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Online since: October 2011
Authors: Antonella M. Rossi, I. Cezar, G. Kammer, A. Alves, J. Calasans-Maia, M.A. Gress, M. Calasans-Maia, J.M. Granjeiro
Journal of Materials Science: Materials in Medicine 16 (2005) p.899–907
Journal of Biomedical Materials Research 50 (2000) p.353
Journal of Biomedical Materials Research. 60 (2002) p.360-367
Journal of Biomedical Materials Research 60 (2002) p.651-656
Journal of Materials Science: Materials in Medicine, 11 (2000) p.719-724
Journal of Biomedical Materials Research 50 (2000) p.353
Journal of Biomedical Materials Research. 60 (2002) p.360-367
Journal of Biomedical Materials Research 60 (2002) p.651-656
Journal of Materials Science: Materials in Medicine, 11 (2000) p.719-724
Online since: January 2026
Authors: Nandang Mufti, Rini Zaqiyah, Silvi Rahmawati Wibowo, Fadilah Wulan Cahyani, Lathifatul Lu'lu' Musyarrofah
Semarang 5 Malang 65145, Indonesia
2Center of Advanced Materials for Renewable Energy, State University of Malang, Jl.
However, many battery materials still involve hazardous substances during synthesis and are relatively high-cost.
Coalite is used as a new alternative to reduce the shortage of raw materials used in battery cathode production.
The quasi-rectangular shape of the CV curve results from the use of carbon-based electrode materials without the presence of metal oxide materials.
Ayele, “Synthesis and Characterization of Reduced Graphene Oxide (rGO) Started from Graphene Oxide (GO) Using the Tour Method with Different Parameters,” Advances in Materials Science and Engineering, vol. 2019, pp. 1–9, Aug. 2019, doi: 10.1155/2019/5058163
However, many battery materials still involve hazardous substances during synthesis and are relatively high-cost.
Coalite is used as a new alternative to reduce the shortage of raw materials used in battery cathode production.
The quasi-rectangular shape of the CV curve results from the use of carbon-based electrode materials without the presence of metal oxide materials.
Ayele, “Synthesis and Characterization of Reduced Graphene Oxide (rGO) Started from Graphene Oxide (GO) Using the Tour Method with Different Parameters,” Advances in Materials Science and Engineering, vol. 2019, pp. 1–9, Aug. 2019, doi: 10.1155/2019/5058163
Online since: May 2021
Authors: Victor Klushin, Ekaterina A. Shabliy, Nina V. Smirnova
The source of raw materials for these polymers is oil and natural gas.
The absence of toxicity inherent in PF, and the use of renewable plant materials for their production, makes them promising materials of the future.
Yin, Curing reaction of furfural acetone resin used for new carbon materials, Chinese Journal of Nonferrous Metals. 18 (2008) 953-958
Shah, Glass reinforced composites based on (epoxy-furfural-acetone) resin blends, International Journal of Polymeric Materials and Polymeric Biomaterials. 46 (2000) 293-300
Solovev, Modelling of Ultrasonic Concentrators for Processing of Volume Nanostructured Materials, Materials Science Forum, Vol. 992 (2020) 940-946.
The absence of toxicity inherent in PF, and the use of renewable plant materials for their production, makes them promising materials of the future.
Yin, Curing reaction of furfural acetone resin used for new carbon materials, Chinese Journal of Nonferrous Metals. 18 (2008) 953-958
Shah, Glass reinforced composites based on (epoxy-furfural-acetone) resin blends, International Journal of Polymeric Materials and Polymeric Biomaterials. 46 (2000) 293-300
Solovev, Modelling of Ultrasonic Concentrators for Processing of Volume Nanostructured Materials, Materials Science Forum, Vol. 992 (2020) 940-946.
Online since: March 2008
Authors: Zheng Zhang, Tian Xiang Liu, Geng Liu
The adaptive meshless model takes into account the temperature variation, micro plastic
flow, and the coupled thermo-elasto-plastic behavior of the materials, considering the
strain-hardening property of the materials and temperature-dependent yield strength.
Depending on load, sliding speed, friction coefficient and contact geometry, one may obtain sufficiently high asperity flash temperatures to cause thermal softening of materials [2] in contact.
The material properties including the modulus of elasticity E, the yield strength σY , the coefficient of thermal expansion θ, the thermal conductivity k and the Possion's ratio v are sensitive to temperature changes as well, especially the yield strength σY is sharply decreases with temperature rise for many engineering materials [3].
