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Online since: November 2012
Authors: Xiao Hui Hu, Pei Hong Yang
Based on the experimental materials, bond–slip behavior of the steel reinforced concrete (SRC) column is studied here.
Based on the experimental materials, bond–slip behavior of the steel reinforced concrete (SRC) columns is studied here.
The numerical calculation results which fitted the known experimental materials showed that the slip curves have the basic characteristic of quadratic curves distribute.
Bei Jing Science Publisher, 2001
Building Science.
Based on the experimental materials, bond–slip behavior of the steel reinforced concrete (SRC) columns is studied here.
The numerical calculation results which fitted the known experimental materials showed that the slip curves have the basic characteristic of quadratic curves distribute.
Bei Jing Science Publisher, 2001
Building Science.
Online since: July 2022
Authors: Olga V. Aleksandrova, V.N. Fedoseev, S.A. Loginova, Sergey Viktorovich Fedosov, Nguyen Duc Vinh Quang
Physico-Mechanical Foundations of Theoretical and Engineering Investigation on the Development to Corrosion-Resistant Materials in Buried Structures of Coastal Zones
S.V.
Procedia Environmental Sciences 20 (2014)
Elsevier Applied Science, London. 1991
Construction and Building Materials, 165, 833–845 (2018).
Construction and Building Materials, 164, 275–285 (2018).
Procedia Environmental Sciences 20 (2014)
Elsevier Applied Science, London. 1991
Construction and Building Materials, 165, 833–845 (2018).
Construction and Building Materials, 164, 275–285 (2018).
Online since: September 2018
Authors: Seenaa I. Hussein
The development of a nano level dispersion of graphene particles in a polymer matrix has opened a new and interesting area of materials science.
International Journal of Applied Science and Technolog 8, no. 2 (2015): 101-109
"Graphene based materials: past, present and future."
Progress in materials science 56, no. 8 (2011): 1178-1271
Journal of Materials Science and Chemical Engineering 3 (2015): 75-87
International Journal of Applied Science and Technolog 8, no. 2 (2015): 101-109
"Graphene based materials: past, present and future."
Progress in materials science 56, no. 8 (2011): 1178-1271
Journal of Materials Science and Chemical Engineering 3 (2015): 75-87
Online since: December 2014
- hydrogen degradation of materials
From 2006: professor in the field of material science, chief of department of hydrogen resistance of materials at the Karpenko Physico-Mechanical Institute, National Academy of Sciences of Ukraine.
Educational activities: courses at the surface engineering, material science, chemical heat treatment, bases of fracture mechanics, cold working treatment, ageing of materials for nuclear, hydrogen and forcible energetic, medical material science and biocompatible electronics
2002-2007: Professor at the Technical University of Szczecin, Institute of Materials Engineering
Reviewer of various associations and international publications in on-line, open access journal in the fields of fracture and solid mechanics and in structural and material engineering, as the International Journal of Fracture, Engineering Fracture Mechanics, Materials Science, Welding Technology Review, Maintenance Problems, Mechanical Fatigue of Metals, Tribology International, Materials Chemistry and Physics, Advances in Mechanical Engineering.
From 2006: professor in the field of material science, chief of department of hydrogen resistance of materials at the Karpenko Physico-Mechanical Institute, National Academy of Sciences of Ukraine.
Educational activities: courses at the surface engineering, material science, chemical heat treatment, bases of fracture mechanics, cold working treatment, ageing of materials for nuclear, hydrogen and forcible energetic, medical material science and biocompatible electronics
2002-2007: Professor at the Technical University of Szczecin, Institute of Materials Engineering
Reviewer of various associations and international publications in on-line, open access journal in the fields of fracture and solid mechanics and in structural and material engineering, as the International Journal of Fracture, Engineering Fracture Mechanics, Materials Science, Welding Technology Review, Maintenance Problems, Mechanical Fatigue of Metals, Tribology International, Materials Chemistry and Physics, Advances in Mechanical Engineering.
Online since: July 2022
Authors: Ton van den Boogaard, Emin Semih Perdahcioglu, Shahrzad Mirhosseini, Celal Soyarslan
In: Materials Science and Engineering: A 539 (2012), pp. 259-270
In: Journal of Materials Engineering and Performance 28.5 (2019), pp. 2903-2918
In: Materials Science and Engineering: A 560 (2013), pp. 129-139
In: Materials 13.7 (Apr. 2020)
"An approach to micro-macro modeling of heterogeneous materials".
