References
- Seok Han Yoon, "자동차용화학소재 : 자동차용섬유화학소재 개발 동향", 공업화학전망 16권6호 (2013).
- M.Y. Lyu, "Application Trend of Plastics: Manufacturing Technology of Plastics for Lightweight Automobile", 소성가공 443-450 (2015).
- S.G Lee, "자동차용 복합재료", 기계저널 39권2호, (1997).
- H.Unal, "Abrasive wear behaviour of polymeric materials", Materials & Design vol 26 705-710 (2005). https://doi.org/10.1016/j.matdes.2004.09.004
- B. N. Ravi Kumar, "Effect of Abrasives on Three-Body Abrasive Wear Behaviour of Particulate-Filled Polyamide66/Polypropylene Nanocomposites", Composite Interfaces vol 17 (2010).
- S. M. Lee, "Effect of carbon-nanotube length on friction and wear of polyamide 6,6 nanocomposites", Wear (2014).
- Riadh Autay, "Effect of hygrothermal aging on mechanical and tribological behaviors of short glass-fiberreinforced PA66", Thermoplastic Composite Materials (2019).
- Y. Xing, "Study on the Friction and Wear Behaviors of Modified PA66 Composites", Polymer-Plastics Technology and Engineering (2009).
- H. Hunke, "Plasma modified Polytetrafluoroethylene (PTFE) lubrication of α-olefin-copolymer impact-modified Polyamide66", Wear (2015).
- Seung-Soo Kim, "Pyrolysis Characteristics of the Mixture of Waste Fishing Net and Waste Ship Lubricating Oil", Industrial and Engineering Chemistry (2008).
- S. C. Kang, "The Friction and Wear of the Plastic (Polymer) Bearing Materials in Lubricated Condition", 한국과학기술부 (1991).
- E. Basavaraj, "A Study on Mechanical, Thermal, and Wear Characteristics of Nylon 66/Molybdenum Disulfide Composites Reinforced With Glass Fibers", Polymer composites (2012).
- T. Kubart, "Temperature dependence of tribological properties of MoS2 and MoSe2 coatings, Surface and Coatings Technology (2005).
- Paula Ussa Aldana, "WS2 nanoparticles anti-wear and friction reducing properties on rough surfaces in the presence of ZDDP additive", Tribology International (2016).
- J. Korzekwa, "Wear Mechanism of Al2O3/WS2 With PEEK/BG Plastic", Tribology (2014).
- YR Liang, "Mechanical and tribological properties of nitrile rubber filled with modified molybdenum disulphide", Plastics, Rubber and Composites (2016).
- M. Khodaei, "Superhydrophobicity on aluminum through reactive-etching and TEOS/GPTMS/nano-Al2O3 silane-based nanocomposite coating", Surface and Coatings Technology (2019).
- Kaline Pagnan Furlan, "Self-lubricating composites containing MoS2: A review", Tribology International (2018).
- Stanislav Presolski, "Covalent functionalization of MoS2", Materials today (2016).
- Ning Kong, "Advantages of using self-lubricating, hard, wear-resistant MoS2-based coatings", RSC Advances (2020).