热处理对真空热压烧结NiCrCoTiV高熵合金组织结构及耐腐蚀性能的影响<sup>*</sup>

doi:10.11896/j.issn.1005-023X.2017.012.017

Abstract
Figure/Table
References
Related Citation (15)

Download:

Full Text ( PDF ) (1859KB)
Export: BibTeX | EndNote (RIS)

Abstract The NiCrCoTiV high-entropy alloy was prepared by vacuum hot-pressing sintering and heated at 500 ℃, 600 ℃ and 700 ℃ for 18 h, respectively. The effects of different heat-treatments on the phase, microstructure and corrosion-resisting of the NiCrCoTiV high-entropy alloy were studied in detail by X-ray diffraction, scanning electron microscopy and electrochemical workstation. The experiment results show that after different heat-treatment, the phase of high-entropy alloy did not change significantly, showing excellent high temperature stability. After heat-treatment, the grains of high-entropy alloy are refined and the precipitation phase is reduced. With the increase of heat-treatment temperature, the grain size gradually decreases. After heat-treatment, the corrosion resistance of high-entropy alloy gets a great increase. In addition, the corrosion resistance of the high-entropy alloy increases with the heat-treatment temperature rises.

Key words： high-entropy alloy heat treated microstructure corrosion resistance

Published: 25 June 2017 Online: 2018-05-08

CLC number:

TG174.2

	Service
	E-mail this article
	Add to my bookshelf
	Add to citation manager
	E-mail Alert
	RSS
	Articles by authors
	WEN Xin
	JIN Guo
	PANG Xuejia
	CAI Zhaobing
	ZHANG Zihan
	CUI Xiufang
	WANG Haidou
	XU Binshi

Cite this article:

WEN Xin,JIN Guo,PANG Xuejia, et al. Effect of Heat Treatment on Microstructure and Corrosion Resistance of NiCrCoTiV High-entropy Alloy Prepared by Vacuum Hot-pressing Sintering[J]. Materials Reports, 2017, 31(12): 79-83.

URL:

https://www.mater-rep.com/EN/10.11896/j.issn.1005-023X.2017.012.017 OR https://www.mater-rep.com/EN/Y2017/V31/I12/79

