Addressing corrugated board warp with a 23 factorial design

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Authors
Keyser, Robert S.
Jordan, Lois A.
Advisors
Issue Date
2020-06
Type
Article
Keywords
Corrugated sheet , Design , Simulation , Factorial experiments , Boxes , Finite element analysis , Packaging , Machinery , Factorial design
Research Projects
Organizational Units
Journal Issue
Citation
Keyser, R. S., & Jordan, L. A. (2020). Addressing corrugated board warp with a 23 factorial design. Journal of Management & Engineering Integration, 13(1), 20-31. https://doi.org/10.62704/10057/24742
Abstract

The corrugator is a machine that produces combined corrugated sheet stock from roll stock. A 23 factorial experiment was used to determine which factors and levels provide the optimal result - flat, rather than warped, sheet stock in a full-line box plant located in the Southeast. The factors include Edge Tension (T), Preheater Wrap Pressure (P), and Run Speed (S). The response variable is board warp, measured in 1/64ths of an inch. The two levels are indicated by (+) or (-) signs to indicate high and low levels, respectively. In a 23 factorial design, there are 8 treatment combinations and n = 20 samples of each combination of factors and levels were collected and analyzed using one replication for immediate use in a real-time production environment. The conclusion yielded the following best settings to produce flat 200#C sheet stock: loose tension, 25% pressure on the preheater wrap, and a run speed of 380 ft/min.

Table of Contents
Description
Published in SOAR: Shocker Open Access Repository by Wichita State University Libraries Technical Services, November 2022.
Publisher
Association for Industry, Engineering and Management Systems (AIEMS)
Journal
Book Title
Series
Journal of Management & Engineering Integration
v.13 no.1
PubMed ID
ISSN
1939-7984
EISSN