Acknowledgments This research was supported by the National Natural Science Foundation of China (50475146), and the Natural Science Foundation of Shaanxi Province (2004E225, 2005E226).
Trans., Vol. 42 (1999), p.763-770 [2] Crcan Y., Eraslan A.N., Thermal stresses in elastic-plastic tubes with temperature dependent mechanical and thermal properties, Journal of Thermal Stresses, Vol. 24 (2001), p.1097-1113 [3] Eraslan A.N., Crcan Y., Computation of transient thermal stresses in elastic-plastic tubes: Effect of coupling and temperature dependent physical properties, Journal of Thermal Stresses, Vol. 25 (2002), p.559-572 [4] Argeso H., Eraslan A.N., On the Use of Temperature-dependent Physical Properties in Thermomechanical Calculations for Solid and Hollow Cylinders, International Journal of Thermal Sciences, 2007 [5] Yu H., Liu S., Wang Q.
Depending on load, sliding speed, friction coefficient and contact geometry, one may obtain sufficiently high asperity flash temperatures to cause thermal softening of materials [2] in contact.
The material properties including the modulus of elasticity E, the yield strength σY , the coefficient of thermal expansion θ, the thermal conductivity k and the Possion's ratio v are sensitive to temperature changes as well, especially the yield strength σY is sharply decreases with temperature rise for many engineering materials [3].
Acknowledgments This research was supported by the National Natural Science Foundation of China (50475146), and the Natural Science Foundation of Shaanxi Province (2004E225, 2005E226).
Trans., Vol. 42 (1999), p.763-770 [2] Crcan Y., Eraslan A.N., Thermal stresses in elastic-plastic tubes with temperature dependent mechanical and thermal properties, Journal of Thermal Stresses, Vol. 24 (2001), p.1097-1113 [3] Eraslan A.N., Crcan Y., Computation of transient thermal stresses in elastic-plastic tubes: Effect of coupling and temperature dependent physical properties, Journal of Thermal Stresses, Vol. 25 (2002), p.559-572 [4] Argeso H., Eraslan A.N., On the Use of Temperature-dependent Physical Properties in Thermomechanical Calculations for Solid and Hollow Cylinders, International Journal of Thermal Sciences, 2007 [5] Yu H., Liu S., Wang Q.
Online since: July 2018
Authors: Nittaya Jaitanong, Suparut Narksitipan, Treerat Silatikunsatid
A Study on Influence of Zinc Oxide in Cement Composite Materials
Treerat Silatikunsatid1, Nittaya Jaitanong1 and Suparut Narksitipan1,*
1Program in Materials Science, Faculty of Science, Maejo University, Chiang Mai, 50290, Thailand
*snarksitipan@gmail.com
Keywords: cement, zinc oxide, composite
Abstract.
In recent years, the increasing interest in combining photocatalytic active materials with cementitious materials has been recognized in a number of publications as well as in development of some commercial products.
However, applications and advance of nanotechnology in the construction and building materials fields have been uneven.
It is widely used as an additive into numerous materials and products including plastics, ceramics, paints and glass.
Chaipanich, Microstructure, characterizations, functionality and compressive strength of cement-based materials using zinc oxide nanoparticles as an additive, Journal of Alloys and Compounds 630 (2015) 1–10
In recent years, the increasing interest in combining photocatalytic active materials with cementitious materials has been recognized in a number of publications as well as in development of some commercial products.
However, applications and advance of nanotechnology in the construction and building materials fields have been uneven.
It is widely used as an additive into numerous materials and products including plastics, ceramics, paints and glass.
Chaipanich, Microstructure, characterizations, functionality and compressive strength of cement-based materials using zinc oxide nanoparticles as an additive, Journal of Alloys and Compounds 630 (2015) 1–10
Online since: March 2023
Authors: L. Natrayan, Gori Yatika, P.K. Dhal, P. V. Arul Kumar, G. Muthu, S. Kaliappan
Advances in Materials Science and Engineering, 2021
Progress in Materials Science, 119, 100707
Journal of Materials Processing Technology, 250, 247-253
Journal of Materials Processing Technology, 255, 516-523
Journal of membrane science, 523, 596-613.
Progress in Materials Science, 119, 100707
Journal of Materials Processing Technology, 250, 247-253
Journal of Materials Processing Technology, 255, 516-523
Journal of membrane science, 523, 596-613.
