How to cite this paper
Syafwiratama, O., Hamsal, M & Purba, H. (2017). Reducing the nonconforming products by using the Six Sigma method: A case study of a polyes-ter short cut fiber manufacturing in Indonesia.Management Science Letters , 7(3), 153-162.
Refrences
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Croft, C., & Kovach, J. V. (2012, January). Reducing Defects in the Production of Natural Gas De-hydration Equipment. In IIE Annual Conference. Proceedings (p. 1). Institute of Industrial Engi-neers-Publisher.
Dambhare, S., Aphale, S., Kakade, K., Thote, T., & Borade, A. (2013). Productivity improvement of a special purpose machine using DMAIC principles: A case study. Journal of Quality and Reliabil-ity Engineering, 2013.
de Jesus Pacheco (2014). Theory of Constraints and Six Sigma: Investigating differences and similari-ties for continuous improvement. Independent Journal of Management & Production, 5(2), 331.
Djamaludin, I., Murthy, D. N. P., & Wilson, R. J. (1994). Quality control through lot sizing for items sold with warranty. International Journal of Production Economics, 33(1), 97-107.
Goettmann, J. A., & Boylan, J. R. (1992). U.S. Patent No. 5,133,835. Washington, DC: U.S. Patent and Trademark Office.
Kairulazam, C. K., Hussain, M. I., Mohd Zain, Z., & Lutpi, N. A. (2014). Reduction of rejection rate for high gloss plastics product using six sigma method. In Applied Mechanics and Materials, 606, 141-145.
Ketan, H., & Nassir, M. (2016). Aluminium hot extrusion process capability improvement using Six Sigma. Advances in Production Engineering & Management, 11(1), 59.
Kumaravadivel, A., & Natarajan, U. (2013). Application of six-sigma DMAIC methodology to sand-casting process with response surface methodology. The International Journal of Advanced Manu-facturing Technology, 69(5-8), 1403-1420.
Kwak, Y. H., & Anbari, F. T. (2006). Benefits, obstacles, and future of six sigma ap-proach. Technovation, 26(5), 708-715.
McClusky, R. (2000). Six Sigma Special The rise, fall and revival of six sigma.Measuring Business Excellence, 4(2), 6-17.
Mu, G. Y., Wang, F., & Mi, X. Z. (2013). Application of Six Sigma DMAIC methodology in welding assembly Quality Improvement. In Applied Mechanics and Materials, 395, 1099-1103.
Nithyanandam, G. K., Raju, M., & Srinivasan, G. (2014). Defects Reduction in Steering Gear Prod-uct Using Six Sigma Methodology. In Applied Mechanics and Materials, 598, 647-651.
Patil, S. D., Ganganallimath, M. M., Math, R. B., & Karigar, Y. (2015). Application of Six Sigma Method to Reduce Defects in Green Sand Casting Process: A Case Study. International Journal on Recent Technologies in Mechanical and Electrical Engineering (IJRMEE) ISSN, 2349-7947.
Purba, H. H. (2016). Reducing the operational stop time of Hauller Komatsu Hd465-7 by using the Six Sigma’s approach in Pt X. ComTech, 7(2), 91-103.
Rao, S., Nepal, B., & Yadav, O. P. (2015, January). Productivity Improvement Of Production Floor Using Line Balancing: a Case Study at a Manufacturing Company. In Proceedings of the Interna-tional Annual Conference of the American Society for Engineering Management. (p. 1). American Society for Engineering Management (ASEM).
Sahoo, A. K., Tiwari, M. K., & Mileham, A. R. (2008). Six Sigma based approach to optimize radial forging operation variables. Journal of Materials Processing Technology, 202(1), 125-136.
Snee, R. D. (2010). Lean Six Sigma-getting better all the time. International Journal of Lean Six Sig-ma, 1(1), 9-29.
Soković, M., Pavletić, D., & Krulčić, E. (2006). Six Sigma process improvements in automotive parts production. Journal of Achievements in Materials and Manufacturing Engineering, 19(1), 96-102.
Sonphuak, W., & Rojanarowan, N. (2013). Strength improvement of fibre cement product. Interna-tional Journal of Industrial Engineering Computations, 4(4), 505-516.
Tchidi, M. F., He, Z., & Li, Y. B. (2012). Process and quality improvement using Six Sigma in con-struction industry. Journal of Civil Engineering and Management, 18(2), 158-172.
