微碳球作为橄榄油润滑添加剂的摩擦学性能的研究
Tribological Behavior of Micro-Carbon Sphere as Lubricant Additives in Olive Oil
DOI: 10.12677/MET.2018.75040, PDF,    科研立项经费支持
作者: 杨太永, 万 勇:青岛理工大学,机械与汽车工程学院,山东 青岛;顾作宁:蓬莱市市场监督管理局,山东 蓬莱
关键词: 微碳球橄榄油减摩抗磨润滑添加剂拉曼光谱Micro-Carbon Spheres Olive Oil Friction-Reduction and Wear Protection Lubricating Additive Raman Spectroscopy
摘要: 本文利用葡萄糖作为前身化合物一步水热合成制得微碳球,利用扫描电镜、FT-IR红外光谱仪等对微碳球进行表征,使用摩擦磨损实验机考察了微碳球作为添加剂在橄榄油中的摩擦学性能,并探讨了润滑机理。实验结果表明:将微碳球加入到橄榄油中后可以明显的起到减摩抗磨的作用,这主要是由于微碳球在滑动过程中进入接触区并沉积而形成的富碳薄膜。
Abstract: Micro-carbon spheres were prepared in one step by means of hydrothermal synthesis by using glu-cose as the precursor and then characterized by scanning electron microscopy and FT-IR spectrometer. The lubricating properties of the micro-carbon spheres as additives in olive oil were tested. Raman microscopy spectrometer was used to clarify the lubrication mechanism. It is found that the addition of micro-carbon spheres into olive oil can obviously reduce the friction coefficient and enhance anti-wear performance, which is due to the deposition of micro-carbon spheres in the contact zone.
文章引用:杨太永, 顾作宁, 万勇. 微碳球作为橄榄油润滑添加剂的摩擦学性能的研究[J]. 机械工程与技术, 2018, 7(5): 328-335. https://doi.org/10.12677/MET.2018.75040

参考文献

[1] Mangolini, F., Rossi, A. and Spencer, N.D. (2011) Influence of Metallic and Oxidized Iron/Steel on the Reactivity of Triphenyl Phosphorothionate in Oil Solution. Tribology International, 44, 670-683. [Google Scholar] [CrossRef
[2] Mangolini, F., Rossi, A. and Spencer, N.D. (2009) Reactivity of Triphenyl Phosphorothionate in Lubricant oil Solution. Tribology Letters, 35, 31-43. [Google Scholar] [CrossRef
[3] Johnson, D.W., Bachus, M. and Hils, J.E. (2013) Interaction between Lubricants Containing Phosphate Ester Additives and Stainless Steels. Lubricants, 1, 48-60. [Google Scholar] [CrossRef
[4] Hashimoto, C., Okubo, H., Tadokoro, C., et al. (2016) Correlation between Nano-Mechanical and Macro-Tribological Properties of Tribofilms Derived from Organic Phosphoric Additives. Tribology Online, 11, 632-638. [Google Scholar] [CrossRef
[5] Jiang, Z., Fang, J., Chen, B., et al. (2018) Effect of Magnetic Field on Tribological Performances of Two Lubricating Oils with Phosphorus-Containing Additives. Lubrication Science, 30, 23-32. [Google Scholar] [CrossRef
[6] Wu, L., Keer, L.M., Lu, J., et al. (1983) Molecular Dynamics Simu-lations of the Rheological Properties of Graphene-PAO Nanofluids. Journal of Materials Science, 118, 1-8.
[7] Johnson, B., Wu, H., Desanker, M., et al. (2018) Direct Formation of Lubricious and Wear-Protective Carbon Films from Phosphorus and Sulfur-Free Oil-Soluble Additives. Tribology Letters, 66, 2. [Google Scholar] [CrossRef
[8] Mistry, K.K., Pol, V.G., Thackeray, M.M., Wen, J., Miller, D.J. and Erdemir, A. (2015) Synthesis and Tribology of Micro-Carbon Sphere Additives for Enhanced Lubrication. Tribology Transactions, 3, 474-480. [Google Scholar] [CrossRef
[9] Alazemi, A., Etacheri, V., Dysart, A., Stacke, D.L., Pol, V.G. and Sadeghi, F. (2015) Ultrasmooth Sub-Micrometer Carbon Spheres as Lubricant Additives for Friction and Wear Reduction. ACS Applied Materials & Interfaces, 9, 5514-5521. [Google Scholar] [CrossRef] [PubMed]
[10] Alazemi, A.A., Etacheri, V. and Dysart, A.D. (2015) Ultrasmooth Submicrometer Carbon Spheres as Lubricant Additives for Friction and Wear Reduction. ACS Applied Materials & Interfaces, 7, 5514-5521. [Google Scholar] [CrossRef] [PubMed]
[11] St. Dennis, J.E., Jin, K. and John, V.T. (2011) Carbon Microspheres as Ball Bearings in Aqueous-Based Lubrication. ACS Applied Materials & Interfaces, 3, 2215-2218. [Google Scholar] [CrossRef] [PubMed]
[12] 管述哲, 张乐涛, 刘宣池, 等. 纳米碳球作为合成酯抗磨剂的摩擦学性能研究[J]. 润滑与密封, 2015(12): 61-65.
[13] 古毓康, 曹磊, 万勇, 等. 铝合金基底微碳球作为润滑油添加剂的摩擦学性能及其润滑机理[J]. 无机材料学报, 2017, 32(6): 625-630.
[14] Sun, X. and Li, Y. (2004) Colloidal Carbon Spheres and Their Core/Shell Structures with Noble-Metal Nanoparticles. Angewandte Chemie, 5, 597-601. [Google Scholar] [CrossRef] [PubMed]
[15] Stachowiak, G.W. and Batchelor, A.W. (2001). Engineering. Tri-bology, London.
[16] Tuinstra, F. and Koenig, J.L. (1970) Raman Spectrum of Graphite. Journal of Physical Chemistry, 53, 1126-1130. [Google Scholar] [CrossRef
[17] Jorioa, A. and Saitoe, R. (2007) Studying Disorder in Graphite-Based Systems by Raman Spectroscopy. Physical Chemistry Chemical Physics, 9, 1276-1291. [Google Scholar] [CrossRef

为你推荐