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Online since: July 2021
Authors: Jin Lian Hu, Lin Gu, Yuan Zhang Jiang
Nature materials 10.11 (2011): 817-822
Applied Sciences 7.12 (2017): 1258
Advanced Materials 31.48 (2019): 1904311
Journal of Materials Chemistry B 2.17 (2014): 2554-2561
Journal of the mechanical behavior of biomedical materials 4.5 (2011): 658-669
Applied Sciences 7.12 (2017): 1258
Advanced Materials 31.48 (2019): 1904311
Journal of Materials Chemistry B 2.17 (2014): 2554-2561
Journal of the mechanical behavior of biomedical materials 4.5 (2011): 658-669
Online since: October 2010
Authors: Zeng Da Zou, Yong Zou, Li Jia, Qu Shi Yao, Yong Sheng Zhao
[3] Xinmei Zhang, Shilian Zhang: Ship Science and Technology.
[13] Zhi Zeng, Lijun Wang, Yue Wang: Computational Materials Science 44 (2009)1153–1162
[14] Dean Deng, Wei Liang, Hidekazu Murakawa: Journal of Materials Processing Technology 183(2007)219–225
DebRoy: Journal of Applied Physics.
Kumar, T.DebRoy: Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science.
[13] Zhi Zeng, Lijun Wang, Yue Wang: Computational Materials Science 44 (2009)1153–1162
[14] Dean Deng, Wei Liang, Hidekazu Murakawa: Journal of Materials Processing Technology 183(2007)219–225
DebRoy: Journal of Applied Physics.
Kumar, T.DebRoy: Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science.
Online since: September 2019
Authors: Daria D. Kuzavkova, Sergey A. Nemov, Alexander M. Zolotov, Arseniy A. Rulimov
Physical and mathematical simulation of complex processes of different materials’ plastic deformation is one of the priorities of modern science and technology [8-10].
[2] Deuk-Hee Lee, Jae-Uk Lee, Sung-Jin Jung et al., Effect of Heat Treatment on the Thermoelectric Properties of Bismuth–Antimony–Telluride Prepared by Mechanical Deformation and Mechanical Alloying, Journal of Electronic Materials, Vol. 43, No. 6, 2014
Prostomolotov, Mathematical modeling of extrusion process of the thermoelectric materials, Materials of electronic technology, № 3, 2012, pp. 35-40
Conference on Metallurgy and Materials, 2015, 1463-8
Vasilyev et al., Modeling of microstructure and mechanical properties of hot rolled steels, In Materials Science Forum, 2013, Vol. 762, pp. 116-121
[2] Deuk-Hee Lee, Jae-Uk Lee, Sung-Jin Jung et al., Effect of Heat Treatment on the Thermoelectric Properties of Bismuth–Antimony–Telluride Prepared by Mechanical Deformation and Mechanical Alloying, Journal of Electronic Materials, Vol. 43, No. 6, 2014
Prostomolotov, Mathematical modeling of extrusion process of the thermoelectric materials, Materials of electronic technology, № 3, 2012, pp. 35-40
Conference on Metallurgy and Materials, 2015, 1463-8
Vasilyev et al., Modeling of microstructure and mechanical properties of hot rolled steels, In Materials Science Forum, 2013, Vol. 762, pp. 116-121
Online since: November 2012
Authors: H. Du, F. Li, H. Zhang
Journal of Materials Processing Technology, 2001, 113: 720-724
[2] F.
Journal of Materials Processing Technology, 2004, 147 (3): 397-404
Journal of Materials Processing Technology, 2003, 139: 64-70
Materials Science Forum, Vols.575-578 (2009), p.316-321
Materials Science Forum, Vols. 628-629 (2009), p.541-546.
Journal of Materials Processing Technology, 2004, 147 (3): 397-404
Journal of Materials Processing Technology, 2003, 139: 64-70
Materials Science Forum, Vols.575-578 (2009), p.316-321
Materials Science Forum, Vols. 628-629 (2009), p.541-546.
Online since: May 2019
Authors: Arvind Kumar, Ram Naresh Rai
In IOP Conference Series: Materials Science and Engineering (Vol. 377, No. 1, p. 012092).
Journal of Materials Science, 41(17), 5731-5734. https://doi.org/10.1007/s10853-006-0100-1 [4].
Journal of materials science, 28(20), 5414-5425. https://doi.org/10.1007/bf00367810 [6].
Journal of composite materials, 45(23), 2371-2378. https://doi.org/10.1177/0021998311401086 [10].
Journal of materials science, 46(9), 3176-3185. https://doi.org/10.1007/s10853-010-5201-1 [28].
Journal of Materials Science, 41(17), 5731-5734. https://doi.org/10.1007/s10853-006-0100-1 [4].
Journal of materials science, 28(20), 5414-5425. https://doi.org/10.1007/bf00367810 [6].
Journal of composite materials, 45(23), 2371-2378. https://doi.org/10.1177/0021998311401086 [10].
Journal of materials science, 46(9), 3176-3185. https://doi.org/10.1007/s10853-010-5201-1 [28].
Online since: March 2020
Authors: Ahmed Abd Moneim, Mariamu K. Ali
Moneim1,2,b
1Department of Material Science and Engineering, E-JUST, P.O.
