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Artículos de revistas sobre el tema "NiCoCrFe alloys"

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Autor: Grafiati
Publicado: 6 de septiembre de 2023

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1

Wang, Zhihua, Tuanwei Zhang, Enling Tang, Renlong Xiong, Zhiming Jiao y Junwei Qiao. "Formation and deformation mechanisms in gradient nanostructured NiCoCrFe high entropy alloys upon supersonic impacts". Applied Physics Letters 119, n.º 20 (15 de noviembre de 2021): 201901. http://dx.doi.org/10.1063/5.0069402.

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2

Wang, Han, Julian J. Rimoli y Penghui Cao. "Dislocation mechanisms in strengthening and softening of nanotwinned materials". Journal of Applied Physics 133, n.º 5 (7 de febrero de 2023): 055106. http://dx.doi.org/10.1063/5.0138379.

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Twin boundary (TB) strengthening in nanotwinned metals experiences a breakdown below a critical spacing at which softening takes over. Here, we survey a range of nanotwinned materials that possess different stacking fault energies (SFEs) and understand the TB strengthening limit using atomistic simulations. Distinct from Cu and Al, the nanotwinned, ultralow SFE materials (Co, NiCoCr, and NiCoCrFeMn) intriguingly exhibit a continuous strengthening down to a twin thickness of 0.63 nm. Examining dislocation slip mode and deformation microstructure, we find the hard dislocation modes persist even when reducing the twin boundary spacing to a nanometer regime. Meanwhile, the soft dislocation mode, which causes detwinning in Cu and Al, results in phase transformation and lamellar structure formation in Co, NiCoCr, and NiCoCrFeMn. This study, providing an enhanced understanding of dislocation mechanism in nanotwinned materials, demonstrates the potential for controlling mechanical behavior and ultimate strength with broadly tunable composition and SFE, especially in multi-principal element alloys.
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3

Gao, T. J., D. Zhao, T. W. Zhang, T. Jin, S. G. Ma y Z. H. Wang. "Strain-rate-sensitive mechanical response, twinning, and texture features of NiCoCrFe high-entropy alloy: Experiments, multi-level crystal plasticity and artificial neural networks modeling". Journal of Alloys and Compounds 845 (diciembre de 2020): 155911. http://dx.doi.org/10.1016/j.jallcom.2020.155911.

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4

Godlewska,, E., E. Roszczynialska, y Z. Zurek,. "High Temperature Sulfidation of NiCoCrAl(Y) Alloys". High Temperature Materials and Processes 13, n.º 3 (junio de 1994): 259–66. http://dx.doi.org/10.1515/htmp.1994.13.3.259.

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5

Mehmood, Kashif, Malik Adeel Umer, Ahmed Umar Munawar, Muhammad Imran, Muhammad Shahid, Muhammad Ilyas, Rabeeka Firdous, Humaira Kousar y Muhammad Usman. "Microstructure and Corrosion Behavior of Atmospheric Plasma Sprayed NiCoCrAlFe High Entropy Alloy Coating". Materials 15, n.º 4 (16 de febrero de 2022): 1486. http://dx.doi.org/10.3390/ma15041486.

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High entropy alloys (HEAs) are multi-elemental alloy systems that exhibit a combination of exceptional mechanical and physical properties, and nowadays are validating their potential in the form of thermal sprayed coatings. In the present study, a novel synthesis method is presented to form high entropy alloy coatings. For this purpose, thermal sprayed coatings were deposited on Stainless Steel 316L substrates using atmospheric plasma spraying technique with subsequent annealing, at 1000 °C for 4 h, to assist alloy formation by thermal diffusion. The coatings in as-coated samples as well as in annealed forms were extensively studied by SEM for microstructure and cross-sectional analysis. Phase identification was performed by X-ray diffraction studies. The annealed coatings revealed a mixed BCC and FCC based HEA structure. Potentiodynamic corrosion behavior of SS316L sprayed as well as annealed coatings were also carried out in 3.5% NaCl solution and it was found that the HEA-based annealed coatings displayed the best corrosion resistance 0.83 (mpy), as compared to coated/non-annealed and SS 316 L that showed corrosion resistance of 7.60 (mpy) and 3.04 (mpy), respectively.
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6

Yu, Yan y Yang Yu. "Simulations of irradiation resistance and mechanical properties under irradiation of high-entropy alloy NiCoCrFe". Materials Today Communications 33 (diciembre de 2022): 104308. http://dx.doi.org/10.1016/j.mtcomm.2022.104308.

