Info
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| Lathe |
{{roi.Lathe.name}}
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Pick a model
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| Brake Jobs Per Week (1 axle) |
{{roi.BrakeJobsPerWeek}}
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Pick brake jobs per week x 52 = (260 ) brake jobs per year x150 =(39,000)
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| Average Cost 2 Brake Discs (1 axle) |
{{roi.AverageCost2BrakeDiscs | currency:'$':0}}
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Pick total brake disc cost (1 axle, 2 discs)
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| Average Time To Replace Rotors (1 axle) |
{{roi.AverageTimeToReplaceRotors}}
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| Shop Labor Rate |
{{roi.ShopLaborRate | currency:'$':0}}
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| % of Rotors that Could be Saved with Rotor Matching |
{{roi.PercentOfRotorSaved}}
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| Depreciation schedule in years |
{{roi.DepreciationInYears}}
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Pick depreciation in years
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Costs
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| Annual Rotor Cost = 100% replace |
{{roi.AnnualRotorCost100 | currency:'$ ':0}}
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100% Rotor Replacement
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| LABOR |
{{roi.LaborAndOverhead100 | currency:'$ ':0}}
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Estimated labor
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| ANNUAL COST OF 100% ROTOR REPLACEMENT
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{{roi.TotalAnnualRotorCost100 | currency:'$ ':0}}
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Total Parts & Labor 100%
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| ANNUAL ROTOR COST w ROTOR MATCHING |
{{roi.TotalAnnualRotorCostWithRotorMatching | currency:'$ ':0}}
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Rotors replaced that couldn't be machined
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| Labor and Overhead using a Pro-Cut OCL for ROTOR MATCHING on Machinable Rotors |
{{roi.LaborAndOverheadWithRotorMatching | currency:'$ ':0}}
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Labor rate x 1.0 hour to save the machinable rotors
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| Operating cost of lathe
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{{roi.OperatingCostLathe | currency:'$ ':0}}
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Assumes $2 per brake job in consumables
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| Est. lathe Depreciation per year
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{{roi.LatheDepreciationPerYear | currency:'$ ':0}}
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Based on # years selected above
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| ANNUAL COST @ 50% OCL machine, 50% replace |
{{roi.TotalAnnualCost5050 | currency:'$ ':0}}
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| ANNUAL SAVINGS MACHINING 50% of Rotors w/P-C lathe |
{{roi.AnnualSavings | currency:'$ ':0}}
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*assumes 39mm nominal and 37.4mm discard = usable wear/machining 1.6mm (.063")
Most rotors can machined up to 3X (wear included) with minimum machining pass = .010"
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