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Online since: August 2011
Authors: Jun Gao, Shu Xia Lin, Jian Hong Gong
High-pressure synthesis and characterization of thermal-stable boron-doped diamond single crystals, International Journal of Refractory Metals and Hard Materials, 27 (2009) pp. 564-570
[6]Liangq,Qi, Catledqe,Shane A.
,Vohra, Mechanical properties of boron doped diamond films prepared by MPCVD, Materials Research Society Symposium - Proceedings, Mechanical Properties of Nanostructured Materials and Nonocomposites, v 791 (2003): pp.265-270 [7] Barnes, R.
Physica Status Solidi (A) Applications and Materials, 203, 12 (2006) pp.3081-3087 [8] Langenhorst, F.
TEM observations of microscopic inclusions in synthetic diamond, Journal of Materials Science, 39, 5 (2004)pp.1865-1867, [9]L.
Saurina, Thermal and structural characterization of Fe–Nb–B alloys prepared by mechanical alloying Materials Science and Engineering A, 375-377,15 (2004) pp.874-880 [17] V.P.
,Vohra, Mechanical properties of boron doped diamond films prepared by MPCVD, Materials Research Society Symposium - Proceedings, Mechanical Properties of Nanostructured Materials and Nonocomposites, v 791 (2003): pp.265-270 [7] Barnes, R.
Physica Status Solidi (A) Applications and Materials, 203, 12 (2006) pp.3081-3087 [8] Langenhorst, F.
TEM observations of microscopic inclusions in synthetic diamond, Journal of Materials Science, 39, 5 (2004)pp.1865-1867, [9]L.
Saurina, Thermal and structural characterization of Fe–Nb–B alloys prepared by mechanical alloying Materials Science and Engineering A, 375-377,15 (2004) pp.874-880 [17] V.P.
Online since: February 2013
Authors: Rui Tao Peng, Yuan Qiang Tan, Xin Zi Tang, Jia Yi Wu
Uniaxial stress-strain curve of plastic materials indicates the relationship between stress and strain of plastic materials is initially linear, and then plastic yielding occurs accompanying with strain strengthening with the increase of strain.
Materials Science and Engineering: A, Vol.532 (2012), p. 362
Journal of Materials Processing Technology, Vol.139 (2003), p. 628
Advanced Materials Research, Vol.591-593(2012), p. 766
Journal of South China University of Technology, Vol.36 (2008), p. 18
Materials Science and Engineering: A, Vol.532 (2012), p. 362
Journal of Materials Processing Technology, Vol.139 (2003), p. 628
Advanced Materials Research, Vol.591-593(2012), p. 766
Journal of South China University of Technology, Vol.36 (2008), p. 18
Online since: November 2014
Authors: Yue Zhao, Yan Li Ding, Xiao Yan Liang, Jia Hua Min, Lin Jun Wang, Wei Min Shi
Fu, Journal of Alloys and Compounds 500 (1), (2010): 5–8
[2] M.
Journal of Crystal Growth 298, (2007): 491–494 [8] R.
Materials Letter. 64(19), (2010): 2112-2114 [11] S.
Journal of Luminescence 122 (2007): 368–370 [12] S.
Journal of Applied Physics. 102, (2007): 113509 [13] P.
Journal of Crystal Growth 298, (2007): 491–494 [8] R.
Materials Letter. 64(19), (2010): 2112-2114 [11] S.
Journal of Luminescence 122 (2007): 368–370 [12] S.
Journal of Applied Physics. 102, (2007): 113509 [13] P.
Online since: May 2011
Authors: Jun Huang, Sheng Hu, Jian Wei Mao, Dong Ke Zhao, Le He Mei, Shi Wang Liu, Yuan Feng Wu, Sheng Fang, Qian Shao
Chitosan, derived by chemical modifications of these groups, has provided numerous useful materials.
Materials All chemicals were of analytical reagent grade and used without further purification.
Blackwell: Journal of Molecular Biology Vol.120 (1978), p.167 [2] G.A.F.
Suslick: Journal of the American Chemical Society Vol.127 (2005), p.2368 [13] S.
Ruan: Journal of south china University of Technology (Natural Science Edition) Vol.34 (2006), p.58 [18] M.
Materials All chemicals were of analytical reagent grade and used without further purification.
Blackwell: Journal of Molecular Biology Vol.120 (1978), p.167 [2] G.A.F.
Suslick: Journal of the American Chemical Society Vol.127 (2005), p.2368 [13] S.
Ruan: Journal of south china University of Technology (Natural Science Edition) Vol.34 (2006), p.58 [18] M.