Zare Mehrjerdi, Y. (2011). Six-Sigma: methodology, tools and its future.Assembly Automation, 31(1), 79-88.
Croft, C., & Kovach, J. V. (2012, January). Reducing Defects in the Production of Natural Gas De-hydration Equipment. In IIE Annual Conference. Proceedings (p. 1). Institute of Industrial Engi-neers-Publisher.
Dambhare, S., Aphale, S., Kakade, K., Thote, T., & Borade, A. (2013). Productivity improvement of a special purpose machine using DMAIC principles: A case study. Journal of Quality and Reliabil-ity Engineering, 2013.
de Jesus Pacheco (2014). Theory of Constraints and Six Sigma: Investigating differences and similari-ties for continuous improvement. Independent Journal of Management & Production, 5(2), 331.
Djamaludin, I., Murthy, D. N. P., & Wilson, R. J. (1994). Quality control through lot sizing for items sold with warranty. International Journal of Production Economics, 33(1), 97-107.
Goettmann, J. A., & Boylan, J. R. (1992). U.S. Patent No. 5,133,835. Washington, DC: U.S. Patent and Trademark Office.
Kairulazam, C. K., Hussain, M. I., Mohd Zain, Z., & Lutpi, N. A. (2014). Reduction of rejection rate for high gloss plastics product using six sigma method. In Applied Mechanics and Materials, 606, 141-145.
Ketan, H., & Nassir, M. (2016). Aluminium hot extrusion process capability improvement using Six Sigma. Advances in Production Engineering & Management, 11(1), 59.
Kumaravadivel, A., & Natarajan, U. (2013). Application of six-sigma DMAIC methodology to sand-casting process with response surface methodology. The International Journal of Advanced Manu-facturing Technology, 69(5-8), 1403-1420.
Kwak, Y. H., & Anbari, F. T. (2006). Benefits, obstacles, and future of six sigma ap-proach. Technovation, 26(5), 708-715.
McClusky, R. (2000). Six Sigma Special The rise, fall and revival of six sigma.Measuring Business Excellence, 4(2), 6-17.
Mu, G. Y., Wang, F., & Mi, X. Z. (2013). Application of Six Sigma DMAIC methodology in welding assembly Quality Improvement. In Applied Mechanics and Materials, 395, 1099-1103.
Nithyanandam, G. K., Raju, M., & Srinivasan, G. (2014). Defects Reduction in Steering Gear Prod-uct Using Six Sigma Methodology. In Applied Mechanics and Materials, 598, 647-651.
Patil, S. D., Ganganallimath, M. M., Math, R. B., & Karigar, Y. (2015). Application of Six Sigma Method to Reduce Defects in Green Sand Casting Process: A Case Study. International Journal on Recent Technologies in Mechanical and Electrical Engineering (IJRMEE) ISSN, 2349-7947.
Purba, H. H. (2016). Reducing the operational stop time of Hauller Komatsu Hd465-7 by using the Six Sigma’s approach in Pt X. ComTech, 7(2), 91-103.
Rao, S., Nepal, B., & Yadav, O. P. (2015, January). Productivity Improvement Of Production Floor Using Line Balancing: a Case Study at a Manufacturing Company. In Proceedings of the Interna-tional Annual Conference of the American Society for Engineering Management. (p. 1). American Society for Engineering Management (ASEM).
Sahoo, A. K., Tiwari, M. K., & Mileham, A. R. (2008). Six Sigma based approach to optimize radial forging operation variables. Journal of Materials Processing Technology, 202(1), 125-136.
Snee, R. D. (2010). Lean Six Sigma-getting better all the time. International Journal of Lean Six Sig-ma, 1(1), 9-29.
Soković, M., Pavletić, D., & Krulčić, E. (2006). Six Sigma process improvements in automotive parts production. Journal of Achievements in Materials and Manufacturing Engineering, 19(1), 96-102.
Sonphuak, W., & Rojanarowan, N. (2013). Strength improvement of fibre cement product. Interna-tional Journal of Industrial Engineering Computations, 4(4), 505-516.
Tchidi, M. F., He, Z., & Li, Y. B. (2012). Process and quality improvement using Six Sigma in con-struction industry. Journal of Civil Engineering and Management, 18(2), 158-172.
Zare Mehrjerdi, Y. (2011). Six-Sigma: methodology, tools and its future.Assembly Automation, 31(1), 79-88.