Journal of Materials Chemistry C 5 (2017) 4350-4360
Qiu, Convenient construction of poly (3, 4-ethylenedioxythiophene) –graphene pie-like structure with enhanced thermoelectric performance, Journal of Materials Chemistry A 1 (2013) 12395-12399
Chen, Large thermoelectric power factor in polyaniline/graphene nanocomposite films prepared by solution-assistant dispersing method, Journal of Materials Chemistry A 2 (2014) 11107-11113
Guo, Large-area, stretchable, super flexible and mechanically stable thermoelectric films of polymer/carbon nanotube composites, Journal of Materials Chemistry C 4 (2016) 526-532
Journal of Materials Chemistry C 5 (2017) 4350-4360
Qiu, Convenient construction of poly (3, 4-ethylenedioxythiophene) –graphene pie-like structure with enhanced thermoelectric performance, Journal of Materials Chemistry A 1 (2013) 12395-12399
Chen, Large thermoelectric power factor in polyaniline/graphene nanocomposite films prepared by solution-assistant dispersing method, Journal of Materials Chemistry A 2 (2014) 11107-11113
Guo, Large-area, stretchable, super flexible and mechanically stable thermoelectric films of polymer/carbon nanotube composites, Journal of Materials Chemistry C 4 (2016) 526-532
Online since: October 2010
Authors: Prabir Sarker
Materials.
Lopez-Hombrados: ACI Materials Journal Vol.103 (2006), p. 106 – 112
Rangan: ACI Materials Journal, Vol. 101, (2004), p. 467-472
Lukey: Journal of Materials Science, Vol. 42 (2007), p. 3107-3116
Rangan: Journal of Material Science Vol. 42, No. 9 (2007), p. 3124-3130
Lopez-Hombrados: ACI Materials Journal Vol.103 (2006), p. 106 – 112
Rangan: ACI Materials Journal, Vol. 101, (2004), p. 467-472
Lukey: Journal of Materials Science, Vol. 42 (2007), p. 3107-3116
Rangan: Journal of Material Science Vol. 42, No. 9 (2007), p. 3124-3130
Online since: October 2014
Authors: Lei Jiang, Meng Meng Shen, Jun Wang
In this paper, we introduce a prediction method for air material failure prediction.
This feature makes it better meet the needs for quality management of air material, especially when the sample is small.
Acknowledgement This work was partially supported by the National Natural Science Foundation of China (NSFC, Project No. 71271018).
[2]Yun W Y, Murthy D N P, Jack N:Warranty servicing with imperfect repair( International Journal of Production Economics, (2008)
International Journal of Reliability, Quality and Safety Engineering, 17(1)(2010), p. 27-39
This feature makes it better meet the needs for quality management of air material, especially when the sample is small.
Acknowledgement This work was partially supported by the National Natural Science Foundation of China (NSFC, Project No. 71271018).
[2]Yun W Y, Murthy D N P, Jack N:Warranty servicing with imperfect repair( International Journal of Production Economics, (2008)
International Journal of Reliability, Quality and Safety Engineering, 17(1)(2010), p. 27-39
Online since: May 2011
Authors: Rui Jie Wang, He Ming Cheng, Bao Dong Shao, Jian Yun Li
Since materials have different structures and properties under different heat treatment schemes, heat treatment schemes have explicit effect on material fatigue property [2].
Ji: Journal of Materials Processing Technology Vol.176 (2006), p. 19–23
Gavgal et al.: Materials and Design Vol.25 (2004), p. 439-445
Manson: Journal of Engineering Material Technology Vol. 110(1988), p. 55-88
Ong: International journal of Fatigue Vol. 15(1993), p. 213-219
Ji: Journal of Materials Processing Technology Vol.176 (2006), p. 19–23
Gavgal et al.: Materials and Design Vol.25 (2004), p. 439-445
Manson: Journal of Engineering Material Technology Vol. 110(1988), p. 55-88
Ong: International journal of Fatigue Vol. 15(1993), p. 213-219
Online since: November 2015
Authors: Tomasz Strek, Eligiusz Idczak
Normally, the calculation of Poisson’s ratio is done for common materials, not for lattice structures.
Lakes, Foam structures with a negative Poisson’s ratio, Science, p. 1038, 1987
Alderson, Auxetic materials : the positive side of being negative, Engineering Science & Education Journal, vol. 9, no. 4, pp. 148–154, 2000
Alderson , Auxetic materials, Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 221(4), pp. 565–575, 2007
Cheung, N.Gershenfeld, Reversibly Assembled Cellular Composite Materials Science, vol. 341 13, no. 6151 pp. 1219-1221, September 2013
Lakes, Foam structures with a negative Poisson’s ratio, Science, p. 1038, 1987
Alderson, Auxetic materials : the positive side of being negative, Engineering Science & Education Journal, vol. 9, no. 4, pp. 148–154, 2000
Alderson , Auxetic materials, Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 221(4), pp. 565–575, 2007
Cheung, N.Gershenfeld, Reversibly Assembled Cellular Composite Materials Science, vol. 341 13, no. 6151 pp. 1219-1221, September 2013