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Tribology Transactions Volume 62, 2019 - Issue 1
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Original Articles

Enhanced Mechanical and Tribological Properties of Graphene-Reinforced TiAl Matrix Composites

Bing XueYellow River Conservancy Technical Institute, Kaifeng, P. R. China; View further author information
,
Zengshi XuWuhan Institute of Marine Electric Propulsion, Wuhan, P. R. China; View further author information
,
Yi LiuSchool of Mechanical and Electronic Engineering, Wuhan Donghu University, Wuhan, P. R. ChinaCorrespondence[email protected]
View further author information
&
Weidong MaYellow River Conservancy Technical Institute, Kaifeng, P. R. China; View further author information
Pages 117-126 | Received 23 Feb 2018, Published online: 29 Oct 2018

References

  • Duan, W. B., Sun, Y. H., Liu, C. H., Liu, S. H., Li, Y. Y., Ding, C. H., Ran, G., and Yu, L. (2016), “Study on the Formation Mechanism of the Glaze Film Formed on Ni/Ag Composites,” Tribology International, 95, pp 324–332.
  • Reinert, L., Green, I., Gimmler, S., Lechthaler, B., and Suárez S. (2018), “Tribological Behavior of Self-Lubricating Carbon Nanoparticle Reinforced Metal Matrix Composites,” Wear, 408-409, pp 72–85.
  • Zhu, S. Y., Li, F., Ma, J. Q., Cheng, J., Yin, B., Yang, J., Qiao, Z. H., and Liu, W. M. (2015), “Tribological Properties of Ni3Al Matrix Composites With Addition of Silver and Barium Salt,” Tribology International, 84, pp 118–123
  • Mogonye, J. E., Srivastava, A., Gopagoni, S., Banerjee, R., and Scharf, T. W. (2016), “Solid/Self-Lubrication Mechanisms of an Additively Manufactured Ni-Ti-C Metal Matrix Composite,” Tribology Letters, 64, pp 37.
  • Zhu, S. Y., Bi, Q. L., Niu, M. Y., Yang, J., and Liu, W. M. (2015), “Tribological Behavior of NiAl Matrix Composites With Addition of Oxides at High Temperatures,” Wear, 274–275, pp 423–434.
  • Xu, Z. S., Hua, S. Y., and Zhan, M. (2017), “Relationship Between the Integrity of Lubricating Film and the Tribological Behavior on TiAl-Ag Self-Lubricating Composites,” Journal of Materials Engineering and Performance, 26, pp 5795–5800.
  • Wang, L., Cheng, J., Zhu, S. Y., Yu, Y., Qiao, Z. H., Yang, J., and Liu, W. M. (2017), “High Temperature Wear Behaviors of TiAl–TiB2 Composites,” Tribology Letters, 65, p 144.
  • Cui, G. J., Han, J. R., and Wu, G. X. (2016), “High-Temperature Wear Behavior of Self-Lubricating Co Matrix Alloys Prepared by P/M,” Wear, 346–347, pp 116–123.
  • Wang, J. Y., Shan, Y., Guo, H. J., Li, B., Wang, W. Z., and Jia, J. H. (2015), “Friction and Wear Characteristics of Hot-Pressed NiCr-Mo/MoO3/Ag Self-Lubrication Composites at Elevated Temperatures up to 900 °C,” Tribology Letters, 59, p 48.
  • Zhao, J., He, Y. Y., Wang, Y. F., Wang, W., and Luo, J. B. (2016), “An Investigation on the Tribological Properties of Multilayer Graphene and MoS2 Nanosheets as Additives Used in Hydraulic Applications,” Tribology International, 97, pp 14–20.
  • Klemenz, A., Pastewka, L., Balakrishna, S. G., Caron, A., Bennewitz, R., and Moseler, M. (2014), “Atomic Scale Mechanisms of Friction Reduction and Wear Protection by Graphene,” Nano Letters, 14, pp 7145–152.
  • Gao, X., Yue, H. Y., Guo, E., Zhang, H., Lin, X. Y., Yao, L. H., and Wang, B. (2016), “Mechanical Properties and Thermal Conductivity of Graphene Reinforced Copper Matrix Composites,” Powder Technology, 301, pp 601–607.
  • Zhai, W. Z., Shi, X.L., Yao, J., Ibrahim, A. M. M., Xu, Z. S., Zhu, Q. S., Xiao Y. C., Chen, L., Zhang, Q. X. (2015), “Investigation of Mechanical and Tribological Behaviors of Multilayer Graphene Reinforced Ni3Al Matrix Composites,” Composites Part B, 70, pp 149–155.
  • Xu, Z. S., Shi, X. L., Zhai, W. Z., Yao, J., Song, S. Y., and Zhang, Q. X. (2014), “Preparation and Tribological Properties of TiAl Matrix Composites Reinforced by Multilayer Graphene,” Carbon, 67, pp 168–177.
