A numerical approach that replicate the progressive collection of wear in swing metal on metal contacts is proposed. A proceed towards uses a swinging tack a finite part study that simulates a block-on-ring observation. After the simulation, two block-on-halo experiments were performed with the same materials that were studied in the reciprocating tack on-disk experiments. The results from the finite part study were in close unity with the hunk-on-halo observation results. This proceed towards either did not rely on curve fitting or use the hunk-on-halo observation data as duplicate inputs. The finite part study were performed by progressively changing nodal correlate to simulate the transfer of substance that occurs during exterior interaction. The continuous wear propagation was discretized and a diagnosis scheme was used to reduce aggregate costs of this simulation
Article Details
Unique Paper ID: 144587
Publication Volume & Issue: Volume 4, Issue 1
Page(s): 104 - 106
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