Tribological behavior of polyamide-6 plastics and their potential use in industrial applications

The present research article addresses an investigation of tribological properties of 3 commercially available cast polyamide 6 (PA 6): a natural PA 6 polymer, a PA 6 filled with molybdenum disulfide (MoS2), and a PA 6 filled with a special solid lubricant. In order to analyze the potential use of t...

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Bibliographic Details
Published in:Wear 2017-04, Vol.376-377 (PB), p.1391-1398
Main Authors: Neis, P.D., Ferreira, N.F., Poletto, J.C., Sukumaran, J., Andó, M., Zhang, Y.
Format: Article
Language:English
Subjects:
Abrasion
Cast polyamide 6
Coefficient of friction
Friction resistance
Industrial applications
Materials selection
Molybdenum disulfide
Optical microscopy
Plastics
Polyamide resins
Polymers
PV limit
Sliding wear
Slip
Solid lubricants
Tribology
Wear mechanism
Wear mechanisms
Wear rate
Wear resistance
Wear tests
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Summary:The present research article addresses an investigation of tribological properties of 3 commercially available cast polyamide 6 (PA 6): a natural PA 6 polymer, a PA 6 filled with molybdenum disulfide (MoS2), and a PA 6 filled with a special solid lubricant. In order to analyze the potential use of these materials in industrial applications, their tribological results were compared with those measured for a commercial bronze alloy. All materials (including the bronze alloy) were subjected to sliding against a steel SAE 1020 disc in a tribometer. Three different types of tribotests were carried in this study: (i) wear tests, (ii) PV (pressure × velocity) tests, and (iii) stick-slip tests. Optical microscopy was employed to characterize the wear mechanisms of the materials selected in this study. PA 6 filled with special solid lubricant revealed superior tribological properties among the plastics, since it has shown the lowest coefficient of friction (COF), and the highest wear resistance and PV limit. PA 6 filled with the special solid lubricant also exhibited lower stick-slip oscillations than the PA 6 filled with MoS2. Micrograph analysis revealed abrasion as the most important wear mechanism for the PA 6 filled with the special solid lubricant. On the other hand, severe damage was observed on the surface of the natural PA 6 and the PA 6 filled with MoS2 in the wear tests. Bronze alloy exhibited the highest wear rate among the materials studied in this work. Adhesion was the dominant wear mechanism for this metal. •Tribological performance of three cast PA 6 and bronze alloy is investigated.•TECAGLIDE green outperformed than the other polymers studied.•Severe damage occurred on the surface of the natural PA 6 and PA 6 with MoS2.•TECAGLIDE green exhibited lower stick-slip oscillations than PA 6 with MoS2.•Bronze showed adhesion as the dominant wear mechanism when rubbed against steel.
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2017.01.090