Productivity Theory for Industrial EngineeringThe mathematical models of productivity theory allows for the productivity rate of manufacturing machines and systems to be modelled with results that are validated by their actual output. This book presents the analytical approaches and methods to define maximal productivity rate of manufacturing machines and systems, based on the parameters of technological processes, structural design, reliability of mechanisms, and management systems. |
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added failure rates assembly line assembly process automated line segmented bottleneck section calculated components computing cutters decrease demonstrates downtime enables following equation industrial engineering industrial machines limited capacity line of parallel line of parallel–serial line of serial machines and systems machining process manufacturing line manufacturing machines manufacturing processes manufacturing systems mathematical models maximal productivity rate mechanisms models for productivity number of machines number of parallel number of sections number of serial number of workstations optimal cutting speed optimal number parallel structure parallel workstations parallel–serial arrangement parallel–serial structure parameters Pareto chart part/min production processes production system productivity losses productivity theory Qmax rate of manufacturing reliability Reliability Engineering represented in Figure rotor machine rotor-type automated line rotor-type automatic machine rotor-type machine sections with buffers segmented on sections serial arrangement serial structure serial workstations specified earlier systems of parallel–serial systems of serial technical data technological process transformation yield versus the number yield the following