Discuss what happens when the oil temperature increases significantly as the slipper-pad bearing of Prob. 10–31E is subjected to constant use at the amusement park. In particular, would the load-carrying capacity increase or decrease? Why?

Data from Problem 31

A slipper-pad bearing with linearly decreasing gap height (Fig. P10–23) is being designed for an amusement park ride. Its dimensions are h₀ = 1/1000 in

and L = 1.0 in (0.0254 m). The lower plate moves at speed V = 10.0 ft/s (3.048 m/s) relative to the upper plate. The oil is engine oil at 40°C. Both ends of the slipper-pad are exposed to atmospheric pressure, as in Prob. 10–30. 

Calculate the convergence a, and verify that tan α ≅ α for this case.

Calculate the gage pressure halfway along the slipper-pad (at x = 0.5 in). Comment on the magnitude of the gage pressure.

Plot P* as a function of x*, where x* = x/L and P* 5 (P – P_atm)h₀²/μVL. 

Approximately how many pounds (lbf) of weight (load) can this slipper-pad bearing support if it is b = 6.0 in deep (into the page of Fig. P10–23)?

FIGURE P10–23

Transcribed Image Text:

(2.54 x 105 m), hL 1/2000 in (1.27 x 10-5 m),