Online since: September 2013
Authors: Cong Zhu, Hong Wen Xia, Cheng Zeng, Kan Zhao
Mechanical Science and Technology, 2006, 25 (7): 840-843
Journal of Power Sources, 2012, 199: 227-238
Journal of Power Sources, 2011, 196: 5985-5989
Journal of Power Sources, 2013, 223: 155-164
AIChE Journal, 1975, 21(1): 25-41.
Journal of Power Sources, 2012, 199: 227-238
Journal of Power Sources, 2011, 196: 5985-5989
Journal of Power Sources, 2013, 223: 155-164
AIChE Journal, 1975, 21(1): 25-41.
Online since: May 2012
Authors: Xin Yi Wang, Pu Shan Li, Li Li A
When mining on the floor above confined water, according to mine exploration materials, to do some preliminary analysis about hydro geological condition of the working faces, to forecast the risk of floor water invasion, on the basis of these to develop the work, mine water prevention and control, go well.
Journal of HeNan Polytechnic University (Natural science), 2008, 27(5):514-519.
Journal of HeNan Polytechnic University (Natural science), 2011, 30(2):149-154.
Journal of North China Institute of Science and Technology, 2009, 6(4): 83-86.
Journal of HeNan Polytechnic University, 2005, 24(6):439-442.
Journal of HeNan Polytechnic University (Natural science), 2008, 27(5):514-519.
Journal of HeNan Polytechnic University (Natural science), 2011, 30(2):149-154.
Journal of North China Institute of Science and Technology, 2009, 6(4): 83-86.
Journal of HeNan Polytechnic University, 2005, 24(6):439-442.
Online since: September 2014
Authors: Nikita V. Martyushev, Alexey N. Yakovlev, Igor B. Ardashkin
Materials and Methods
Let us consider one of the approaches to the issue under investigation.
"Such materials as cast alloys, refractories, modifying agents, ferroalloys, etc. are used as the main objects of the information supply" [5].
Martyushev, Creation of ceramic nanocomposite material on the basis of ZrO2-Y2O3-Al2O3 with improved operational properties of the working surface, Applied Mechanics and Materials. 379 (2013) 77 – 81 [7] N.V.
Tomchik, Simulation of active shielding gas impact on heat distribution in the weld zone, Materials Science Forum. 762 (2013) 717-721 [9] D.A.
Agrenich, Computer simulation of thermo-mechanical processes at fusion welding of alloyed steels, Materials Science Forum. 575-578 (2008) 833-836 [10] S.Yu.
"Such materials as cast alloys, refractories, modifying agents, ferroalloys, etc. are used as the main objects of the information supply" [5].
Martyushev, Creation of ceramic nanocomposite material on the basis of ZrO2-Y2O3-Al2O3 with improved operational properties of the working surface, Applied Mechanics and Materials. 379 (2013) 77 – 81 [7] N.V.
Tomchik, Simulation of active shielding gas impact on heat distribution in the weld zone, Materials Science Forum. 762 (2013) 717-721 [9] D.A.
Agrenich, Computer simulation of thermo-mechanical processes at fusion welding of alloyed steels, Materials Science Forum. 575-578 (2008) 833-836 [10] S.Yu.
Online since: August 2015
Authors: Xiao Zhang, Su Yuan Yang, Sheng Nan Yang
Research on Compression Properties of Ni-Ti shape Memory Alloys
Xiao Zhang1, a, Suyuan Yang2, b *, Shengnan Yang3, c
1 School of Materials Science and Technology, Beijing Institute of Technology, Beijing 100081, PR China;
2 National Key Laboratory of Science and Technology on Materials under Shock and Impact,
Beijing Institute of Technology, Beijing 100081, PR China
aemail: yangsuyuan@bit.edu.cn, bemail: jincaijiayou@163.com, cemail: 757430786@qq.com
Key words: Ni-Ti shape memory alloys; martensitic phase transformation (SIM); strain rates
Abstract:
Quasi-static and dynamic compressive mechanical properties of Ni-Ti shape memory alloys have been investigated by using electronic universal testing machine and Split-Hopkinson Pressure Bar (SHPB), respectively.
Experimental materials and methods The materials used in this study were Ni-Ti shape memory alloys, whose chemical composition and transformation temperature were given in Table 1.The materials were prepared by Vacuum Induction Melting.
[4] Hu Shisheng, Wang Lili, An Apparatus For Materials Testing At High Strain Rates, Journal Of Vibration And Shock, 17 (1986) 41-47
[5] Liu Jinxu, Hu Dandan, Zheng Xiuhua, Effect of Precipitation Phase Morphology on Mechanical Properties of Ni-Ti Shape Memory Alloy, Rare Metal Materials and Engineering, 42(2013): 942-6
[8] Nemat-Nasser S, Chol J-Y, Guo W-G, Very high strain-rate response of a NiTi shape-memory alloy, Mechanics of materials, 37 (2005), 287-98.
