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International Journal of Production Research Volume 56, 2018 - Issue 24: Special Issue: Design for manufacturing and assembly/disassembly: Joint design of products and production systems
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Articles

Development of a metric to assess the complexity of assembly/disassembly tasks in open architecture products

Jaime A. MesaDepartment of Mechanical Engineering, Universidad del Norte, Barranquilla, ColombiaCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-6034-4671View further author information
ORCID Icon,
Iván EsparragozaEngineering Department, The Pennsylvania State University, Media, PA, USAView further author information
&
Heriberto MauryDepartment of Mechanical Engineering, Universidad del Norte, Barranquilla, ColombiaView further author information
Pages 7201-7219 | Received 30 Jun 2017, Accepted 15 Oct 2017, Published online: 07 Nov 2017

References

  • Bogue, R. 2007. “Design for Disassembly: A Critical Twenty‐First Century Discipline.” Assembly Automation 27(4): 285–289.
  • Boothroyd, G., and L. Alting. 1992. “Design for Assembly and Disassembly.” CIRP Annals 41 (2): 625–636.10.1016/S0007-8506(07)63249-1
  • Hammond R., and B. Bras,. 1996. “Design for Remanufacturing Metrics.” In Proceedings of the 1st International Workshop on Reuse, edited by S. D. Flapper and A. J. de Ron. Eindhoven, The Netherlands, pp. 5–22, November 11–13.
  • Brennan, L., S. Gupta, and K. Taleb. 1994. “Operations Planning Issues in an Assembly/Disassembly Environment.” International Journal of Operations & Production Management 14 (9): 57–67.10.1108/01443579410066767
  • Bryan, A., J. Ko, S. Hu, and Y. Koren. 2007. “Co-evolution of Product Families and Assembly Systems.” CIRP Annals 56 (1): 41–44.10.1016/j.cirp.2007.05.012
  • Collier, D. 1981. “The Measurement and Operating Benefits of Component Part Commonality.” Decision Sciences 12: 85–96.10.1111/deci.1981.12.issue-1
  • Crowther, P. 1999. Design for Disassembly . Royal Australian Institute of Architects/BDP – Environmental Design Guide.
  • Desai, A., and A. Mital. 2003. “Evaluation of Disassemblability to Enable Design for Disassembly in Mass Production.” International Journal of Industrial Ergonomics 32 (4): 265–281.10.1016/S0169-8141(03)00067-2
  • Eynan, A. 1996. “The Impact of Demand’s Correlation on the Effectiveness of Component Commonality.” International Journal of Production Research 34 (6): 1581–1602.10.1080/00207549608904985
  • Ferrão, P., and J. Amaral. 2006. “Design for Recycling in the Automobile Industry: New Approaches and New Tools.” Journal of Engineering Design 17 (5): 447–462.10.1080/09544820600648039
  • Gaustad, G., E. Olivetti, and R. Kirchain. 2010. “Design for Recycling.” Journal of Industrial Ecology 14 (2): 286–308.10.1111/j.1530-9290.2010.00229.x
  • Goswami, M., and M. Tiwari. 2014. “A Predictive Risk Evaluation Framework for Modular Product Concept Selection in New Product Design Environment.” Journal of Engineering Design 25 (1–3): 150–171.
  • Güngör, A. 2006. “Evaluation of Connection Types in Design for Disassembly (DFD) Using Analytic Network Process.” Computers & Industrial Engineering 50 (1–2): 35–54.
  • Gupta, S. 1996. “Disassembly of Products.” Computers & Industrial Engineering 31 (1–2): 225–228.10.1016/0360-8352(96)00146-5
  • Haruja, T., B. Rapoza, W. Knight, and G. Boothroyd. 1996. “Design for Disassembly and the Environment.” CIRP Annals – Manufacturing Technology 45 (1): 109–114.
  • Hauschild, M., J. Jeswiet, and L. Alting. 2005. “From Life Cycle Assessment to Sustainable Production: Status and Perspectives.” CIRP Annals 54 (2): 1–21.10.1016/S0007-8506(07)60017-1
  • Hu, S., J. Ko, L. Weyand, H. ElMaraghy, T. Lien, Y. Koren, et al . 2011. “Assembly System Design and Operations for Product Variety.” CIRP Annals 60: 715–733.10.1016/j.cirp.2011.05.004
  • Hundal, M. 2000. Design for Recycling and Remanufacturing. Dubrovnik: University of Zagreb.
  • Ijomah, W., C. McMahon, G. Hammond, and S. Newman. 2007. “Development of Design for Remanufacturing Guidelines to Support Sustainable Manufacturing.” Robotics and Computer-Integrated Manufacturing 23 (6): 712–719.10.1016/j.rcim.2007.02.017
  • Jiao, J., and M. Tseng. 2000. “Understanding Product Family for Mass Customization by Developing Commonality Indices.” Journal of Engineering Design 11: 225–243.10.1080/095448200750021003
  • Jovane, F., L. Alting, A. Armillotta, W. Eversheim, K. Feldmann, G. Seliger, and N. Roth. 1993. “A Key Issue in Product Life Cycle: Disassembly.” CIRP Annals 42 (2): 651–658.
