Abstract
Statistical process control is an excellent quality assurance tool to improve the quality of manufacture and ultimately scores on end-customer satisfaction. SPC uses process monitoring charts to record the key quality characteristics (KQCs) of the component in manufacture. This paper elaborates on one such KQC of the manufacturing of a connecting rod of an internal combustion engine. Here the journey to attain the process potential capability index (Cp )a nd the process performance capability index (Cpk) values greater than 1.33 is elaborated by identifying the root cause through quality control tools like the cause-and-effect diagram and examining each cause one after another. In this paper, the define-measure-analyze-improve-control (DMAIC) approach is employed. The definition phase starts with process mapping and identifying the KQC. The next phase is the measurement phase comprising the cause-and-effect diagram and data collection of KQC measurements. Then follows the analysis phase where the process potential and performance capability indices are calculated, followed by the analysis of variance (ANOVA) of the mean values. Finally, the process monitoring charts are used to control the process and prevent any deviations. By using this DMAIC approach, standard deviation is reduced from 0.48 to 0.048, the Cp values from 0.12 to 1.72, and the Cpk values from 0.12 to 1.37, respectively.
Highlights
One of the major manufacturing processes in engine manufacturing is that of connecting rod manufacturing
The one-way analysis of variance (ANOVA) method of investigation to test for the differences between the manufacturing data is employed in the ‘analysis phase’
statistical process control (SPC) studies were found to be useful for eliminating the special cause of errors, streamlining the process, and making the process a capable manufacturing process by improving the capability index (Cp) and Cpk values of the key quality characteristic under study
Summary
One of the major manufacturing processes in engine manufacturing is that of connecting rod manufacturing. This paper implements the define-measure-analyzeimprove-control (DMAIC) approach to improve the capability of connecting rod manufacturing process by reducing the thickness variations from a nominal value. Process mapping and identifying key quality characteristics (KQCs) is carried out in the ‘definition phase’, while estimation of process capability indices is carried out in the ‘measure phase’. The one-way analysis of variance (ANOVA) method of investigation to test for the differences between the manufacturing data is employed in the ‘analysis phase’. The process monitoring chart (PMC) for the thrust face thickness is employed in the ‘improve and control phase’. Statistical process control studies form the basic tool for obtaining the required process capability confidence levels. The various process capability indices are defined as follows: CP
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