Experimental materials and methods The materials used in this study were Ni-Ti shape memory alloys, whose chemical composition and transformation temperature were given in Table 1.The materials were prepared by Vacuum Induction Melting.
[4] Hu Shisheng, Wang Lili, An Apparatus For Materials Testing At High Strain Rates, Journal Of Vibration And Shock, 17 (1986) 41-47
[5] Liu Jinxu, Hu Dandan, Zheng Xiuhua, Effect of Precipitation Phase Morphology on Mechanical Properties of Ni-Ti Shape Memory Alloy, Rare Metal Materials and Engineering, 42(2013): 942-6
[8] Nemat-Nasser S, Chol J-Y, Guo W-G, Very high strain-rate response of a NiTi shape-memory alloy, Mechanics of materials, 37 (2005), 287-98.
Online since: February 2022
Authors: Shigeyuki Date, Satoshi Fujiwara, Kazuki Mochida, Nobukatu Nito, Prang Subpa-Asa
Outline of the Experiment
Materials used.
Date, in: 4th International Conference on Materials Engineering and Nano Sciences (ICMENS), volume 840 of Proceedings of the IOP Conference Series: Materials Science and Engineering, IOP Publishers (2020)
Date, in: 7th International Conference on Engineering, Applied Sciences and Technology (ICEAST2021) , edited by API Conference Series: Materials Science and Engineering Publishing, Pattaya, Thailand (2020), in press
Date, in: 6th International Conference on Building Materials and Construction (ICBMC2021) , edited by IOP Conference Series: Materials Science and Engineering Publishing, Singapore (2021), in press
Makoto: Journal of JSCE, Ser.
Date, in: 4th International Conference on Materials Engineering and Nano Sciences (ICMENS), volume 840 of Proceedings of the IOP Conference Series: Materials Science and Engineering, IOP Publishers (2020)
Date, in: 7th International Conference on Engineering, Applied Sciences and Technology (ICEAST2021) , edited by API Conference Series: Materials Science and Engineering Publishing, Pattaya, Thailand (2020), in press
Date, in: 6th International Conference on Building Materials and Construction (ICBMC2021) , edited by IOP Conference Series: Materials Science and Engineering Publishing, Singapore (2021), in press
Makoto: Journal of JSCE, Ser.
Online since: August 2025
Authors: Annexin Sam, Mohamed Abdel Hady Gepreel, Mohsen Ghali
Gepreel1,c
1Materials Science and Engineering, Egypt-Japan University of Science and Technology,
New Borg El-Arab City 21934, Alexandria, Egypt.
2Energy Materials Department, Institute of Basic and Applied Science, Egypt-Japan University of Science and Technology, New Borg El-Arab City 21934, Alexandria, Egypt.
3Physics Department, Faculty of Science, Kafelheikh University, Egypt.
Murty, “Processing and properties of nanocrystalline CuNiCoZnAlTi high entropy alloys by mechanical alloying,” Materials Science and Engineering: A, vol. 527, no. 4, pp. 1027–1030, 2010, doi: https://doi.org/10.1016/j.msea.2009.09.019
Hawk, “High-entropy functional materials,” J Mater Res, vol. 33, pp. 1–18, Sep. 2018, doi: 10.1557/jmr.2018.323
Li et al., “Microstructure evolution of additively manufactured CoCrFeNiAl0.4 high-entropy alloy under thermo-mechanical processing,” Journal of Materials Research and Technology, vol. 16, pp. 442–450, 2022, doi: https://doi.org/10.1016/j.jmrt.2021.12.007
Yan, “WxNbMoTa Refractory High-Entropy Alloys Fabricated by Laser Cladding Deposition,” Materials, vol. 12, p. 533, Feb. 2019, doi: 10.3390/ma12030533
Murty, “Processing and properties of nanocrystalline CuNiCoZnAlTi high entropy alloys by mechanical alloying,” Materials Science and Engineering: A, vol. 527, no. 4, pp. 1027–1030, 2010, doi: https://doi.org/10.1016/j.msea.2009.09.019
Hawk, “High-entropy functional materials,” J Mater Res, vol. 33, pp. 1–18, Sep. 2018, doi: 10.1557/jmr.2018.323
Li et al., “Microstructure evolution of additively manufactured CoCrFeNiAl0.4 high-entropy alloy under thermo-mechanical processing,” Journal of Materials Research and Technology, vol. 16, pp. 442–450, 2022, doi: https://doi.org/10.1016/j.jmrt.2021.12.007
Yan, “WxNbMoTa Refractory High-Entropy Alloys Fabricated by Laser Cladding Deposition,” Materials, vol. 12, p. 533, Feb. 2019, doi: 10.3390/ma12030533