En experimentell studie av styrkepotentialen vid SCA Munksunds kraftlinertillverkning

Sammanfattning: Industrial manufacturing companies are working in a greater extent than before to optimize processes as well as reduce variation to build in quality in their products. SCA Munksund produces kraftliners with high variability for the strength measurements bursting strength and SCT-CD, together called strength potential. Variability in these strength measurements leads to either higher quality than requested by customers or to products being scrapped due to substandard quality. The variation in the strength measurements leads to unnecessary production costs according to SCA Munksund. To investigate the variation in strength measurements of a specific grammage of a kraftliner (170 g/m2), the problem-solving methodology DMAIC in Six Sigma was used. DMAIC can be used to translate a complex production problem into a more manageable statistical problem. Design of Experiments (DoE) can be used together with DMAIC to identify casual relationships and can also be applied to increase process knowledge. DoE is a powerful tool when studying how effects of multiple process parameters affect quality parameters in a process. In this master thesis, DMAIC was applied as a method to illustrate how a complex production problem can be tackled. The purpose of this master thesis work was to exemplify how statistical tools and methods can be applied in a manufacturing industry to achieve increased process knowledge. The purpose was applied practically at SCA Munksund kraftliner production site to create increased understanding of the subprocesses where the strength measurements bursting strength and SCT-CD can be affected. DMAIC was initially used to define the problem and DoE was used to generate models that could explain the strength potential. To help answer the thesis question, historical data were analysed to identify potential experimental factors. Appropriate experimental levels were checked in a test before the experiments. Then the experimental factors for bursting strength were determined to A: Läppläge vertikal topplåda, B: Alun bas and C: Koncentration inloppslåda bas and the factors for SCT-CD to A: Läppläge vertikal topplåda, B: Utloppsdifferens top and C: Utloppsdifferens bas. The experiments used a 23 factorial design with three center points. Alun bas and Utloppsdifferens top could on a 10 percent significance level be identified as significant effects. Regression models were developed to describe which factors and factor interactions that affect the strength potential in a kraftliner. The case study results thus illustrates how statistical tools and methods can be applied in a manufacturing industry to increase process knowledge. The result show that the bursting strength and SCT-CD increased with 2,4 % and 1,3 % respectively compared to normal levels during the experiment at the same time as lower operating costs can be achieved. SCA Munksund can save 143 700 SEK per year if the recommended level of Alun bas is followed.