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OPTIMIZATION OF LASER CUTTING PARAMETER OF ACRYLIC BY USING DMAIC APPROACH CHUA YONG PING UNIVERSITI TEKNOLOGI MALAYSIA OPTIMIZATION OF LASER CUTTING PARAMETER OF ACRYLIC BY USING DMAIC APPROACH CHUA YONG PING A project report submitted in partial fulfilment of the requirements for the award of the degree of Master of Engineering (Mechanical - Advanced Manufacturing Technology) Faculty of Mechanical Engineering Universiti Teknologi Malaysia JULY 2015 iii To my beloved mother and father iv ACKNOWLEDGEMENT I would like to express the deepest appreciation from the bottom of my heart to those who had lend a hand on the completion of this dissertation. First of all, I would like to thank my supervisor and mentor Dr. Norizah bt Redzuan, for her continual contribution of thoughts and ideas all times. Also, I am really impressed and admired with the broad knowledge that she had shared about in recent research in Laser Cutting Technology and Modern Machining Technology. Perhaps the dissertation couldn’t be complete without her diligently guidance and support. I also would like to extend my gratitude to En. Iskandar who constantly lends me a hand in operating the laser cut machine all the times. And, I’m also indebted to all the lecturer who had taught me before within the 2 years of masters’ taught course. Next, I also would like to express my sincere appreciation to all my fellow postgraduate students, Widodo, Salem, Didi, Zurina, Abbas, Soudesh, Ali Esmaeilzadeh, M. Reza Yavari, Ibrahim Zaghdaoui, Abdul Azeez, Eswary Jane, Amirul, Hafiz, Nabeel, Ken Wong, Chan Fook, Chian Yit, Edruce Muhammad, Wei Huang, Geak Kun, Easy Wong, Chao Feng and Peggie Chia who had continuously gave me support and comfort at various occasions although it’s impossible to list all the names within the limited pages. Finally, I would express my deepest gratitude to my parents who bringing me up. v ABSTRACT Laser cutting is the most common manufacturing process widely used nowadays and this is due to its flexibility, reliability, maximize material utilization by part nesting, time saving and low cost tooling. But, inappropriate control and setting may lead to material defects, machine malfunction or even catastrophe. Hence, the purpose of this study is to implement the ideas from lean six sigma for optimizing laser cutting conditions to prolong the service life of the laser cutting machine. The entire dissertation will be surrounded in optimize machining parameters for EPILOG Legend 36Ext – Model 9000 laser cutting machine in the FKM lab by using DMAIC approach. And, the whole idea of optimal control was encapsulated in Lean Six Sigma methodology which summarized in the abbreviation (DMAIC): Define, Measure, Analyze, Improve and Control. First of all, a list of problem statement has constructed to clarify the objectives of the project to be studied. Second, a value stream mapping diagram has constructed to serve as an overview of the entire maintenance management system in order to measure the bottlenecks between personnel and information flow from relevant management level. Third, a mathematical modelling software such as MATLAB was used to formulate the relationship between the cutting parameters towards the cutting quality of acrylic specimens. Forth, solutions to machining dysfunctions has proposed and optimum cutting conditions were developed by using Design Expert software. Fifth, a standard practice such as SOP (standard of procedure) was developed to replace current machining procedures. Finally, improved plans were further monitored in order to ensure the improvements were sustainable. After implementing DMAIC, it was found that the information given by supplier’s manual should be continually revised since machining parameters due to deteriorate of machine parts. The values of revising SOP may help FKM lab to save cost in machine repair. vi ABSTRAK Laser memotong ialah proses pembuatan paling biasa digunakan secara meluas masa kini dan ini adalah disebabkan flexibiliti, kebolehpercayaan, memaksimumkan penggunaan bahan dengan nesting, menjimatkan masa dan kos peralatan. Tetapi, kawalan yang tidak sesuai dan persekitaran boleh menjurus kecacatan bahan, kepincangan tugas mesin malahan malapetaka. Maka, tujuan kajian ini adalah untuk melaksanakan idea bersandar enam sigma untuk mengoptimumkan keadaan pemotongan laser dan memanjangkan hidup perkhidmatan mesin pemotong laser. Seluruh disertasi akan dikelilingi dalam