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7

Praveen, S., B. S. Murty y Ravi S. Kottada. "Alloying behavior in multi-component AlCoCrCuFe and NiCoCrCuFe high entropy alloys". Materials Science and Engineering: A 534 (febrero de 2012): 83–89. http://dx.doi.org/10.1016/j.msea.2011.11.044.

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8

Choquet, P. y R. Mevrel. "Microstructure of alumina scales formed on NiCoCrAl alloys with and without yttrium". Materials Science and Engineering: A 120-121 (noviembre de 1989): 153–59. http://dx.doi.org/10.1016/0921-5093(89)90733-8.

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9

Lu, Yu-Sheng, Man-Ping Chang y Te-Hua Fang. "Phase transformation and microstructure evolution of nanoimprinted NiCoCr medium entropy alloys". Journal of Alloys and Compounds 892 (febrero de 2022): 162138. http://dx.doi.org/10.1016/j.jallcom.2021.162138.

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10

Zhao, Shijun, Yuri Osetsky y Yanwen Zhang. "Preferential diffusion in concentrated solid solution alloys: NiFe, NiCo and NiCoCr". Acta Materialia 128 (abril de 2017): 391–99. http://dx.doi.org/10.1016/j.actamat.2017.01.056.

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11

Li, Xiaodong, Jiaxin Du, Jijin Xu, Shuai Wang, Mengling Shen y Chuanhai Jiang. "Crack Inhibition and Performance Modification of NiCoCr-Based Superalloy with Y2O3 Nanoparticles by Laser Metal Deposition". Materials 16, n.º 10 (9 de mayo de 2023): 3616. http://dx.doi.org/10.3390/ma16103616.

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A new precipitation strengthening NiCoCr-based superalloy with favorable mechanical performance and corrosion resistance was designed for ultra-supercritical power generation equipment. The degradation of mechanical properties and steam corrosion at high temperatures put forward higher requirements for alternative alloy materials; however, when the superalloy is processed to form complex shaped components through advanced additive manufacturing techniques such as laser metal deposition (LMD), hot cracks are prone to appear. This study proposed that microcracks in LMD alloys could be alleviated with powder decorated by Y2O3 nanoparticles. The results show that adding 0.5 wt.% Y2O3 can refine grains significantly. The increase in grain boundaries makes the residual thermal stress more uniform to reduces the risk of hot cracking. In addition, the addition of Y2O3 nanoparticles enhanced the ultimate tensile strength of the superalloy at room temperature by 18.3% compared to original superalloy. The corrosion resistance was also improved with 0.5 wt.% Y2O3, which was attributed to the reduction of defects and the addition of inert nanoparticles.
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12

Paulus, Pascal, Yannick Ruppert, Michael Vielhaber y Juergen Griebsch. "Process Map Definition for Laser Metal Deposition of VDM Alloy 780 on the 316L Substrate". Journal of Manufacturing and Materials Processing 7, n.º 3 (26 de abril de 2023): 86. http://dx.doi.org/10.3390/jmmp7030086.

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VDM Alloy 780 is a novel Ni-based superalloy that allows for approximately 50 °C higher operating temperatures, compared to Inconel 718, without a significant decrease in mechanical properties. The age hardenable NiCoCr Alloy combines increased temperature strength with oxidation resistance, as well as improved microstructural stability due to γ′-precipitation. These advantages make it suitable for wear- and corrosion-resistant coatings that can be used in high temperature applications. However, VDM Alloy 780 has not yet been sufficiently investigated for laser metal deposition applications. A design of experiments with single tracks on 316L specimens was carried out to evaluate the influence of the process parameters on clad quality. Subsequently, the quality of the clads was evaluated by means of destructive and non-destructive testing methods, in order to verify the suitability of VDM Alloy 780 for laser metal deposition applications. The single-track experiments provide a basis for coating or additive manufacturing applications. For conveying the results, scatter plots with regression lines are presented, which illustrate the influence of specific energy density on the resulting porosity, dilution, powder efficiency, aspect ratio, width and height. Finally, the clad quality, in terms of porosity, is visualized by two process maps with different mass per unit lengths.
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13

Liu, Feng, Xiangyou Xiao, Lan Huang, Liming Tan y Yong Liu. "Design of NiCoCrAl eutectic high entropy alloys by combining machine learning with CALPHAD method". Materials Today Communications 30 (marzo de 2022): 103172. http://dx.doi.org/10.1016/j.mtcomm.2022.103172.