  • Kota, S., K. Sethuraman, and R. Miller. 2000. “A Metric for Evaluating Design Commonality in Product Families.” Journal of Mechanical Design 122: 403–410.10.1115/1.1320820
  • Kroll, E., and B. Carver. 1999. “Disassembly Analysis through Time Estimation and Other Metrics.” Robotics and Computer-Integrated Manufacturing 15 (3): 191–200.10.1016/S0736-5845(99)00026-5
  • Lambert, A. 1997. “Optimal Disassembly of Complex Products.” International Journal of Production Research 35 (9): 2509–2524.10.1080/002075497194633
  • Lee, B., and K. Ishii. 1997. “Demanufacturing Complexity Metrics in Design for Recyclability.” In Proceedings of the 1997 IEEE International Symposium on Electronics and the Environment, San Francisco, CA.
  • Mani, V., S. Das, and R. Caudill. 2001. “Disassembly Complexity and Recyclability Analysis of New Design from CAD File Data.” In Proceedings of the 2001 IEEE International Symposium on Electronics and the Environment. Denver, CO.10–15.
  • Martin, M., and K. Ishii. 1996. “Design for Variety: A Methodology for Understanding the Cost of Product Proliferation.” In Proceedings of the ASME Design Engineering Technical Conference (96-DETC/DTM-1610). Irvine, CA.
  • Martin, M., and K. Ishii. 1997. “Design for Variety: Development of Complexity Indices and Design Charts.” In Proceedings of the ASME Design Engineering Technical Conferences (DETC97/DFM-4359). Sacramento, CA.
  • Miller, M., J. Summers, J. Mathieson, and G. Mocko. 2012. “Manufacturing Assemby Time Estimation Using Structural Complexity Metric Trained Artificial Neural Networks.” Journal of Computing and Information Science in Engineering 14 (1): 011005-1–011005-10.
  • Nasr, N., and M. Thurston. 2006. Remanufacturing: A Key Enabler to Sustainable Product Systems. Rochester, NY: Rochester Institute of Technology.
  • Orfi, N., J. Terpenny, and A. Sahin-Sariisik. 2011. “Harnessing Product Complexity: Step 1 – Establishing Product Complexity Dimensions and Indicators.” The Engineering Economist 56 (1): 59–79.10.1080/0013791X.2010.549935
  • Owensby, J., and J. Summers. 2013. “Assembly Time Estimation: Assembly Mate Based Structural Complexity Metric Predictive Modeling.” Journal of Computing and Information Science in Engineering 14 (1): 011004-1–011004-11.
  • Padayachee, J., I. Masekamela, G. Bright, N. Tlale, and C. Kumile. 2008. “Modular Reconfigurable Machines Incorporating Modular Open Architecture Control.” In 15th International conference on Mechatronics and Machine Vision in Practice (M2VIP08), 127–132. Auckland.
  • Rodriguez-Toro, C., S. Tate, G. Jared, and K. Swift. 2003. “Complexity Metrics for Design (Simplicity + Simplicity = Complexity).” Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 217: 721–725.10.1243/095440503322011461
  • Samy, S., and H. ElMaraghy. 2010. “A Model for Measuring Products Assembly Complexity.” International Journal of Computer Integrated Manufacturing 23 (11): 1015–1027.10.1080/0951192X.2010.511652
  • Siddique, Z., D. Rosen, and N. Wang. 1998. “On the Applicability of Product Variety Design Concepts to Automotive Platform Commonality.” In Proceedings of the ASME Design Engineering Technical Conferences – Design Theory and Methodology (98-DETC/DTM-5661). Atlanta, Georgia.
  • Sundin, E. 2004. “Product and Process Design for Successful Remanufacturing” (PhD Thesis). Linköpings universitet - Institute of Technology. Linköping, Sweden.
  • Thevenot, H., and T. Simpson. 2006. “Commonality Indices for Product Family Design: A Detailed Comparison.” Journal of Engineering Design 17 (2): 99–119.10.1080/09544820500275693
  • Wacker, J., and M. Treleven. 1986. “Component Part Standardization: An Analysis of Commonality Sources and Indices.” Journal of Operations Management 6: 219–244.10.1016/0272-6963(86)90026-4
  • Wang, H., X. Zhu, H. Wang, S. Hu, Z. Lin, and G. Chen. 2011. “Multi-objective Optimization of Product Variety and Manufacturing Complexity in Mixed-model Assembly Systems.” Journal of Manufacturing Systems 30: 16–27.10.1016/j.jmsy.2011.03.002
  • Yu, C., and T. Wong. 2015. “A Multi-agent Architecture for Multi-product Supplier Selection in Consideration of the Synergy between Products.” International Journal of Production Research 6059–6082.10.1080/00207543.2015.1010745
  • Zussman, E., A. Kriwet, and G. Seliger. 1994. “Disassembly-oriented Assessment Methodology to Support Design for Recycling.” CIRP Annals 43 (1): 9–14.10.1016/S0007-8506(07)62152-0
  • Zussman, E., and M. Zhou. 1999. “A Methodology for Modeling and Adaptive Planning of Disassembly Processes.” IEEE Transactions on Robotics and Automation 15 (1): 190–194.10.1109/70.744614

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