12.2 Derive expressions for the pressure distribution, the load-carrying capac- ity, and the time of approach for a sque

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: 12 2 Derive Expressions For The Pressure Distribution The Load Carrying Capac Ity And The Time Of Approach For A Sque 1 (12.08 KiB) Viewed 48 times

: 12 2 Derive Expressions For The Pressure Distribution The Load Carrying Capac Ity And The Time Of Approach For A Sque 2 (40.8 KiB) Viewed 48 times

12.2 Derive expressions for the pressure distribution, the load-carrying capac- ity, and the time of approach for a squeeze film situation and the following geometry:

O = W h₁ In cylindrical polar coordinates the Reynolds equation for incompressible, isoviscous conditions is expressed in Eq. (12.4). In the present problem axial symmetry is assumed that results in the pressure being a function of radius only. Thus, the preceding Reynolds equation reduces to ә Ər з др rh³ = -12norw Ər