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Online since: May 2020
Authors: M.N. Safonova, A.A. Fedotov, A.S. Syromiatnikova
Yan, Effect of Ti addition on the microstructure and mechanical properties of cast Mg-Gd-Y-Zn alloys, Materials science and engineering a-structural materials properties microstructure and processing. 708 (2017) 482-491
Rong, Molecular dynamics simulation on formation mechanism of grain boundary steps in micro-cutting of polycrystalline copper, Computational Materials Science. 126 (2017) 418-425
Minaev, Fundamental property of metals - grain boundaries phase transition as a basis of nanostructured layers, materials and composites production, Materials Science Forum. 654-565 (2017) 1852-1855
Kim, Study of the Influence of Natural Diamond ultrafine powders on the properties of metal matrix composites, Journal of Superhard materials. 4-1 (2018) 65-72
Fedotov, Effect of nanodispersed diamond additions on properties of composite materials based on bronze, Metal Science and Heat Treatment. 4-5,6 (2013) 229-231
Rong, Molecular dynamics simulation on formation mechanism of grain boundary steps in micro-cutting of polycrystalline copper, Computational Materials Science. 126 (2017) 418-425
Minaev, Fundamental property of metals - grain boundaries phase transition as a basis of nanostructured layers, materials and composites production, Materials Science Forum. 654-565 (2017) 1852-1855
Kim, Study of the Influence of Natural Diamond ultrafine powders on the properties of metal matrix composites, Journal of Superhard materials. 4-1 (2018) 65-72
Fedotov, Effect of nanodispersed diamond additions on properties of composite materials based on bronze, Metal Science and Heat Treatment. 4-5,6 (2013) 229-231
Online since: December 2024
Authors: Vasyl Romashko, Olena Romashko-Maistruk
Hamid, Dynamic Increase Factor of High Strength Concrete with Silica Fume at High Strain Rate Loading, Materials Science Forum, 857 (2016) 299‒304
Shi, Research on Dynamic Strength and Inertia Effect of Concrete Materials Based on Large-Diameter Split Hopkinson Pressure Bar Test, Materials, 15 (2022) 2995
Marzouk, Strain Rate Sensitivity of Fiber-Reinforced Cementitious Composites, ACI Materials Journal, 113(2) (2016) 143‒150
Ser.: Materials Science and Engineering, 1021 (2021) 012026
Romashko, Fundamentals of the General Theory of Resistance of Reinforced Concrete Elements and Structures to Power Influences, Materials Science Forum, 968 (2019) 534‒540
Shi, Research on Dynamic Strength and Inertia Effect of Concrete Materials Based on Large-Diameter Split Hopkinson Pressure Bar Test, Materials, 15 (2022) 2995
Marzouk, Strain Rate Sensitivity of Fiber-Reinforced Cementitious Composites, ACI Materials Journal, 113(2) (2016) 143‒150
Ser.: Materials Science and Engineering, 1021 (2021) 012026
Romashko, Fundamentals of the General Theory of Resistance of Reinforced Concrete Elements and Structures to Power Influences, Materials Science Forum, 968 (2019) 534‒540
Online since: June 2012
Authors: Yan Ma, Han Guo
Results and Analysis
Sample materials after preliminary working are shown as Fig. 2.
These materials are then be crushed by crushers to reach the designed width, as in Fig. 3.
Forest Science [2] Simone A E,Gibson L J.
China Medical Equipment Journal [5] Fan Q,Takatsubo J,Yamamoto S.
Journal of Applied Physics, 1999,86(7):4023-4028
These materials are then be crushed by crushers to reach the designed width, as in Fig. 3.
Forest Science [2] Simone A E,Gibson L J.
China Medical Equipment Journal [5] Fan Q,Takatsubo J,Yamamoto S.
Journal of Applied Physics, 1999,86(7):4023-4028
Online since: December 2012
Authors: Wen Biao Duan, Li Xin Chen, Jing Hua Wang, Lu Qiao
Materials and methods
Study Site
The study site is located in Tumenling Railway Forest Farm (44°06′N, 126°02′E), Jiutai, Changchun City, Jilin Province.
