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Online since: March 2016
Authors: Jumiah Hassan, Mansor Hashim, Nuraine Mariana Mohd Shahrani, Zakaria Azmi, Noruzaman Daud, Ra'ba'ah Syahidah Azis
Journal of Magnetism and Magnetic Materials, 308(1), 5–9
Journal of Magnetism and Magnetic Materials, 295(2), 145–154
Optical Materials, 31(5), 716–719
Advanced Materials Research, 501, 324–328
Journal of Magnetism and Magnetic Materials, 321(22), 3752–3757
Journal of Magnetism and Magnetic Materials, 295(2), 145–154
Optical Materials, 31(5), 716–719
Advanced Materials Research, 501, 324–328
Journal of Magnetism and Magnetic Materials, 321(22), 3752–3757
Online since: November 2022
Authors: Arsen E. Hafarov, Daria I. Trubchaninova, Andrii P. Burmak, Myroslav V. Karpets, Andreas Kaidatzis, Dimitros Niarchos, Igor A. Vladymyrskyi
Materials synthesis parameters allow tailoring the crystal structure of material for obtaining the desired properties.
Moreover, doping by alloying elements is well-known a approach to tuning the properties of magnetic materials.
Journal of Materials Processing Technology, 278 (2020) 116542. https://doi.org/10.1016/j.jmatprotec.2019.116542 [12] Y.
Ermakov, Magnetic anisotropy of MnAl and MnAlC permanent magnet materials.
Journal of materials science letters 7(4) (1998) 314-318.
Moreover, doping by alloying elements is well-known a approach to tuning the properties of magnetic materials.
Journal of Materials Processing Technology, 278 (2020) 116542. https://doi.org/10.1016/j.jmatprotec.2019.116542 [12] Y.
Ermakov, Magnetic anisotropy of MnAl and MnAlC permanent magnet materials.
Journal of materials science letters 7(4) (1998) 314-318.
Online since: July 2012
Authors: Xiu Li Jia, Xiao Gang Yu
Internatinal Journal of Plasticity.
Journal Of Materals Science.
Computational Material Science.
Finite Element Simulation Of Martensitic Phase Transitions In Elastoplastic Materials.
Wang Chuan, cubic metal materials of macro and micro mechanical behavior and martensitic transformation finite element simulation.
Journal Of Materals Science.
Computational Material Science.
Finite Element Simulation Of Martensitic Phase Transitions In Elastoplastic Materials.
Wang Chuan, cubic metal materials of macro and micro mechanical behavior and martensitic transformation finite element simulation.
Online since: January 2006
Authors: Feng Xing, Zheng Liang Cao, Liang Peng Deng, Li Dong Huang
RPC
technology can create materials that extend from those with traditional heterogeneous
characteristics normally associated with concrete to more homogeneous materials that have
isotropic properties and energy absorption capabilities that approach the characteristics of metals
[1-5].
Experiments Materials Cement: P.Ⅱ52.5 portland cement, produced by Taiheiyo cement corporation, Japan was used.
[7] XIE You-jun, LIU Bao-ju, LONG Guang-cheng: Study on Reactive Powder Concrete with Ultra-pulverized Fly Ash,Journal of Building Materials, 2001,4(3), pp. 280-284(in Chinese)
[8] LIU Juan-hong, SONG Shao-min, and MEI Shi-guang: Research for Compounding and Performance of RPC Super High Performance Cement Based Compound Materials, Journal of Wuhan University of Technology, 2001, 23(11), pp. 14-18(in Chinese)
[10] HUANG Li-dong, XING Feng, DENG Liang-peng, and HUANG Pei-hong: Study on Factors Affecting the Strength of Reactive Powder Concrete, Journal of Shenzhen University Science and Engineering, 2004, 21(2), pp. 178-182(in Chinese).
Experiments Materials Cement: P.Ⅱ52.5 portland cement, produced by Taiheiyo cement corporation, Japan was used.
[7] XIE You-jun, LIU Bao-ju, LONG Guang-cheng: Study on Reactive Powder Concrete with Ultra-pulverized Fly Ash,Journal of Building Materials, 2001,4(3), pp. 280-284(in Chinese)
[8] LIU Juan-hong, SONG Shao-min, and MEI Shi-guang: Research for Compounding and Performance of RPC Super High Performance Cement Based Compound Materials, Journal of Wuhan University of Technology, 2001, 23(11), pp. 14-18(in Chinese)
[10] HUANG Li-dong, XING Feng, DENG Liang-peng, and HUANG Pei-hong: Study on Factors Affecting the Strength of Reactive Powder Concrete, Journal of Shenzhen University Science and Engineering, 2004, 21(2), pp. 178-182(in Chinese).
Online since: July 2017
Authors: S. Muthusamy, A Arulmurugu
The numerical cutting model has the ability to find the crack propagation and chip formation that depends characteristics of the materials.