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14

Pulikkotil, J. J. "Propensity of spin fluctuations in disordered NiCoCr alloys: A first principles study". Journal of Alloys and Compounds 864 (mayo de 2021): 158817. http://dx.doi.org/10.1016/j.jallcom.2021.158817.

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15

Li, Wei, Xianghe Peng, Alfonso H. W. Ngan y Jaafar A. El-Awady. "Surface energies and relaxation of NiCoCr and NiFeX (X = Cu, Co or Cr) equiatomic multiprincipal element alloys from first principles calculations". Modelling and Simulation in Materials Science and Engineering 30, n.º 2 (16 de diciembre de 2021): 025001. http://dx.doi.org/10.1088/1361-651x/ac3e07.

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Abstract First principles calculations of the energies and relaxation of unreconstructed low-index surfaces, i.e. (001), (011) and (111) surfaces, in NiCoCr and NiFeX (X = Cu, Co or Cr) equiatomic multi-principal element alloys (MPEAs) are presented. The calculations were conducted for 12-layer slabs represented by special quasi-random supercells using the projector augmented wave method within the generalized gradient approximation. While experimental predictions are unavailable for comparison, the calculated surface energies agree fairly well with those from thermodynamic modeling and a bond-cutting model. In addition, the calculations unveil an important surface structure, namely, that the topmost surface layer is in contraction except for the (001) surface of NiFeCr alloy, the next layer below is in extension, and the bulk spacing is gradually recovered from the subsequent layers down. Additionally, the surface contraction is the most pronounced on the (011) plane, being about 4%–10% relative to the bulk spacings. The results presented here can provide an understanding of surface-controlled phenomena such as corrosion, catalytic activities and fracture properties in these equiatomic MPEAs.
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16

Shi, F. K., Q. K. Zhang, C. Xu, F. Q. Hu, L. J. Yang, B. Z. Zheng y Z. L. Song. "In-situ synthesis of NiCoCrMnFe high entropy alloy coating by laser cladding". Optics & Laser Technology 151 (julio de 2022): 108020. http://dx.doi.org/10.1016/j.optlastec.2022.108020.

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17

Zhang, T. W., S. G. Ma, D. Zhao, Y. C. Wu, Y. Zhang, Z. H. Wang y J. W. Qiao. "Simultaneous enhancement of strength and ductility in a NiCoCrFe high-entropy alloy upon dynamic tension: Micromechanism and constitutive modeling". International Journal of Plasticity 124 (enero de 2020): 226–46. http://dx.doi.org/10.1016/j.ijplas.2019.08.013.

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18

Yang, Biaobiao, Jiaxiang Li, Xiaojuan Gong, Yan Nie y Yunping Li. "Effects of Cu addition on the corrosion behavior of NiCoCrMo alloys in neutral chloride solution". RSC Advances 7, n.º 65 (2017): 40779–90. http://dx.doi.org/10.1039/c7ra05617f.

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The influence of Cu addition (0–4 mass%) on the corrosion behavior of Ni–30Co–16Cr–15Mo alloy in neutral chloride solution is investigated by electrochemical measurements. Some essential surface analysis are also conducted to explain the corrosion mechanism.
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19

Godlewska, E., E. Roszczynialska y Z. ?urek. "The influence of sulfur pressure on Sulfidation behaviour of NiCoCrAl(Y) alloys at high temperature". Materials and Corrosion/Werkstoffe und Korrosion 45, n.º 6 (junio de 1994): 341–48. http://dx.doi.org/10.1002/maco.19940450604.

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20

Baker, Ian. "Interstitials in f.c.c. High Entropy Alloys". Metals 10, n.º 5 (25 de mayo de 2020): 695. http://dx.doi.org/10.3390/met10050695.

