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An engineering approach to plastic recycling based on rheological characterization
Kuswanti, C., Xu, G., Qiao, J., Stuart, J. A., Koelling, K., & Lilly, B. (2002). An engineering approach to plastic recycling based on rheological characterization. Journal of Industrial Ecology, 6(3), 125-135. doi:10.1162/108819802766269566
Characterization of virgin and postconsumer blended high‐impact polystyrene resins for injection molding
Xu, G., Qiao, J., Kuswanti, C., Koelling, K., Stuart, J. A., & Lilly, B. (2002). Characterization of virgin and postconsumer blended high‐impact polystyrene resins for injection molding. Journal of Applied Polymer Science, 84(1), 1-8. doi:10.1002/app.2339
On-line content uniformity determination of tablets using low-resolution Raman spectroscopy
Wikström, H., Romero-Torres, S., Wongweragiat, S., Williams, J. A. S., Grant, E. R., & Taylor, L. S. (2006). On-line content uniformity determination of tablets using low-resolution Raman spectroscopy. Applied Spectroscopy, 60(6), 672-681. doi:10.1366/000370206777670684
An automotive bulk recycling planning model
Williams, J. A. S., Wongweragiat, S., Qu, X., McGlinch, J. B., Bonawi-tan, W., Choi, J. K., & Schiff, J. (2007). An automotive bulk recycling planning model. European Journal of Operational Research, 177(2), 969-981. doi:10.1016/j.ejor.2006.01.031
A review of electronics demanufacturing processes
Williams, J. A. S. (2006). A review of electronics demanufacturing processes. Resources, Conservation and Recycling, 47(3), 195-208. doi:10.1016/j.resconrec.2005.11.003
A switching rule for plastics identification in electronics recycling
Williams, J. A. S., Qu, X., Rios, P., Wieland, J., & Grant, E. (2008). A switching rule for plastics identification in electronics recycling. International Journal of Computer Integrated Manufacturing, 21(6), 730-743. doi:10.1080/09511920701551782
A review of research towards computer integrated demanufacturing for materials recovery
Williams, J. A. S. (2007). A review of research towards computer integrated demanufacturing for materials recovery. International Journal of Computer Integrated Manufacturing, 20(8), 773-780. doi:10.1080/09511920601079322
Managing returns in a catalog distribution center
Gates, J., Stuart, J. A., Bonawi-tan, W., & Loehr, S. (2004). Managing returns in a catalog distribution center. The Mathematics Teacher, 98(2), 118-128.
Reducing costs through improved returns processing
Stuart, J. A., Bonawi-tan, W., Loehr, S., & Gates, J. (2005). Reducing costs through improved returns processing. International Journal of Physical Distribution & Logistics Management, 35(7), 468-480. doi:10. Jl 08/096(XXl:l0510615806
A review of life-cycle design challenges
Stuart, J. A., & Somerville, R. S. (1998). A review of life-cycle design challenges. International Journal of Environmentally Conscious Design & Manufacturing, 7(1), 43-57.
Challenges in determining electronics equipment take-back levels
Stuart, J. A., Low, M. K., Williams, D. J., Turbini, L. J., & Ammons, J. C. (1998). Challenges in determining electronics equipment take-back levels. IEEE Transactions on Components. Packaging and Manufacturing Technology, Part C: Technology, 21(3), 225-232. doi:10.1109/3476.720421
A refine-or-sell decision model for a station with continuous reprocessing options in an electronics recycling center
Stuart, J. A., & Lu, Q. (2000). A refine-or-sell decision model for a station with continuous reprocessing options in an electronics recycling center. IEEE Transactions on Electronics Packaging Manufacturing, 23(4), 321-327. doi:10.1109/6104.895078
New metrics and scheduling rules for disassembly and bulk recycling
Stuart, J. A., & Christina, V. (2003). New metrics and scheduling rules for disassembly and bulk recycling. IEEE Transactions on Electronics Packaging Manufacturing, 26(2), 133. doi:10.1109/TEPM.2003.817723
A model for discrete processing decisions for bulk recycling of electronics equipment
Stuart, J. A., & Lu, Q. (2000). A model for discrete processing decisions for bulk recycling of electronics equipment. IEEE Transactions on Electronics Packaging Manufacturing, 23(4), 314-320. doi:10.1109/6104.895077
Chapter 16
Stuart, J. A. (2001). Chapter 16: Clean manufacturing. Handbook of Industrial Engineering, 530-543.
Investigation of electronic assembly design alternatives through production modeling of life cycle impacts, costs, and yield
Stuart, J. A., Turbini, L. J., & Ammons, J. C. (1997). Investigation of electronic assembly design alternatives through production modeling of life cycle impacts, costs, and yield. IEEE Transactions on Components. Packaging and Manufacturing Technology, Part C: Technology, 20(4), 317-326. doi:10.1109/3476.650964
Activity‐based environmental inventory allocation
Stuart, J. A., Turbini, L. J., & Ammons, J. C. (1998). Activity‐based environmental inventory allocation. Journal of Industrial Ecology, 2(3), 95-108. doi:10.1162/jiec.1998.2.3.95
A product and process selection model with multidisciplinary environmental considerations
Stuart, J. A., Ammons, J. C., & Turbini, L. J. (1999). A product and process selection model with multidisciplinary environmental considerations. Operations Research, 47(2), 221-234. doi:10.1287/opre.47.2.221
Scheduling selective disassembly for plastics recovery in an electronics recycling center
Rios, P. J., & Stuart, J. A. (2004). Scheduling selective disassembly for plastics recovery in an electronics recycling center. IEEE Transactions on Electronics Packaging Manufacturing, 27(3), 187-197. doi:10.1109/TEPM.2004.843128
A symbolic methodology to improve disassembly process design
Rios, P., Blyler, L., Tieman, L., Stuart, J. A., & Grant, E. (2003). A symbolic methodology to improve disassembly process design. Environmental Science & Technology, 37(23), 5417-5423. doi:10.1021/es030524+

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