Weld Clean Up Calculations
Grinding Operation Cycle Time
Cycle Time = Weld Length / Grinding Speed
Cycle time depends on the following:
• Weld length: determined by geometry extraction or (for virtual welds) specified by the user in the Welding dialog when the weld was created.
• Grinding speed: specified by the machine property Grinding Speed.
Weld Clean Up Process Accounting
Labor Time = Operation Cycle Times * Labor Time Standard
Labor time is the product of the following:
• Operation cycle times is sum of the cycle times of all child operations for all subcomponents.
• Labor time standard: specified as the machine property Labor Time Standard. This multiplier is used to account for otherwise unaccounted for factors that affect labor time, such as operator fatigue or time spent by the operator for cleaning or maintenance.
Labor Cost = Labor Time * Labor Rate / Final Yield
Labor cost depends on the following:
• Labor time (see formula)
• Labor rate (specified by the machine property Labor Rate)
• Final yield (see
Yields)
Amortized Batch Setup =
(Setup Time * (Labor Rate + Direct Overhead Rate)) / Batch Size
Amortized batch setup depends on the following:
• Setup time (specified as the machine property Setup Time)
• Labor rate (specified by the machine property Labor Rate)
• Direct overhead rate (see
Direct and Indirect Overhead)
Weld Clean Up process Cycle Time
Cycle Time = (Labor Time / Number of Operators) * Cycle Time Adjustment Factor
• Number of operators: specified by the machine property Number of Operators.
• Cycle time adjustment factor: specified by the cost model variable cycleTimeAdjustmentFactor; 1 in aPriori starting point VPEs. If you want to model an unbalanced, push assembly line, set cycleTimeAdjustmentFactor to a value greater than 1 in order to account for the cost of extra buffer capacity.
Note that indirect overhead depends on cycle time, while direct overhead depends on labor time. Cycle time contributes to part cost only via indirect overhead.