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The effects of interstitials on the mechanical properties of single-phase f.c.c. high entropy alloys (HEAs) have been assessed based on a review of the literature. It is found that in nearly all studies, carbon increases the yield strength, in some cases by more than in traditional alloys. This suggests that carbon can be an excellent way to strengthen HEAs. This strength increase is related to the lattice expansion from the carbon. The effects on other mechanical behavior is mixed. Most studies show a slight reduction in ductility due to carbon, but a few show increases in ductility accompanying the yield strength increase. Similarly, some studies show little or modest increases in work-hardening rate (WHR) due to carbon, whereas a few show a substantial increase. These latter effects are due to changes in deformation mode. For both undoped and carbon doped CoCrFeMnNi, the room temperature ductility decreases slightly with decreasing grain size until ~2–5 µm, below which the ductility appears to decrease rapidly. The room temperature WHR also appears to decrease with decreasing grain size in both undoped and carbon-doped CoCrFeMnNi and in nitrogen-doped medium entropy alloy NiCoCr, and, at least for the undoped HEA, shows a sharp decrease at grain sizes <2 µm. Interestingly, carbon has been shown to almost double the Hall–Petch strengthening in CoCrFeMnNi, suggesting the segregation of carbon to the grain boundaries. There have been few studies on the effects of other interstitials such as boron, nitrogen and hydrogen. It is clear that more research is needed on interstitials both to understand their effects on mechanical properties and to optimize their use.
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21

Hall, Timothy. "(Digital Presentation) Industrial Transition and Methods to Apply Metallic Alloys and Composites By Electrodeposition". ECS Meeting Abstracts MA2022-01, n.º 22 (7 de julio de 2022): 1116. http://dx.doi.org/10.1149/ma2022-01221116mtgabs.

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Faraday Technology Inc. is a research, development and engineering firm developing electrochemical innovations based has pulse/pulse reverse electrolytic principles [1]. With that founding basis Faraday has been able to bridge the gap between academic understanding and small scale demonstration to commercialization of practical components over 30 years of operation. This presentation will discuss a broad range of alloy and composite deposition programs that have been carried out at Faraday. These include functionally graded NiMo, CeO2 inclusion in NiMo, CrAlY inclusions in NiCo, NiCoCr alloy deposition, and so on. We intend the presentation to give a perspective on the challenges associated with transitioning electrodeposition technologies from coupons to components. We also want to demonstrate the potential to achieve success during these challenging transitions by tuning the electrochemical device and method. Finally, we will try to identify similarities and differences in the observed challenges and ways that many could be overcome either by electrochemical engineering, process developments, or program planning.
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22

Uzer, Benay, S. Picak, J. Liu, T. Jozaghi, D. Canadinc, I. Karaman, Y. I. Chumlyakov y I. Kireeva. "On the mechanical response and microstructure evolution of NiCoCr single crystalline medium entropy alloys". Materials Research Letters 6, n.º 8 (6 de junio de 2018): 442–49. http://dx.doi.org/10.1080/21663831.2018.1478331.

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23

Lu, Chenyang, Tai-Ni Yang, Ke Jin, Gihan Velisa, Pengyuan Xiu, Qing Peng, Fei Gao et al. "Irradiation effects of medium-entropy alloy NiCoCr with and without pre-indentation". Journal of Nuclear Materials 524 (octubre de 2019): 60–66. http://dx.doi.org/10.1016/j.jnucmat.2019.06.020.

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24

Rabinkin, A. "Brazing with (NiCoCr)–B–Si amorphous brazing filler metals: alloys, processing, joint structure, properties, applications". Science and Technology of Welding and Joining 9, n.º 3 (junio de 2004): 181–99. http://dx.doi.org/10.1179/136217104225012300.

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25

Miao, J., C. E. Slone, T. M. Smith, C. Niu, H. Bei, M. Ghazisaeidi, G. M. Pharr y M. J. Mills. "STEM Characterization of the Deformation Substructure of a NiCoCr Equiatomic Solid Solution Alloy". Microscopy and Microanalysis 23, S1 (julio de 2017): 752–53. http://dx.doi.org/10.1017/s1431927617004421.

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26

Velişa, G., Z. Fan, M. L. Crespillo, H. Bei, W. J. Weber y Y. Zhang. "Temperature effects on damage evolution in ion-irradiated NiCoCr concentrated solid-solution alloy". Journal of Alloys and Compounds 832 (agosto de 2020): 154918. http://dx.doi.org/10.1016/j.jallcom.2020.154918.

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27

Ke, Chaojun, Chenyang Wang y Xiaodong Wang. "Superior low temperature mechanical properties and microstructure of (NiCoCr)95V5 medium entropy alloy". Intermetallics 162 (noviembre de 2023): 108034. http://dx.doi.org/10.1016/j.intermet.2023.108034.

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28

Seraffon, M., N. J. Simms, J. Sumner y J. R. Nicholls. "Oxidation Behaviour of NiCrAl and NiCoCrAl Bond Coatings Under Industrial Gas Turbine Conditions". Oxidation of Metals 81, n.º 1-2 (19 de septiembre de 2013): 203–15. http://dx.doi.org/10.1007/s11085-013-9446-3.