Online since: October 2008
Authors: Pai Shan Pa
Hassan: Journal of Materials Processing Technology, Vol. 72 (1997), pp. 385-391
Maqableh: Journal of Materials Processing Technology, Vol. 102 (2000), pp. 115-121
Ahujab: Indian journal of engineering & materials sciences, Vol. 11 (2004) No. 5, pp. 391-396
Pa: International Journal of Materials and Product Technology, Vol. 20 (2004) No. 4, pp. 312-326
Pa: Key Engineering Materials, Vol. 329 (2006), pp. 231-236
Maqableh: Journal of Materials Processing Technology, Vol. 102 (2000), pp. 115-121
Ahujab: Indian journal of engineering & materials sciences, Vol. 11 (2004) No. 5, pp. 391-396
Pa: International Journal of Materials and Product Technology, Vol. 20 (2004) No. 4, pp. 312-326
Pa: Key Engineering Materials, Vol. 329 (2006), pp. 231-236
Online since: February 2026
Authors: A. Shashikala, H. Pakkirappa, R. Shadakshari, M. Muniraju, Prakash S. Dabeer
Journal of Materials Processing Technology, 249(2017): 538-548.
[23]
Li, H.
Journal of Materials Processing Technology,184.3(2007): 330-337. [29] Bae, I., Kim, B.
Journal of materials engineering and performance, 26.9: 4245-4254. [35] Pound, B.
Journal of Biomedical Materials Research Part B: Applied Biomaterials, 106.4(2018): 1605-1610. [36] Yan, X.
Materials Science and Engineering: A, 216.1-2(1996): 193-200. [48] Zeng, C.
Journal of Materials Processing Technology,184.3(2007): 330-337. [29] Bae, I., Kim, B.
Journal of materials engineering and performance, 26.9: 4245-4254. [35] Pound, B.
Journal of Biomedical Materials Research Part B: Applied Biomaterials, 106.4(2018): 1605-1610. [36] Yan, X.
Materials Science and Engineering: A, 216.1-2(1996): 193-200. [48] Zeng, C.
Online since: November 2010
Authors: Zhao Yong Chen, Jian Li Zhang, Hua Li Zhu, Wei Zhu, Qi Feng Li
Synthesis and electrochemical properties of LiFe0.95Ti0.05PO4/(C+LiFeP2O7) composite material
Zhaoyong Chen1,a, Jianli Zhang1,b, Huali Zhu1, c, Wei Zhu1, d, Qifeng Li1, e
1 School of Physics and Electronic Science, Changsha University of Science and Technology, Changsha, Hunan,China
achenzhaoyongcioc@126.com,bzhangjianli0718@163.com,cjuliezhu2005@126.com,
dyechujingtu@sohu.com,eliqifeng26@yahoo.com.cn
Key words: Lithium iron phosphate, TiO2, Phosphate, Composite
Abstract.
Chiang: submited to Nature Materials, (2002) [3] C.S.
Guo: submited to, Journal of Physics and Chemistry of Solids ,(2009)
Chen: submited to Journal of The Electrochemical Society, (2006)
Chen and H.L.Zhu: submited to Journal of Changsha University of Science and Technology (Natural Science).(2007)
Chiang: submited to Nature Materials, (2002) [3] C.S.
Guo: submited to, Journal of Physics and Chemistry of Solids ,(2009)
Chen: submited to Journal of The Electrochemical Society, (2006)
Chen and H.L.Zhu: submited to Journal of Changsha University of Science and Technology (Natural Science).(2007)
Online since: March 2006
Authors: Li Zhang, Lan Wu, Wei Hu Yang, Yi Zuo, Yu Bao Li, Yuan Hua Mu
In order to further optimize the present bone substitute materials and
develop new bioactive bone substitute materials that are more closer to human bone in compositions,
structures and properties, it is necessary to characterize the biomimetic properties of the composite
more deeply and comprehensively by comparing it with human bone.
HONGGUO: Materials Letters Vol.58(2004),p.719
YONGGANG: Journal of Materials Science: Materials in Medicine Vol.14(2003),p.1
YI: Journal of Materials Science Vol.38(2003),p.3303
YUBAO: European Polymer Journal Vol.40(2004),p.509
HONGGUO: Materials Letters Vol.58(2004),p.719
YONGGANG: Journal of Materials Science: Materials in Medicine Vol.14(2003),p.1
YI: Journal of Materials Science Vol.38(2003),p.3303
YUBAO: European Polymer Journal Vol.40(2004),p.509