Radioactive Tracer Study of Start-Up Wear Versus Steady-State Wear in a 2.3 Liter Engine 952474
Piston ring wear measurements were carried out in a standard production 2.3-liter engine using compression rings that had been subjected to bulk thermal neutron bombardment. As the radioisotopes produced by this process were worn from the rings during each test run, they served as irradiated tracers for the detection of wear particles.
A total of 32 tests were conducted on six different oils. All oils showed two distinct types of wear. The first, start-up wear, is characterized by a high wear rate and a relatively short duration. The second, steady-state wear, showed a much lower wear rate and continued in a constant manner for the remainder of the test. The start-up ring wear rate was substantially larger than the steady-state wear rate.
The addition of a unique boundary chemistry engine treatment substantially reduced both the total amount of piston ring wear, and the rate at which wear particles were produced during start-up.
Citation: Perrin, K., Pandosh, J., Searle, A., Shaub, H. et al., "Radioactive Tracer Study of Start-Up Wear Versus Steady-State Wear in a 2.3 Liter Engine," SAE Technical Paper 952474, 1995, https://doi.org/10.4271/952474. Download Citation
Author(s):
Keith Perrin, John Pandosh, Anne Searle, Hal Shaub, Stan Sprague
Affiliated:
Petrolon Technologies
Pages: 16
Event:
1995 SAE International Fall Fuels and Lubricants Meeting and Exhibition
ISSN:
0148-7191
e-ISSN:
2688-3627
Also in:
Recent Snapshots and Insights Into Lubricant Tribology-SP-1116
Related Topics:
Wear
Pistons
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