In: Journal of Materials Engineering and Performance 28.5 (2019), pp. 2903-2918
In: Materials Science and Engineering: A 560 (2013), pp. 129-139
In: Materials 13.7 (Apr. 2020)
"An approach to micro-macro modeling of heterogeneous materials".
Online since: November 2022
Authors: Santosh Mani, Samriti Khosla, Madhavi Pradhan, Pushpendra Rai, Pradip Sarawade
These materials consist of liquid crystal in which micron size droplets of polymer is dispersed.
Proceedings of Fourth International Conference on Inventive Material Science Applications.
Journal of Materials Science 56.34 (2021): 18795-18836. https://doi.org/10.1007/s10853-021-06489-7 [38] Mhatre, Manoj M., Anuja Katariya-Jain, and Rajendra R.
ACS Applied Polymer Materials (2021).
Journal of Materials Chemistry 5.12 (1995): 2063-2072. https://doi.org/10.1039/JM9950502063
Proceedings of Fourth International Conference on Inventive Material Science Applications.
Journal of Materials Science 56.34 (2021): 18795-18836. https://doi.org/10.1007/s10853-021-06489-7 [38] Mhatre, Manoj M., Anuja Katariya-Jain, and Rajendra R.
ACS Applied Polymer Materials (2021).
Journal of Materials Chemistry 5.12 (1995): 2063-2072. https://doi.org/10.1039/JM9950502063
Online since: October 2018
Authors: M. Rajaram Narayanan, S. Nallusamy
The fatigue properties of the different materials used in wind turbines from the steel in the tower to the composites used in blade design was studied [13-15].
SMA materials have been used in vibration control applications and SMA actuators to achieve active control of the first mode of flexible beam [34-36].
International Journal of Performability Engineering, Vol. 12(3) (2016), pp. 229-239 [7] Mevada, Himanshu and Dipal Patel: Experimental determination of structural damping of different materials.
Indian Journal of Science and Technology, Vol. 9(16) (2016), pp. 01-05 [19] Aranake et al: Computational analysis of shrouded wind turbine configurations using a 3-dimensional RANS solver.
Indian Journal of Science and Technology, Vol. 9(35) (2016), pp. 01-06 [29] Peter J.
SMA materials have been used in vibration control applications and SMA actuators to achieve active control of the first mode of flexible beam [34-36].
International Journal of Performability Engineering, Vol. 12(3) (2016), pp. 229-239 [7] Mevada, Himanshu and Dipal Patel: Experimental determination of structural damping of different materials.
Indian Journal of Science and Technology, Vol. 9(16) (2016), pp. 01-05 [19] Aranake et al: Computational analysis of shrouded wind turbine configurations using a 3-dimensional RANS solver.
Indian Journal of Science and Technology, Vol. 9(35) (2016), pp. 01-06 [29] Peter J.
Online since: October 2011
Authors: Chang Long Du, Rui Zeng, Jing Zhao, Rui Xu
The structure, material and craft of the switch valve sealing bush are studied in this paper.
Through the experiments of elastic materials, we compared kinds of elastic materials’ physical characteristics and found that the nylon composites could meet the working requirements.
With the passage of working time, water diffuses inside the nylon composites through macrocrack and micro-pore space between polymers and fiber, which causes the expansion of materials and the increase of shear force, and the service life of sealing bush reduces greatly[7].
[4] R.H.Wang, L.P.Li, W.D.Zhou: Experiment and Mathematical Model of Rotary Cutting of Casing With Abrasive Water Jet, Journal of China University of Petroleum(Edition of Natural Science), Vol.34(2010)No.2,p.56
[5] Y.Y.Ma, W.H.Wang: On the Friction and Wear of Short Glass Fiber Reinforced Nylon, Mechanical Science and Technology , Vol.22(2003)No.11,p.993
Through the experiments of elastic materials, we compared kinds of elastic materials’ physical characteristics and found that the nylon composites could meet the working requirements.
With the passage of working time, water diffuses inside the nylon composites through macrocrack and micro-pore space between polymers and fiber, which causes the expansion of materials and the increase of shear force, and the service life of sealing bush reduces greatly[7].