mengoptimumkan mesin parameter untuk EPILOG Legend 36Ext - Model 9000 mesin pemotong laser di makmal FKM dengan menggunakan pendekatan DMAIC. Dan, keseluruhan idea mengoptimumkan kawalan tersirat di Lean Six Sigma metodologi yang ringkaskan di singkatan (DMAIC): Takrif, Ukur, Analisa, Tambah Baik dan Kawal. Terlebih dahulu, satu senarai penyataan masalah telah dibina untuk menjelaskan objektif projek yang dikaji. Kedua, suatu gambar rajah pemetaan proses telah dibina untuk menjadi gambaran bagi keseluruhan sistem pengurusan penyenggaraan supaya mengukur percanggahan antara kakitangan dan aliran maklumat dari peringkat pengurusan berkaitan. Ketiga, perisian seperti MATLAB telah digunakan untuk membentuk hubungan antara parameter memotong dengan kualiti memotong spesimen-spesimen akrilik. Keempat, penyelesaian bagi disfungsi telah dicadangkan dan keadaan optimum telah dibina dengan menggunakan perisian Design Expert. Kelima, suatu amalan piawaian seperti SOP (standard prosedur) dibangunkan untuk menggantikan prosedur memesin semasa. Akhirnya, rancangan seterusnya dipantau supaya memastikan peningkatan secara mampan. Selepas melaksanakan DMAIC, ia telah didapati bahawa maklumat diberi oleh buku panduan pembekal seharusnya disemak secara berterusan kerana parameter dan bahagian mesin dijangka merosot dari semasa ke semasa. Manfaat menyemak SOP mungkin membantu makmal FKM menjimatkan kos dalam pembaikan mesin. vii TABLE OF CONTENTS CHAPTER TITLE PAGE DECLARATION ii DEDICATION iii ACKNOWLEDGEMENT iv ABSTRACT v ABSTRAK vi TABLE OF CONTENTS vii LIST OF TABLES x LIST OF FIGURES xi LIST OF ABBREVIATIONS xv LIST OF SYMBOLS xvii LIST OF APPENDICES xix 1 INTRODUCTION 1 1.1 Overview 1 1.2 Background of Study 2 1.3 Research Problem 4 1.4 Research Objectives 5 1.5 Scope of Study 5 1.6 Significance of Study 6 2 LITERATURE REVIEW 7 2.1 A Brief Review on Lean Six Sigma 7 2.2 Process Optimization by Using DMAIC 8 2.3 Introduction to DMAIC 9 2.4 The Implementation of DMAIC Approach 11 viii 2.5 Quality Assessment and Optimize Control 14 2.5.1 Quality Assessment and Optimize Control for Carbon Dioxide Laser Cutting of Polymeric and Metallic Materials 15 2.6 General Types of Maintenance 17 2.6.1 Preventive Maintenance 17 2.6.2 Predictive Maintenance 18 2.6.3 Corrective Maintenance 19 2.6.4 Breakdown Maintenance 19 2.7 Modern Quality Maintenance Management Systems and Strategy 19 2.7.1 Lean Maintenance 20 2.7.2 Total Quality Management 20 2.7.3 Lean Six Sigma for Maintenance Management 20 2.8 Mathematical Modelling of Laser Machining 21 3 METHODOLOGY 23 3.1 Methodology of Research 23 3.2 The Implementation of DMAIC Methodology 25 3.3 Define Phase 27 3.4 Measure Phase 28 3.5 Analyze Phase 28 3.6 Improve Phase 30 3.7 Control Phase 31 3.8 Equipment and Instrumentations 33 3.9 Software 34 3.10 Workpiece Specification 34 3.11 Factorial Design 34 4 RESULTS AND ANALYSIS 36 4.1 Implementing DMAIC Approach for Single-unit Machine 36 ix 4.2 A Case Study of Machine Maintenance Strategies for EPILOG Laser Cutting Machine 36 4.3 An Overview of the Current Maintenance Strategies for Epilog Laser Cutting Machine 37 4.4 Define Phase 38 4.5 Measure Phase 39 4.6 Analyse Phase 40 4.6.1 Experimental Analysis 42 4.6.2 Failure Mode and Effect Analysis 57 4.7 Improve Phase 58 4.7.1 Acrylic with Removed Protective Layer 59 4.7.2 Acrylic with Unremoved Protective Layer 75 4.8 Control Phase 85 4.9 Entrepreneurial Aspects 87 4.10 Improvement 89 5 CONCLUSIONS 91 REFERENCE 92 - 95 BIBLIOGRAPHY 96 - 97 APPENDIX A - O 98 – 123 GHANTT CHART 124 x LIST OF TABLES TABLE NO. TITLE PAGE 2.1 Comparison between Lean and Six Sigma 8 2.2 Key Improvement Steps from DMAIC Methodology 10 2.3 Table of Definitions and Tools for each DMAIC Phases 14 3.1 List of Equipment and Instrumentations 33 3.2 Follow-up Experimentation 35 4.1 Design Matrix for 4mm Thickness Specimen 60 4.2 Kerf Width Experiment for 4mm Thickness Specimen 60 4.3 Design Matrix for 4mm Thickness Specimen 69 4.4 Results for Depth for 4mm Thickness Specimen 70 4.5 Kerf Width Experiment for 5mm Thickness Specimen 76 4.6 Design Matrix for 5mm Thickness Specimen 81 4.7 Results for Depth for 5mm Thickness Specimen 81

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purpose of this study is to implement the ideas from lean six sigma for optimizing laser cutting conditions to . Design Matrix for 4mm Thickness Specimen. 60. 4.2 .. [8] Chaib Rachid, Mohamed Benidir and Ion Verzea. Contribution
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