Waste reduction of polypropylene bag manufacturing process using Six Sigma DMAIC approach: A case study

Waste reduction of polypropylene bag manufacturing process using Six Sigma DMAIC approach: A case study

In the current study, minimization of waste in terms of sack rejection at a polypropylene bag manufacturing process is achieved. The Six Sigma DMAIC (Define, Measure, Analyze, Improve, Control) approach is adopted which results in 50% waste reduction and a considerable cost saving. The sack rejectio...

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Main Authors: Muhammad Hamad Sajjad, Khawar Naeem, Muhammad Zubair, Qazi Muhammad Usman Jan, Sikandar Bilal Khattak, Muhammad Omair, Rashid Nawaz
Format: Article
Language:English
Published: Taylor & Francis Group 2021-01-01
Series:Cogent Engineering
Subjects:
process efficiency
six sigma
dmaic
polypropylene bags
process parameter optimization
design of experiments
Online Access:http://dx.doi.org/10.1080/23311916.2021.1896419
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spelling doaj-946767ff3566467a846dc1f58c377cb82021-04-06T13:27:33ZengTaylor & Francis GroupCogent Engineering2331-19162021-01-018110.1080/23311916.2021.18964191896419Waste reduction of polypropylene bag manufacturing process using Six Sigma DMAIC approach: A case studyMuhammad Hamad Sajjad0Khawar Naeem1Muhammad Zubair2Qazi Muhammad Usman Jan3Sikandar Bilal Khattak4Muhammad Omair5Rashid Nawaz6Polytechnique Montreal UniversityUniversity of Engineering and TechnologyJalozai Campus, University of Engineering and TechnologyUniversity of Engineering and TechnologyUniversity of Engineering and TechnologyJalozai Campus, University of Engineering and TechnologyUniversity of Engineering and TechnologyIn the current study, minimization of waste in terms of sack rejection at a polypropylene bag manufacturing process is achieved. The Six Sigma DMAIC (Define, Measure, Analyze, Improve, Control) approach is adopted which results in 50% waste reduction and a considerable cost saving. The sack rejection is brought to 1.20% from the previous average waste of 2.80% using DMAIC. It is found that this high rejection rate of 2.80% is due to the low fabric strength obtained at the weaving section, which in turn occurred due to the lower tape tenacity values obtained from the extrusion section. Hence, experimental design is conducted at the extrusion department and it is found that the two interacting factors are playing a significant contribution to the process variation and hence result in lower tape-tenacity (i.e., less than 6 g/denier). The two interacting factors included the “water bath temperature” and “line speed” of the extrusion process, with a p-value less than 5%. By further analysis, the optimal level of these significant factors is found. They are 300 m/min for “line speed” and 40⁰C for “water bath temperature. At these settings, the extrusion process produces optimal tape-tenacity results (i.e., at least 6 g/denier), which ultimately results in minimum waste in terms of sack rejection waste. The objective of the study includes finding the significant factors contributing to the process variation. Also controlling those factors to the optimal levels to achieve minimum wastage and considerable cost saving. The methodology and findings of the present study can be generalized to the polypropylene bag manufacturing plants and the process efficiency can be enhanced.http://dx.doi.org/10.1080/23311916.2021.1896419process efficiencysix sigmadmaicpolypropylene bagsprocess parameter optimizationdesign of experiments
collection DOAJ
language English
format Article
sources DOAJ
author Muhammad Hamad Sajjad
Khawar Naeem
Muhammad Zubair
Qazi Muhammad Usman Jan
Sikandar Bilal Khattak
Muhammad Omair
Rashid Nawaz
spellingShingle Muhammad Hamad Sajjad
Khawar Naeem
Muhammad Zubair
Qazi Muhammad Usman Jan
Sikandar Bilal Khattak
Muhammad Omair
Rashid Nawaz
Waste reduction of polypropylene bag manufacturing process using Six Sigma DMAIC approach: A case study
Cogent Engineering
process efficiency
six sigma
dmaic
polypropylene bags
process parameter optimization
design of experiments
author_facet Muhammad Hamad Sajjad
Khawar Naeem
Muhammad Zubair
Qazi Muhammad Usman Jan
Sikandar Bilal Khattak
Muhammad Omair
Rashid Nawaz
author_sort Muhammad Hamad Sajjad
title Waste reduction of polypropylene bag manufacturing process using Six Sigma DMAIC approach: A case study
title_short Waste reduction of polypropylene bag manufacturing process using Six Sigma DMAIC approach: A case study
title_full Waste reduction of polypropylene bag manufacturing process using Six Sigma DMAIC approach: A case study
title_fullStr Waste reduction of polypropylene bag manufacturing process using Six Sigma DMAIC approach: A case study
title_full_unstemmed Waste reduction of polypropylene bag manufacturing process using Six Sigma DMAIC approach: A case study
title_sort waste reduction of polypropylene bag manufacturing process using six sigma dmaic approach: a case study
publisher Taylor & Francis Group
series Cogent Engineering
issn 2331-1916
publishDate 2021-01-01
description In the current study, minimization of waste in terms of sack rejection at a polypropylene bag manufacturing process is achieved. The Six Sigma DMAIC (Define, Measure, Analyze, Improve, Control) approach is adopted which results in 50% waste reduction and a considerable cost saving. The sack rejection is brought to 1.20% from the previous average waste of 2.80% using DMAIC. It is found that this high rejection rate of 2.80% is due to the low fabric strength obtained at the weaving section, which in turn occurred due to the lower tape tenacity values obtained from the extrusion section. Hence, experimental design is conducted at the extrusion department and it is found that the two interacting factors are playing a significant contribution to the process variation and hence result in lower tape-tenacity (i.e., less than 6 g/denier). The two interacting factors included the “water bath temperature” and “line speed” of the extrusion process, with a p-value less than 5%. By further analysis, the optimal level of these significant factors is found. They are 300 m/min for “line speed” and 40⁰C for “water bath temperature. At these settings, the extrusion process produces optimal tape-tenacity results (i.e., at least 6 g/denier), which ultimately results in minimum waste in terms of sack rejection waste. The objective of the study includes finding the significant factors contributing to the process variation. Also controlling those factors to the optimal levels to achieve minimum wastage and considerable cost saving. The methodology and findings of the present study can be generalized to the polypropylene bag manufacturing plants and the process efficiency can be enhanced.
topic process efficiency
six sigma
dmaic
polypropylene bags
process parameter optimization
design of experiments
url http://dx.doi.org/10.1080/23311916.2021.1896419
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