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Non-wetting defective reduction in printed circuit board assembly processes

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dc.contributor.advisor Napassavong Osothsilp
dc.contributor.author Nitcha Sangkhapanit
dc.contributor.other Chulalongkorn University. Faculty of Engineering
dc.date.accessioned 2023-08-04T07:35:17Z
dc.date.available 2023-08-04T07:35:17Z
dc.date.issued 2018
dc.identifier.uri https://cuir.car.chula.ac.th/handle/123456789/83018
dc.description Thesis (M.Eng.)--Chulalongkorn University, 2018
dc.description.abstract According to the company’s current situation, the case study company has been encountered with a large amount of non-wetting defects within the production process leading to a higher defect rate and cost over a several years. Therefore, this research is aimed to reduce non-wetting defective rate of location L7 on PCBA during Surface Mount Technology (SMT) process by applying Six Sigma DMAIC methodology accompanying with quality control tools and focus on experimental design. There are separated into five significant phases. The first is Define phase, which related to the studying of current process of manufacturing PCBA and also gathering historical data of defects for one year in order to use as a basic data to analyse in this research. Moreover, this phase is also set scope of the research and the purpose. The second is Measure phase that is brainstorm to find factors affecting non-wetting defect by using cause-and-effect diagram. In addition, using cause-and-effect matrix to prioritize the factors. Attribute Agreement Analysis (AAA) also has been applied to determine the accuracy and precision of the operators in order to judge the non-wetting defect. The third is Analyse phase which is mainly related to applying Design of Experiment (DOE). This research has been applied  full-factorial with centre points design to test the significance of selected factors and find the optimal setting parameters. Then, conduct experiment and collect experimental data. Analyse the results of experiment and find the optimal setting parameters and make conclusion. The fourth phase is Improve phase which is to confirm experiment using the optimal setting in a real production for one month and summary result of improvement by comparing non-wetting on L7 defective between before and after improvement. Finally, Control phase is to create action plan, control chart, and control plan in order to maintain the results after improvement. The result of DOE illustrates the defective rate of non-wetting on L7 is decreased from 65.36% to only 15.04% and resulting in the scrapped cost to be decreased from 6,947,244 baht per year to only 1,393,152 baht per year for non-wetting defect of L7 on PCBAs.
dc.language.iso en
dc.publisher Chulalongkorn University
dc.relation.uri http://doi.org/10.58837/CHULA.THE.2018.194
dc.rights Chulalongkorn University
dc.title Non-wetting defective reduction in printed circuit board assembly processes
dc.title.alternative การลดของเสียตะกั่วหลอมละลายไม่สมบูรณ์ในกระบวนการผลิตแผงวงจรอิเล็กทรอนิกส์
dc.type Thesis
dc.degree.name Master of Engineering
dc.degree.level Master's Degree
dc.degree.discipline Engineering Management
dc.degree.grantor Chulalongkorn University
dc.identifier.DOI 10.58837/CHULA.THE.2018.194


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