Silberschmidt (2013), ‘FE/SPH modelling of orthogonal micro-machining of f.c.c. single crystal’, Computational Materials Science Vol. 78, pp.104-109
[9] A Mahamani (2014), ‘Influence of Process Parameters on Cutting Force and Surface Roughness During Turning of AA2219-TiB2/ZrB2 In-situ Metal Matrix Composites’, Internal Journal of Procedia Materials Science Vol. 6, pp.1178-1186
Sampath (2011), ‘Effect of In-Situ TiB2 Particle Addition on the Mechanical Properties of AA 2219 Al Alloy Composite’, Journal of Minerals & Materials Characterization & Engineering Vol. 10,No.6, pp.527-534
Papini (2012), ‘Numerical simulation of solid particle impacts on Al6061-T6 Part II: Materials removal mechanisms for impact of multiple angular particles’, Wear 296 Vol. 296, pp.648-655
Silberschmidt (2013), ‘FE/SPH modelling of orthogonal micro-machining of f.c.c. single crystal’, Computational Materials Science Vol. 78, pp.104-109
[9] A Mahamani (2014), ‘Influence of Process Parameters on Cutting Force and Surface Roughness During Turning of AA2219-TiB2/ZrB2 In-situ Metal Matrix Composites’, Internal Journal of Procedia Materials Science Vol. 6, pp.1178-1186
Sampath (2011), ‘Effect of In-Situ TiB2 Particle Addition on the Mechanical Properties of AA 2219 Al Alloy Composite’, Journal of Minerals & Materials Characterization & Engineering Vol. 10,No.6, pp.527-534
Papini (2012), ‘Numerical simulation of solid particle impacts on Al6061-T6 Part II: Materials removal mechanisms for impact of multiple angular particles’, Wear 296 Vol. 296, pp.648-655
Online since: March 2013
Authors: Jin Zheng, Bo Chen, Jian Ping Wang, Peng Yun Li
The concrete material of the slab is the C40.
Acknowledgements The writers are grateful for the financial support from the National Natural Science Foundation of China (Grants. 51178366), the technology project of the China Southern Power Grid Co.
Thermal actions for concrete bridge design [J], Journal of Structural Engineering ASCE, 1993, 119 (8): 2313-2331
Temperature variation in concrete bridges[J], Journal of Structural Engineering ASCE, 1983, 109 (10): 2355-2374
Control of thermal cracking of concrete structures[J], ACI Journal, 1995, (7): 435-450
Acknowledgements The writers are grateful for the financial support from the National Natural Science Foundation of China (Grants. 51178366), the technology project of the China Southern Power Grid Co.
Thermal actions for concrete bridge design [J], Journal of Structural Engineering ASCE, 1993, 119 (8): 2313-2331
Temperature variation in concrete bridges[J], Journal of Structural Engineering ASCE, 1983, 109 (10): 2355-2374
Control of thermal cracking of concrete structures[J], ACI Journal, 1995, (7): 435-450
Online since: November 2013
Authors: Wen Zeng Guo, Xue Shan Gao, Jie Shao, Fu Quan Dai, Cheng Guo Zong
Murphy and MetinSitti designed a wall-climbing robot “Waalbot” which uses flat adhesive elastomeric materials for attachment [5].
Journal of Bionic Engineering. 4 (2) 91-95
Journal of Bionic Engineering. 4 (4) 193-199
Journal of Bionic Engineering. 3 (3) 115-125
Industrial Robot: An International Journal. 36(4) 326–330.
Journal of Bionic Engineering. 4 (2) 91-95
Journal of Bionic Engineering. 4 (4) 193-199
Journal of Bionic Engineering. 3 (3) 115-125
Industrial Robot: An International Journal. 36(4) 326–330.
Online since: June 2021
Authors: Hai Long Cao, Yu Xing Tian, Si Meng Ren, Bin Xu, Cheng Liu
New materials and production technologies for innovative lightweight constructions.Journal of Materials Processing Technology 125 (2002): 532-536
Materials Science and Engineering: A 293.1-2 (2000): 19-29
Materials characterization 35.1 (1995): 41-67
Materials & Design 18.1 (1997): 25-28
Materials Science and Engineering: A 699 (2017): 201-209
Materials Science and Engineering: A 293.1-2 (2000): 19-29
Materials characterization 35.1 (1995): 41-67
Materials & Design 18.1 (1997): 25-28
Materials Science and Engineering: A 699 (2017): 201-209
Online since: March 2024
Authors: Persia Ada N. de Yro, Sherwin Leemark Abing, Shaun Angelo C. Aranez
Methodology
Materials and Equipment.
Journal of the Mechanical Behavior of Biomedical Materials, 115. https://doi.org/10.1016/j.jmbbm.2020.104250 [2] Sikder, P., Challa, B.
Advanced Materials Technologies, 4(1). https://doi.org/10.1002/admt.201800271 [9] Papon, E.
Journal of Materials Processing Technology, 271, 62–74. https://doi.org/10.1016/j.jmatprotec. 2019.03.016 [11] Hernandez-Contreras, A, Ruiz-Huerta, L., et al. (2020).
Materials, 13 (17). https://doi.org/10.3390/ma13173831 Internal
Journal of the Mechanical Behavior of Biomedical Materials, 115. https://doi.org/10.1016/j.jmbbm.2020.104250 [2] Sikder, P., Challa, B.
Advanced Materials Technologies, 4(1). https://doi.org/10.1002/admt.201800271 [9] Papon, E.
Journal of Materials Processing Technology, 271, 62–74. https://doi.org/10.1016/j.jmatprotec. 2019.03.016 [11] Hernandez-Contreras, A, Ruiz-Huerta, L., et al. (2020).
Materials, 13 (17). https://doi.org/10.3390/ma13173831 Internal
Online since: November 2011
Authors: Lai Hao Li, Jian Wei Cen, Shu Xian Hao, Hui Huang, Shi Hong, Ya Wei, Jun Yan He, Xian Qing Yang
Material and methods
Material.
Journal of Food Processing and Preservation , Vol.32 (2008) ,p.729–739
Journal of Food Science.
Meat Science, Vol.7 (1982).p.29–35
Journal of Food Biochemistry, Vol. 25(2001), p.157–174
Journal of Food Processing and Preservation , Vol.32 (2008) ,p.729–739
Journal of Food Science.
Meat Science, Vol.7 (1982).p.29–35
Journal of Food Biochemistry, Vol. 25(2001), p.157–174