THERMAL STRESS MEASUREMENT ON PISTON RINGS BY REAL TIME HOLOGRAPHIC INTERFEROMETRY

S N Maina

Abstract


The real time holographic interferometry (RTHI) technique was used to study the thermal stress on themotor cycle piston rings. The object holograms of piston rings were recorded and after processing theholographic plate, it was placed back on the holder. It was at this time, the processed holographic platewas illuminated by reference and object beams as the piston ring used to record the hologram wassubjected to thermal stress. The generated interferograms before and after the piston ring was stressedwere captured by a CCD camera for analysis. The results demonstrated interferograms abnormalities as aresult of thermal stress. This was exhibited by interferograms bending and compressions. UsingAtmosfringe version 3.3 software and origin version 8.0 software, the analysis of the interferograms wereperformed. The peak to valley (P-V) aberrations ranged from 0.0128λ to 1.2989λ for the whole range ofmeasurements. Using the Fast Fourier Transform analysis of the interference fringes, phase changes weredetermined for each of the piston rings. From this result, it was evident that the three piston rings on thepiston have different structural characteristics. This depends on the position of the ring on the piston dueto their function. The ring near the head of the piston (compression ring), whose purpose is to seal thecombustion chamber for maintenance of compression had less phase change and P-V aberrations due tothermal stress in comparison with the other two rings near its skirt.

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