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29

Tong, Y., K. Jin, H. Bei, J. Y. P. Ko, D. C. Pagan, Y. Zhang y F. X. Zhang. "Local lattice distortion in NiCoCr, FeCoNiCr and FeCoNiCrMn concentrated alloys investigated by synchrotron X-ray diffraction". Materials & Design 155 (octubre de 2018): 1–7. http://dx.doi.org/10.1016/j.matdes.2018.05.056.

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30

Li, Yunping, Xiandong Xu, Yuhang Hou, Chen Zhang, Fenglin Wang, Kazuyo Omura, Yuichiro Koizumi y Akihiko Chiba. "Regulating the passive film of NiCoCrMo alloy in hydrofluoric acid solution by small addition of Cu". Corrosion Science 98 (septiembre de 2015): 119–27. http://dx.doi.org/10.1016/j.corsci.2015.05.024.

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31

Li, Chao, Peng Song, Jing Feng, Taihong Huang, Kaiyue Lü, Qiaolei Li, Wenhao Duan, Asim Khan, Ruixiong Zhai y Jiansheng Lu. "Alumina growth behaviour on the surface-modified NiCoCrAl alloy by Pt and Hf at high temperature". Applied Surface Science 479 (junio de 2019): 1178–91. http://dx.doi.org/10.1016/j.apsusc.2019.02.179.

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32

Gheno, Thomas y Greta Lindwall. "On the Simulation of Composition Profiles in NiCoCrAl Alloys During Al2O3 Scale Growth in Oxidation and Oxidation–Dissolution Regimes". Oxidation of Metals 91, n.º 3-4 (22 de octubre de 2018): 243–57. http://dx.doi.org/10.1007/s11085-018-9877-y.

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33

SHI, Guo-dong, Zhi WANG, Yi-shou WANG, Zhan-jun WU y Jun LIANG. "Effect of heat treatment on microstructure and tensile strength of NiCoCrAl alloy sheet fabricated by EB-PVD". Transactions of Nonferrous Metals Society of China 22, n.º 10 (octubre de 2012): 2395–401. http://dx.doi.org/10.1016/s1003-6326(11)61476-3.

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34

Peng, Hanlin, Ian Baker, Yaoyong Yi, Ling Hu, Weiping Fang, Liejun Li, Bingbing Luo y Ziyi Luo. "Dissimilar electron beam welding of the medium-entropy alloy (NiCoCr)94Al3Ti3 to 304 stainless steel". Scripta Materialia 214 (junio de 2022): 114659. http://dx.doi.org/10.1016/j.scriptamat.2022.114659.

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35

Baruffi, C., M. Ghazisaeidi, D. Rodney y W. A. Curtin. "Equilibrium versus non-equilibrium stacking fault widths in NiCoCr". Scripta Materialia 235 (octubre de 2023): 115536. http://dx.doi.org/10.1016/j.scriptamat.2023.115536.

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36

Song, Peng, Xiao Yu, Taihong Huang, Xuan He, Qiang Ji, Junjie Zang, Rong Chen, Jianguo Lü y Jiansheng Lu. "Evolution of in-situ pores and high-temperature thermal-barrier performance of Al-Si coating on NiCoCrAl alloy". Surface and Coatings Technology 344 (junio de 2018): 489–98. http://dx.doi.org/10.1016/j.surfcoat.2018.03.074.

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37

Khan, Asim, Peng Song, Taihong Huang, Ying Zhou, Xiping Xiong, Chao Li, Jianguo Lü, Rong Chen y Jiansheng Lu. "Diffusion characteristics and structural stability of Pt modified β-NiAl/γ′-Ni3Al within NiCoCrAl alloy at high temperature". Applied Surface Science 476 (mayo de 2019): 1096–107. http://dx.doi.org/10.1016/j.apsusc.2019.01.232.

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38

Ashtari, P., N. Parvinai Ahmadi y S. Yazdani. "Isothermal oxidation kinetics of laser cladded NiCoCrAl/WC + La2O3 hybrid composite coatings at 700 °C". Metallic Materials 59, n.º 04 (2021): 269–78. http://dx.doi.org/10.4149/km_2021_4_269.

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39

Zhang, D. D., H. Wang, J. Y. Zhang, H. Xue, G. Liu y J. Sun. "Achieving excellent strength-ductility synergy in twinned NiCoCr medium-entropy alloy via Al/Ta co-doping". Journal of Materials Science & Technology 87 (octubre de 2021): 184–95. http://dx.doi.org/10.1016/j.jmst.2021.01.060.

