Experimental testing on free vibration behaviour for silicone rubbers proposed within lumbar disc prosthesis

• Two types of silicone rubber were proposed within the total lumbar disc prostheses.
• The filler content of elastomers was highlighted by microscopy investigation.
• Damping capacity of the two elastomers was evaluated using free vibration analysis.
• The logarithmic decrement and the relative damping coefficient were determined.
• The silicone rubbers prepared in our work showed acceptable damping properties.

This research was focused on the damping capacity study of two types of silicone rubbers proposed as layers within total lumbar disc prostheses of ball-and-socket model. In order to investigate the damping capacity, the two silicone rubber types mainly differing by the molecular mass of polymeric matrix and the filler content, as was emphasized by scanning electron microscopy and differential scanning calorimetry, were subjected to free vibration testing. Using an adapted experimental installation, three kinds of damping testing were realised: tests without samples and tests with three samples of each type of silicone rubber (69 ShA and 99 ShA). The free vibration tests were performed at a frequency of about 6 Hz using a weight of 11.8 kg. The relative damping coefficient was determined by measuring of two successive amplitudes on the vibrogram and calculating of the logarithmic decrement. The test results with silicone rubber samples showed a relative damping coefficient of 0.058 and respectively 0.077, whilst test results without samples showed a relative damping coefficient of 0.042. These silicone rubbers were found to have acceptable damping properties to be used as layers placed inside the prosthetic components.

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