-488
Elharif, Numerical simulation of orthogonal cutting by incremental elasto-plastic analysis and finite element method, Journal of Materials Processing Technology, Vol. 141: (2003), p. 181-188
Altan, A finite element analysis of orthogonal machining using different tool edge geometries, Journal of Materials Processing Technology Vol. 146: (2004), p. 72-81
International Journal of Mechanical Sciences, Vol. 44: (2002), p. 703-723
Siemers, Finite element simulation of segmented chip formation of Ti6Al4V, Journal of Manufacturing Science and Engineering (Trans ASME), Vol. 124: (2002), p. 485-488
Elharif, Numerical simulation of orthogonal cutting by incremental elasto-plastic analysis and finite element method, Journal of Materials Processing Technology, Vol. 141: (2003), p. 181-188
Altan, A finite element analysis of orthogonal machining using different tool edge geometries, Journal of Materials Processing Technology Vol. 146: (2004), p. 72-81
International Journal of Mechanical Sciences, Vol. 44: (2002), p. 703-723
Online since: October 2012
Authors: T.C. Kanish, S. Narayanan, P. Kuppan
The basic principle of the MFAAF process for finishing of flat and cylindrical surfaces were studied by Shinmura et al. [1-4] on difficult-to-machine materials.
The material removal and surface roughness increase as the magnetic abrasive particle diameter increases.
The high level of surface finish of the work material is achieved at higher signal to noise ratio.
Kawashima, Clarification of magnetic abrasive finishing mechanism, Journal of Materials Processing Technology. 143-144 (2003) 682-686
Raghuram, Parametric study of Magnetic Abrasive finishing process, journal of Materials processing technology. 149 (2004) 22-29
The material removal and surface roughness increase as the magnetic abrasive particle diameter increases.
The high level of surface finish of the work material is achieved at higher signal to noise ratio.
Kawashima, Clarification of magnetic abrasive finishing mechanism, Journal of Materials Processing Technology. 143-144 (2003) 682-686
Raghuram, Parametric study of Magnetic Abrasive finishing process, journal of Materials processing technology. 149 (2004) 22-29
Online since: June 2019
Authors: Oluwole Daniel Makinde, B. Mallikarjuna, K. Gowthami, P. Hari Prasad
It has its applications in geosciences, biology, material science, biophysics, timber industry, construction industry, food industry, material science, industrial and agricultural in water distribution and etc.
“When the properties of a material are the same in all directions, the material is said to be isotropic.
Isotropic porous medium has received great attention during the last decades due to its applications in fibrous insulation materials in building engineering applications, geothermal, environmental engineering, tissue engineering, drug delivery, Nano porous materials etc.
Cheng, Material Coefficients of anisotropic poroelasticity, Elsevier science Ltd, 34, 199-205(1997)
[4] M.S.MalaShetty, Mahantesh Swamy, The onset of convection in a binary fluid saturated anisotopic porous layer, International journal of Thermal sciences 49, 867-878 (2010)
“When the properties of a material are the same in all directions, the material is said to be isotropic.
Isotropic porous medium has received great attention during the last decades due to its applications in fibrous insulation materials in building engineering applications, geothermal, environmental engineering, tissue engineering, drug delivery, Nano porous materials etc.
Cheng, Material Coefficients of anisotropic poroelasticity, Elsevier science Ltd, 34, 199-205(1997)
[4] M.S.MalaShetty, Mahantesh Swamy, The onset of convection in a binary fluid saturated anisotopic porous layer, International journal of Thermal sciences 49, 867-878 (2010)
Online since: March 2010
Authors: Jian Zhou, Wen Yi Chen, Ying Liu
Introduction
Nano-materials have attracted great attentions from all over the world.
Acknowledgement This work was financially supported by the Natural Science Foundation of Hubei Province under grant No. (2008CDB268) References [1] K .Lu, L.Lu: Journal of Metal, Vol.36 (2000), p.785-796 [2] C.T.
