Abstract
The estimation of production rate (or throughput) is important in manufacturing system design. Herein, we consider the manufacturing system of an automotive body shop in which two types of car are produced, and one car (engine car) is substituted by the other car (electric car) gradually. In this body shop, two different underbody lines are installed because the underbody structures of the two types of cars differ completely; however, the side body line and main body line are shared by the two cars. Furthermore, we assume that the underbody lines are reconfigurable based on an increase in the product mix of the electric car. A simulation-based meta-model, which is in the form of a quadratic polynomial function, is developed to estimate the production rate. In the meta-modelling process, we group some buffer locations and represent them as one variable to reduce the number of variables included in the meta-model. Subsequently, the meta-models have been used to optimize two types of buffer allocation problems, and optimal solutions are obtained easily.
Highlights
The role of an automotive body shop is to assemble sheet metal panels together by various welding technologies [1]
We develop meta-models that can estimate the production rate when the product mix is changed in an automotive body shop; we investigate the effects of reconfiguration strategies
Three types of reconfiguration strategies were considered when the production volume of the electric car substituted that of the engine car gradually
Summary
The role of an automotive body shop is to assemble sheet metal panels together by various welding technologies [1]. A typical car undergoes 3500 to 4000 spot welds [2]. In the case of compact cars produced by a Korean automotive manufacturer, the total number of welding points is 4500–5400 and 50–55% of them are operated in house. The body shop of an automotive factory is highly automated and comprises complex manufacturing systems involving 15–20 sublines and many assembly operations [4]. In the design phase of automotive body shops, many factors must be considered, such as the line concept, number of sublines, length of each subline, locations and capacities of buffers, line balancing, robot type, material handling equipment, and tooling. Moon et al [4] has described the processes in automotive body shop design
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