[4] R.H.Wang, L.P.Li, W.D.Zhou: Experiment and Mathematical Model of Rotary Cutting of Casing With Abrasive Water Jet, Journal of China University of Petroleum(Edition of Natural Science), Vol.34(2010)No.2,p.56
[5] Y.Y.Ma, W.H.Wang: On the Friction and Wear of Short Glass Fiber Reinforced Nylon, Mechanical Science and Technology , Vol.22(2003)No.11,p.993
Online since: March 2011
Authors: Xiao Bo Hu, Xiu Fang Chen, Xian Gang Xu, Yan Peng, Yu Qiang Gao
Balkas: Materials Science Forum Vols. 615-617 (2009), p.3
[3] H.
Fornari: Journal of Crystal Growth Vol.290 (2006), p.137 [4] H.
Bleichner and C.Hallin: Materials Science Forum Vols. 389–391 (2002), p.1259 [5] Shizhong Wang, Jibao He: Materials Science and Engineering Vol.B83 (2001), p.8 [6] R.Tanuma, T.Tamori, Y.Yonezawa, H.Yamaguchi, H.Matsuhata,K.Fukuda and K.Aral: Materials Science Forum Vols.615-617(2009), p.251 [7] Daisuke Nakamura, Satoshi Yamaguchi, Itaru Gunjishima,Yoshiharu Hirose and Tsunenobu Kimoto: Journal of Crystal Growth Vol.304 (2007), p.57 [8] Michael Dudley,Yi Chen, XianRong Huang and Ronghui Ma: Materials Science Forum Vols.600-603(2009), p.261 [9] T.Nishiguchi, T.Furusho, T.Isshiki,K.Nishio,H.Shiomi and S.Nishino: Materials Science Forum Vols.600-603(2009),p.329 [10] D.
Edgar:Materials Science and Engineering Vol R 48 (2005),p. 1 [11] J.L.
Wellmann: Journal of Crystal Gprowth Vol.289 (2006) ,p.520 [13] D.
Fornari: Journal of Crystal Growth Vol.290 (2006), p.137 [4] H.
Bleichner and C.Hallin: Materials Science Forum Vols. 389–391 (2002), p.1259 [5] Shizhong Wang, Jibao He: Materials Science and Engineering Vol.B83 (2001), p.8 [6] R.Tanuma, T.Tamori, Y.Yonezawa, H.Yamaguchi, H.Matsuhata,K.Fukuda and K.Aral: Materials Science Forum Vols.615-617(2009), p.251 [7] Daisuke Nakamura, Satoshi Yamaguchi, Itaru Gunjishima,Yoshiharu Hirose and Tsunenobu Kimoto: Journal of Crystal Growth Vol.304 (2007), p.57 [8] Michael Dudley,Yi Chen, XianRong Huang and Ronghui Ma: Materials Science Forum Vols.600-603(2009), p.261 [9] T.Nishiguchi, T.Furusho, T.Isshiki,K.Nishio,H.Shiomi and S.Nishino: Materials Science Forum Vols.600-603(2009),p.329 [10] D.
Edgar:Materials Science and Engineering Vol R 48 (2005),p. 1 [11] J.L.
Wellmann: Journal of Crystal Gprowth Vol.289 (2006) ,p.520 [13] D.
Online since: December 2010
Authors: Chang Qing Fang, Jing Bo Hu, Ying Zhang, Rui En Yu, Min Zhang
Waste paper recycling refers to a process of regeneration-ink and other impurities being removed from waste materials and pulp fibers being recycled.
The full use of waste paper can not only result in a less consumption of raw plant fiber materials, energy and cost, also it can protect the environment by reducing emissions of solid waste.
Fig.2 Occupation rate of waste paper in paper materials in some countries and regions.
[10] Zhang Chunhui, Qin Menghua: Journal of Tianjin University of Science&Technology Vol.2 (2004), P.250-255
[16] Han Qing, Liu Huangbin and Yan Dongbo: Journal of Tianjin University of Science&Technology Vol.19 (2004), P.198-202.
The full use of waste paper can not only result in a less consumption of raw plant fiber materials, energy and cost, also it can protect the environment by reducing emissions of solid waste.
Fig.2 Occupation rate of waste paper in paper materials in some countries and regions.
[10] Zhang Chunhui, Qin Menghua: Journal of Tianjin University of Science&Technology Vol.2 (2004), P.250-255
[16] Han Qing, Liu Huangbin and Yan Dongbo: Journal of Tianjin University of Science&Technology Vol.19 (2004), P.198-202.