Man , et al.: Materials Letters, Vol.60(2006),p.2419-2425
[3] C.l.Liu, D.Z.Yang , G.Q.Lin, et al.: Materials Letters, Vol.59(2005),p.3813-3819
[5] W.Ye, Y .Li: Journal of Chinese Society for Corrosion and Protection,Vol.28[1](2008),p.25-27 [6] W.Y.Chen, J.Zhou, Y.Liu: Advanced Materials Research, Vol. 66 (2009),p.151-157
Acknowledgement This work was financially supported by the Natural Science Foundation of Hubei Province under grant No. (2008CDB268) References [1] K .Lu, L.Lu: Journal of Metal, Vol.36 (2000), p.785-796 [2] C.T.
Man , et al.: Materials Letters, Vol.60(2006),p.2419-2425
[3] C.l.Liu, D.Z.Yang , G.Q.Lin, et al.: Materials Letters, Vol.59(2005),p.3813-3819
[5] W.Ye, Y .Li: Journal of Chinese Society for Corrosion and Protection,Vol.28[1](2008),p.25-27 [6] W.Y.Chen, J.Zhou, Y.Liu: Advanced Materials Research, Vol. 66 (2009),p.151-157
Online since: April 2015
Authors: Wei Ping Chen, Yong Zeng, Xiao Mei Li, Hua Qiang Xiao
Materials Science and Engineering. 1997, 239-240(652-657
Journal of Materials Science & Technology. 2010, 26(5):385-416
Journal of Wuhan University of Technology(Materials Science). 2006, 21(2):14-16
Materials Science and Engineering. 2001, 300(1-2):1-11
Materials Science and Engineering. 2006, 428(1-2):54-58
Journal of Materials Science & Technology. 2010, 26(5):385-416
Journal of Wuhan University of Technology(Materials Science). 2006, 21(2):14-16
Materials Science and Engineering. 2001, 300(1-2):1-11
Materials Science and Engineering. 2006, 428(1-2):54-58
Online since: July 2022
Authors: Yulia A. Sokolova, Alla G. Sokolova, Marina Akulova, Baizak Isakulov, Abilkhair Isakulov
Regardless the attempts to apply these by-products in the manufacturing of binders for modern building materials, high toxicity level of the processed raw materials performs as a constraint.
Internet-journal Naukovedenie 8 (4), 1-8 (2016) [2] Akulova, M.V., Isakulov, B.R.
Research of waste of aluminum production as the raw components in technology of composite cementing materials.
IOP Conference Series: Materials Science and Engineering 869 (3), 032005 (2020) [10] Vainshtein, M.Z.
Physico-chemical processes of structure formation in building materials from mineral waste industry.
Internet-journal Naukovedenie 8 (4), 1-8 (2016) [2] Akulova, M.V., Isakulov, B.R.
Research of waste of aluminum production as the raw components in technology of composite cementing materials.
IOP Conference Series: Materials Science and Engineering 869 (3), 032005 (2020) [10] Vainshtein, M.Z.
Physico-chemical processes of structure formation in building materials from mineral waste industry.
Online since: November 2012
Authors: Hussain Hamoud Al-Kayiem, Saw Chun Lin
Thus, specific heat capacity (Cp) of materials had shown enhancement by mixing with nanoparticles.
Mehling, 2003, Review on thermal Energy Storage with phase change: Materials, Heat Transfer analysis and applications, Applied Thermal Engineering, Vol 23, Pp 251-283
Buddhi, 2009, Review on Thermal Energy Storage with Phase Change Materials and Application, Renewable and Sustainable Energy Reviews, Vol.13, Pp 318-345 [4] W.
Wu: Silica Encapsulation of n-Octadecane via Sol-gel Process: A Novel Microencapsulation Phase-Change Material With Enhanced Thermal Conductivity and Performance, Journal of Colloid and Interface Sciences 343 (2010), 246 – 255
Chen: Enhancing Thermal Conductivity of Palmitic Acid based Phase Change Materials with Carbon Nanotubes as Fillers.