1 Yeh J W, Chen S K, Lin S J, et al. Nanostructured high-entropy alloys with multiple principal elements: Novel alloy design concepts and outcomes[J]. Adv Eng Mater,2004,6(5):299.
2 Huang P K, Yeh J W, Shun T T, et al. Multi-principal-element alloys with improved oxidation and wear resistance for thermal spray coating[J]. Adv Eng Mater,2004,6(1-2):74.
3 Zou Y, Ma H, Spolenak R. Ultrastrong ductile and stable high-entropy alloys at small scales[J]. Nature Commun,2015,6:7748.
4 Shon Y, Joshi S S, Katakam S, et al. Laser additive synthesis of high entropy alloy coating on aluminum: Corrosion behavior[J]. Mater Lett,2015,142:122.
5 Zhang Y, Zuo T T, Tang Z, et al. Microstructures and properties of high-entropy alloys[J]. Progr Mater Sci,2014,61(8):1.
6 Wen L H, Kou H C, Li J S, et al. Effect of aging temperature on microstructure and properties of AlCoCrCuFeNi high-entropy alloy[J]. Intermetallics,2009,17(4):266.
7 Li Z, Pradeep K G, Deng Y, et al. Metastable high-entropy dual-phase alloys overcome the strength-ductility trade-off[J]. Nature,2016,534:227.
8 Shi Y, Yang B, Liaw P K. Corrosion-resistant high-entropy alloys: A review[J]. Metals,2017,7(2):43.
9 Lu Y, Dong Y, Guo S, et al. A promising new class of high-tem-perature alloys: Eutectic high-entropy alloys[J]. Sci Rep,2014,4:6200.
10 Zhang Y, Qiao J. A brief review of high entropy alloys and serration behavior and flow units[J]. J Iron Steel Res Int,2016,23(1):2.
11 Ranganathan S. Alloyed pleasures: Multimetallic cocktails[J]. Current Sci,2003,85(5):1404.
12 Yeh J W, Lin S J, Chin T S, et al. Formation of simple crystal structures in Cu-Co-Ni-Cr-Al-Fe-Ti-V alloys with multiprincipal metallic elements[J]. Metall Mater Trans A,2004,35(8):2533.
13 Prasad H, Singh S, Panigrahi B B. Mechanical activated synthesis of alumina dispersed FeNiCoCrAlMn high entropy alloy[J]. J Alloys Compd,2017,692:720.
14 He F, Wang Z, Wu Q, et al. Phase separation of metastable CoCr-FeNi high entropy alloy at intermediate temperatures[J]. Scripta Mater,2017,126:15.
15 Ma S G, Zhang S F, Qiao J W, et al. Superior high tensile elongation of a single-crystal CoCrFeNiAl_0.3, high-entropy alloy by Bridgman solidification[J]. Intermetallics,2014,54(6):104.
16 Dong Y, Lu Y, Kong J, et al. Microstructure and mechanical pro-perties of multi-component AlCrFeNiMo_x, high-entropy alloys[J]. J Alloys Compd,2013,573(10):96.
17 Liu Y, Ma S, Gao M C, et al. Tribological properties of AlCrCuFeNi₂ high-entropy alloy in different conditions[J]. Metall Mater Trans A,2016,47(7):3312.
18 张勇. 非晶和高熵合金[M]. 北京:科学出版社,2010.
19 Miracle D B, Senkov O N. A critical review of high entropy alloys and related concepts[J]. Acta Mater,2016,122:448.
20 Zhang L, Yu P, Cheng H, et al. Nanoindentation creep behavior of an Al_0.3CoCrFeNi high-entropy alloy[J]. Metall Mater Trans A,2016,47(12):5871.
21 Zhu Z G, Ma K H, Wang Q, et al. Compositional dependence of phase formation and mechanical properties in three CoCrFeNi-(Mn/Al/Cu) high entropy alloys[J]. Intermetallics,2016,79:1.
22 Tsai D C, Shieu F S, Chang S Y, et al. Structures and characterizations of TiVCr and TiVCrZrY films deposited by magnetron sputtering under different bias powers[J]. J Electrochem Soc,2010,157(3):K52.
23 Varalakshmi S, Kamaraj M, Murty B S. Formation and stability of equiatomic and nonequiatomic nanocrystalline CuNiCoZnAlTi high-entropy alloys by mechanical alloying[J]. Metall Mater Trans A,2010,41(10):2703.
24 Durga A, Kumar K C H, Murty B S. Phase formation in equiatomic high entropy alloys: CALPHAD approach and experimental studies[J]. Trans Indian Institute of Metals,2012,65(4):375.
25 Lu Y, Gao X, Jiang L, et al. Directly cast bulk eutectic and near-eutectic high entropy alloys with balanced strength and ductility in a wide temperature range[J]. Acta Mater,2017,124:143.
26 Zhang S, Wu C L, Zhang C H. Phase evolution characteristics of FeCoCrAlCuV_x Ni high entropy alloy coatings by laser high-entropy alloying[J]. Mater Lett,2015,141:7.
27 Qiu X W, Liu C G. Microstructure and properties of Al₂CrFeCoCu-TiNi_x high-entropy alloys prepared by laser cladding[J]. J Alloys Compd,2013,553:216.
28 Cai Z, Jin G, Cui X, et al. Experimental and simulated data about microstructure and phase composition of a NiCrCoTiV high-entropy alloy prepared by vacuum hot-pressing sintering[J]. Vacuum,2016,124:5.
29 Tsai M H, Yeh J W. High-entropy alloys: A critical review[J]. Mater Res Lett,2014,2(3):107.
30 Zhang S, Wu C L, Yi J Z, et al. Synthesis and characterization of FeCoCrAlCu high-entropy alloy coating by laser surface alloying[J]. Surf Coat Technol,2015,262:64.
31 Cai Z, Jin G, Cui X, et al. Synthesis and microstructure characteri-zation of Ni-Cr-Co-Ti-V-Al high entropy alloy coating on Ti-6Al-4V substrate by laser surface alloying[J]. Mater Character,2016,120:229.