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40

Kai, W., H. C. Lin, F. P. Cheng, H. H. Hsieh, W. T. Lin, D. Chen y J. J. Kai. "Effect of oxygen pressure on the oxidation behavior of NiCoCr medium-entropy alloy at 800 °C". Corrosion Science 185 (junio de 2021): 109411. http://dx.doi.org/10.1016/j.corsci.2021.109411.

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41

Shang, Y. Y., Y. Wu, J. Y. He, X. Y. Zhu, S. F. Liu, H. L. Huang, K. An et al. "Solving the strength-ductility tradeoff in the medium-entropy NiCoCr alloy via interstitial strengthening of carbon". Intermetallics 106 (marzo de 2019): 77–87. http://dx.doi.org/10.1016/j.intermet.2018.12.009.

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42

Liu, Shaofei, Weitong Lin, Yilu Zhao, Da Chen, Guma Yeli, Feng He, Shijun Zhao y Ji-jung Kai. "Effect of silicon addition on the microstructures, mechanical properties and helium irradiation resistance of NiCoCr-based medium-entropy alloys". Journal of Alloys and Compounds 844 (diciembre de 2020): 156162. http://dx.doi.org/10.1016/j.jallcom.2020.156162.

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43

Hu, G. W., L. C. Zeng, H. Du, Q. Wang, Z. T. Fan y X. W. Liu. "Combined effects of solute drag and Zener pinning on grain growth of a NiCoCr medium-entropy alloy". Intermetallics 136 (septiembre de 2021): 107271. http://dx.doi.org/10.1016/j.intermet.2021.107271.

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44

Guo, Xiaobin, Ian Baker, Francis E. Kennedy y Min Song. "A comparison of the dry sliding wear behavior of NiCoCr medium entropy alloy with 316 stainless steel". Materials Characterization 160 (febrero de 2020): 110132. http://dx.doi.org/10.1016/j.matchar.2020.110132.

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45

Song, Peng, Xuan He, Xiping Xiong, Hongqing Ma, Qunling Song, Jianguo Lü y Jiansheng Lu. "Effect of water vapor on evolution of a thick Pt-layer modified oxide on the NiCoCrAl alloy at high temperature". Materials Research Express 5, n.º 3 (16 de marzo de 2018): 036514. http://dx.doi.org/10.1088/2053-1591/aab479.

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46

Peng, Hanlin, Yaoyong Yi, Weiping Fang, Ling Hu, Ian Baker, Liejun Li y Bingbing Luo. "Optimization of the microstructure and mechanical properties of electron beam welded high-strength medium-entropy alloy (NiCoCr)94Al3Ti3". Intermetallics 141 (febrero de 2022): 107439. http://dx.doi.org/10.1016/j.intermet.2021.107439.

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47

Liu, Hao, Jingbin Hao, Zhengtong Han, Gang Yu, Xiuli He y Haifeng Yang. "Microstructural evolution and bonding characteristic in multi-layer laser cladding of NiCoCr alloy on compacted graphite cast iron". Journal of Materials Processing Technology 232 (junio de 2016): 153–64. http://dx.doi.org/10.1016/j.jmatprotec.2016.02.001.

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Shi, Guodong, Guiqing Chen, Jun Liang y Shanyi Du. "Influence of Metal-Layer Thickness on Annealing behaviors of a NiCoCrAl/YSZ Multiscalar Microlaminate produced by EB-PVD". Journal of Alloys and Compounds 476, n.º 1-2 (mayo de 2009): 830–35. http://dx.doi.org/10.1016/j.jallcom.2008.09.155.

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He, Junyang, Surendra Kumar Makineni, Wenjun Lu, Yuanyuan Shang, Zhaoping Lu, Zhiming Li y Baptiste Gault. "On the formation of hierarchical microstructure in a Mo-doped NiCoCr medium-entropy alloy with enhanced strength-ductility synergy". Scripta Materialia 175 (enero de 2020): 1–6. http://dx.doi.org/10.1016/j.scriptamat.2019.08.036.

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Weicheng, Kong, Li Kangmei y Hu Jun. "Effects of laser power on microstructure and friction–wear performances of direct energy deposited ZrO2–8%Y2O3–NiCoCrAl coatings on Ti6Al4V alloy". Optics & Laser Technology 142 (octubre de 2021): 107214. http://dx.doi.org/10.1016/j.optlastec.2021.107214.

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