  • Zou, J. L., Shi, X. L., Shen, Q., Yang, K., Huang, Y. C., Zhang, A., and Wang, Y. F. (2017), “Tribological Behavior of TiAl-Multilayer Graphene-Ag Composites at Different Temperatures and Sliding Speeds,” Acta Metallurgica Sinica (English Letters), 30, pp 193–200.
  • Yao, B., and Han, Z. (2017), “Effect of Counterface Materials on Dynamic Recrystallized Structure and Wear Resistance of Nanostructured Cu,” Tribology Letters, 113, pp 426–432.
  • Shi, X. L., Xu, Z. S., Wang, M., Zhai, W. Z., Yao, J., Song, S. Y., and Zhang, Q. X. (2013), “Tribological Behavior of TiAl Matrix Self-Lubricating Composites Containing Silver From 25 to 800 °C,” Wear, 303, pp 486–494.
  • Chi, H. T., Jiang, L. T., Chen, G. Q., Kang, P. C., Lin, X., and Wu, G. H. (2015), “Dry Sliding Friction and Wear Behavior of (TiB2 + h-BN)/2024Al Composites,” Materials & Design, 87, pp 960–968.
  • Peng, H. B., Sun, M. L., Zhang, D. F., Yang, D., and Zhao, Y. T. (2016), “Raman Spectroscopy of Graphene Irradiated With Highly Charged Ions,” Surface and Coatings Technology, 306, pp 171–175.
  • Chen, J. J., Li, J. L., Xiong, D. S., He, Y., Ji, Y. J., and Qin, Y. K. (2016), “Preparation and Tribological Behavior of Ni-Graphene Composite Coating Under Room Temperature,” Carbon, 361, pp 49–56.
  • Xu, Z. S., Zhang, Q. X., Jing, P. X., and Zhai, W. Z. (2015), “High Temperature Tribological Performance of TiAl Matrix Composites Reinforced by Multilayer Graphene,” Tribology Letters, 58, p 3.
  • Yang, J., Xia, Y. F., Song, H. J., Chen, B. B., and Zhang, Z. Z. (2017), “Synthesis of the Liquid-Like Graphene With Excellent Tribological Properties,” Tribology International, 105, pp 118–124.
  • Rasheed, A. K., Khalid, M., Javeed, A., Rashmi, W., Gupta, T. C. S. M., and Chan, A. (2016), “Heat Transfer and Tribological Performance of Graphene Nanolubricant in an Internal Combustion Engine,” Tribology International, 103, pp 504–515.
  • Grandin, M., and Wiklund, U. (2018), “Wear Phenomena and Tribofilm Formation of Copper/Copper-Graphite Sliding Electrical Contact Materials,” Wear, 398–399, pp 227–235.
  • Xu, Z. S., Zhang, Q. X., Zhai, W. Z., and Li, X. X. (2015), “Analytical Model and Experimental Validation of Local Damage Mechanism of Solid Lubricant Film for Metal Matrix Self-Lubricating Composites,” RSC Advances, 5, pp 74850–74857.
  • Shimizu, Y., and Spikes, H. A. (2017), “The Influence of Aluminium-Silicon Alloy on ZDDP Tribofilm Formation on the Counter-Surface,” Tribology Letters, 65, p 137.
  • Banerjee, T., and Chattopadhyay, A. K. (2018), “Influence of Substrate Bias on Structural and Tribo-Mechanical Properties of Pulsed Magnetron Sputtered TiN-WSX Hard-Lubricious Coating,” Tribology International, 123, pp 81–91.
  • Xu, Z. S., Zhang, Q. X., Shi, X. L., Zhai, W. Z., and Zhu, Q. S. (2015), “Comparison of Tribological Properties of NiAl Matrix Composites Containing Graphite, Carbon Nanotubes or Graphene,” Journal of Materials Engineering and Performance, 24, pp 1926–1936.
  • Xu, Z. S., Zhang, Q. X., Shi, X. L., Zhai, W. Z., and Yang, K. (2015), “Tribological Properties of TiAl Matrix Self-Lubricating Composites Containing Multilayer Graphene and Ti3SiC2 at High Temperatures,” Tribology Transactions, 58, pp 1131–1141.
  • Zhang, Q. Y., Zhou, Y., Li, X. X., Wang, L., Cui, X. H., and Wang, S. Q. (2016), “Accelerated Formation of Tribo-Oxide Layer and Its Effect on Sliding Wear of a Titanium Alloy,” Tribology Letters, 63, p 2.
  • Li, G. T., Qi, H. M., Zhang, G., Zhao, F. Y., Wang, T. M., and Wang, Q. H. (2017), “Significantly Friction and Wear Reduction by Assembling Two Individual PEEK Composites With Specific Functionalities,” Materials & Design, 116, pp 152–159.

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