Journal of Jilin Agricultural University 17(1):46-51 [3] Jiang Y, Wu JG, Wang MH, et al (1998) Effects of the Undecomposed Organic Materials on the Rice Yield in the Paddy Soils.
Chinese Journal of Soil Science 29(5):203-205 [4] J.
European Journal of Soil Science, 1999, March, 50:95-106 [23] M.
European Journal of Soil Science, 2000, December, 51:655-666
Journal of Jilin Agricultural University 17(1):46-51 [3] Jiang Y, Wu JG, Wang MH, et al (1998) Effects of the Undecomposed Organic Materials on the Rice Yield in the Paddy Soils.
Chinese Journal of Soil Science 29(5):203-205 [4] J.
European Journal of Soil Science, 1999, March, 50:95-106 [23] M.
European Journal of Soil Science, 2000, December, 51:655-666
Online since: January 2021
Authors: Hong Yang Li, Song Yu, Hai Ping Deng
[4] Godwin, John, Hydroforming Starts to Make an Impression, Materials World , Insts of Materials, 1998,6(8): 483-484
,The Tube Bending Technology of a Hydroforming Process for an Automotive Part, Journal of Materials Processing Technology, 2001,111(3),:175-181
Zhang, Developments in hydroforming[J], Journal of Materials Processing Technology 91 (1999) 236–244
Materials Science & Engineering A, 2013, Vol.569: 137-143
Journal of Computer-Aided Materials Design, 2002, 9(2): 145-163
,The Tube Bending Technology of a Hydroforming Process for an Automotive Part, Journal of Materials Processing Technology, 2001,111(3),:175-181
Zhang, Developments in hydroforming[J], Journal of Materials Processing Technology 91 (1999) 236–244
Materials Science & Engineering A, 2013, Vol.569: 137-143
Journal of Computer-Aided Materials Design, 2002, 9(2): 145-163
Online since: June 2020
Authors: S.A. Halim, A.N. Jannah, H. Abdullah
Scanning Electron Microscopy (SEM) was used to observe the microstructure of fracture surface and cross section of thin film materials.
Some of the target materials are removed, escaping in the form of a plume.
Scanning Electron Microscopy (SEM) was used to observe the microstructure of fracture surface and cross section of thin film materials.
Abdullah, Journal of Physical Science, 29 (2018), p25 [9] S.
Roulet, Materials Science and Engineering, B15 (1992), p138 [11] B.
Some of the target materials are removed, escaping in the form of a plume.
Scanning Electron Microscopy (SEM) was used to observe the microstructure of fracture surface and cross section of thin film materials.
Abdullah, Journal of Physical Science, 29 (2018), p25 [9] S.
Roulet, Materials Science and Engineering, B15 (1992), p138 [11] B.
Online since: January 2015
Authors: M.I.H. Sohaimy, Mohd Ikmar Nizam Isa
Conductivity and dielectric analysis of cellulose based solid polymer electrolytes doped with ammonium carbonate (NH4CO3)
M.I.H Sohaimy1 and M.I.N Isa2,a
1 Advanced Materials Group, School of Fundamental Sciences,
2Communication and Image Development Centre,
Universiti Malaysia Terengganu, 21030 Kuala Terengganu, Terengganu, Malaysia.
Both modulus plot show a higher value at lower temperature which might be due to the material bulk effect.
Isa, Structural and DC Ionic conductivity studies of carboxy methylcellulose doped with ammonium nitrate as solid polymer electrolytes, International Journal of Physical Sciences. 8(31) (2013) 1581-1587
Nazari-Moghaddam, Catalyst-Free Conversion of Alkali Cellulose to Fine Carboxymethyl Cellulose at Mild Conditions, World Applied Sciences Journal. 6(4) (2009) 564-569
[21] A.S Samsudin, & M.I.N Isa, Structural and Ionic Transport Study on CMC Doped with NH4Br: A New Types of Biopolymer Electrolytes, Journal of Applied Sciences. 12(2) (2012) 174-179
Both modulus plot show a higher value at lower temperature which might be due to the material bulk effect.