Mehling, 2003, Review on thermal Energy Storage with phase change: Materials, Heat Transfer analysis and applications, Applied Thermal Engineering, Vol 23, Pp 251-283
Buddhi, 2009, Review on Thermal Energy Storage with Phase Change Materials and Application, Renewable and Sustainable Energy Reviews, Vol.13, Pp 318-345 [4] W.
Wu: Silica Encapsulation of n-Octadecane via Sol-gel Process: A Novel Microencapsulation Phase-Change Material With Enhanced Thermal Conductivity and Performance, Journal of Colloid and Interface Sciences 343 (2010), 246 – 255
Chen: Enhancing Thermal Conductivity of Palmitic Acid based Phase Change Materials with Carbon Nanotubes as Fillers.
Online since: January 2009
Authors: Yu Dong Zheng, Ting Fei Xi, Yi Zao Wan, Yan Mei Chen
In Vitro Cytotoxicity Study of the Nano-Hydroxyapatite/Bacterial
Cellulose Nanocomposites
Yanmei CHEN
1, a, Tingfei XI
2, b
*, Yudong ZHENG1, c
, YizaoWAN
3, d
1
School of Materials Science and Engineering, University of Science and Technology Beijing,
Beijing 100083, China
2
National Institute for the Control of Pharmaceutical and Biological Products, Beijing 100050, China
3
School of Materials Science and Engineering, Tianjin University, Tianjin 300072, China
a
cym-1223@163.com, b,*
xitingfei@tom.com, cmcyzheng@vip.sina.com, dyzwan@tju.edu.cn
Key words: Bacterial Cellulose, Nano-hydroxyapatite, Degradation, Osteoblast, Cytotoxicity
Abstract.
They introduced that nano-materials used in the field of medical science maybe possessed potential cytoxicity[12,13].
Science Vol. 310 (2005), p. 1609 [14] G.P.
Teng: Journal of Plastic Reconstructive Surgery Vol. 2 (2005), p. 228 [15] J.
Guo: Chinese Journal of Clinical Rehabilitation Vol. 9 (2005), p. 32 [16] K.M.
They introduced that nano-materials used in the field of medical science maybe possessed potential cytoxicity[12,13].
Science Vol. 310 (2005), p. 1609 [14] G.P.
Teng: Journal of Plastic Reconstructive Surgery Vol. 2 (2005), p. 228 [15] J.
Guo: Chinese Journal of Clinical Rehabilitation Vol. 9 (2005), p. 32 [16] K.M.
Online since: July 2011
Authors: Xiao Jing Wang, Hui Han, Qi Heri Ma, Li Lv
Introduction
NiO is an important inorganic material which is applied in catalyst, battery electrode, gas sensor, magnetic material and electronic material industry [1-4].
As we know, the property and quality of nano-materials depends very much on their particle size and morphology.
Guo: Journal of Materials Science .Vol. 46 (2011), p.641 [2] X.H.
Avendano: Journal of Physical Chemistry C.
Shen: Journal of MaterialsScience.
As we know, the property and quality of nano-materials depends very much on their particle size and morphology.
Guo: Journal of Materials Science .Vol. 46 (2011), p.641 [2] X.H.
Avendano: Journal of Physical Chemistry C.
Shen: Journal of MaterialsScience.
Online since: May 2014
Authors: Wan Hua Yu, Shan Gao, Fei Liu, Su Dong Chen
Materials Science and Technology, 2007, 15(3): 338-341
Materials Science and Technology,2007, 15(6): 786-788
Journal of Tsinghua University(Science and Technology),2000, 40(5): 13-15
Materials Science & Engineering A.2013,562,211-217
Large forgings materials and heat treatment[M].
Materials Science and Technology,2007, 15(6): 786-788
Journal of Tsinghua University(Science and Technology),2000, 40(5): 13-15
Materials Science & Engineering A.2013,562,211-217
Large forgings materials and heat treatment[M].