Isa, Structural and DC Ionic conductivity studies of carboxy methylcellulose doped with ammonium nitrate as solid polymer electrolytes, International Journal of Physical Sciences. 8(31) (2013) 1581-1587
Nazari-Moghaddam, Catalyst-Free Conversion of Alkali Cellulose to Fine Carboxymethyl Cellulose at Mild Conditions, World Applied Sciences Journal. 6(4) (2009) 564-569
[21] A.S Samsudin, & M.I.N Isa, Structural and Ionic Transport Study on CMC Doped with NH4Br: A New Types of Biopolymer Electrolytes, Journal of Applied Sciences. 12(2) (2012) 174-179
Online since: December 2012
Authors: Zhi Wen Hu, Qing Qing Yao, Peng Fei Xu, Ning Yu, Zhi Qin Peng
Introduction
Humidity control materials undergo from the beginning of inorganic materials, organic polymer humidity materials and biomass humidity materials to composite humidity materials and have been applied in the field of architecture, chemical industry, conservation of culture relics, etc.
Experimental Materials.
Figure 1 Curves of effect of content of humidity control materials on (a) hygroscopicity and (b) desorption content performances Humidity control performances in amplified space.
Acknowledgements This work was financially supported by Nation Natural Science Foundation of China (No.51102214).
Vol. 16. 143-150 (2009) [3] Hailiang Yang, Zhiqin Peng, Yang Zhou, Feng Zhao, Xiaoye Cao, Jing Zhang and Zhiwen Hu: CIESC Journal.
Experimental Materials.
Figure 1 Curves of effect of content of humidity control materials on (a) hygroscopicity and (b) desorption content performances Humidity control performances in amplified space.
Acknowledgements This work was financially supported by Nation Natural Science Foundation of China (No.51102214).
Vol. 16. 143-150 (2009) [3] Hailiang Yang, Zhiqin Peng, Yang Zhou, Feng Zhao, Xiaoye Cao, Jing Zhang and Zhiwen Hu: CIESC Journal.
Online since: July 2011
Authors: Wan Shan Wang, J.Q. Zhang, Tian Biao Yu
But, they have only researched the workpiece material removal process and lacking virtual machine processing.
Acknowledgement The work described in this paper was supported by National Natural Science Foundation of China (50975043) Reference [1].
Kesavadas: Journal of Manufacturing Systems Vol. 22 (2003), pp: 16-27
Gao: Journal of System Simulation Vol. 20(2008), pp: 3183-3188
Han: Journal of System Simulation Vol. 10(1998), pp: 1-7
Acknowledgement The work described in this paper was supported by National Natural Science Foundation of China (50975043) Reference [1].
Kesavadas: Journal of Manufacturing Systems Vol. 22 (2003), pp: 16-27
Gao: Journal of System Simulation Vol. 20(2008), pp: 3183-3188
Han: Journal of System Simulation Vol. 10(1998), pp: 1-7
Online since: July 2013
Authors: Muguthu Joseph Njuguna, D. Gao
Chip morphologies are shown in Fig. 5 to Fig.7 with varying cutting speed and depth of cut and three tool materials.
Acknowledgement The Authors would like to specially thank Chinese Scholarship Council for funding this research, the School of Mechanics Engineering, Harbin Institute of Technology for providing the facilities to carry out the research and the School of Material Science in providing the Aluminum Silicon Carbide Metal Matrix Composite material.
International Journal of Advanced Technology 39 (2008) 211-218
Mortenson A (Ed). encyclopedia of materials science and technology composites 2001
Journal of Materials Processing Technology, 1998
Acknowledgement The Authors would like to specially thank Chinese Scholarship Council for funding this research, the School of Mechanics Engineering, Harbin Institute of Technology for providing the facilities to carry out the research and the School of Material Science in providing the Aluminum Silicon Carbide Metal Matrix Composite material.
International Journal of Advanced Technology 39 (2008) 211-218
Mortenson A (Ed). encyclopedia of materials science and technology composites 2001
Journal of Materials Processing Technology, 1998