References
- Agarwala, M.K., Jamalabad, V.R., Langrana, N.A., Safari, A., Whalen, P.J. and Danforth, S.C. (1996) Structural quality of parts processed by fused deposition. Rapid Prototyping Journal, 2(4), 4–19.
- Anitha, R., Arunachalam, S. and Radhakrishnan, P. (2001) Critical parameters influencing the quality of prototypes in fused deposition modelling. Journal of Materials Processing Technology, 118(1-3), 385–388.
- Asadi-Eydivand, M., Solati-Hashjin, M., Farzad, A. and Osman, N.A.A. (2016) Effect of technical parameters on porous structure and strength of 3D printed calcium sulfate prototypes. Robotics and Computer-Integrated Manufacturing, 37, 57–67.
- ASTM (2015) ASTM52900–15 Standard Terminology for Additive Manufacturing—General Principles—Terminology, Volume 3. ASTM International, West Conshohocken, PA.
- Azizi, A., Parsaeefard, S., Javan, M.R., Mokari, N. and Yanikomeroglu, H. (2019) Profit maximization in 5G+ networks with heterogeneous aerial and ground base stations. IEEE Transactions on Mobile Computing, 19(10), 2445–2460.
- Bertsekas, D.P. (1995) Dynamic Programming and Optimal Control, Volume 1, Athena Scientific, Belmont, MA.
- Bikas, H., Stavropoulos, P. and Chryssolouris, G. (2016) Additive manufacturing methods and modelling approaches: A critical review. The International Journal of Advanced Manufacturing Technology, 83(1-4), 389–405.
- Borish, M., Post, B., Roschli, A., Chesser, P., Love, L., Gaul, K., Sallas, M. and Tsiamis, N. (2019) In-situ thermal imaging for single layer build time alteration in large-scale polymer additive manufacturing. Technical report, Oak Ridge National Lab.(ORNL), Oak Ridge, TN.
- Brenken, B., Barocio, E., Favaloro, A., Kunc, V. and Pipes, R.B. (2018) Fused filament fabrication of fiber-reinforced polymers: A review. Additive Manufacturing, 21, 1–16.
- Chesser, P., Post, B., Roschli, A., Carnal, C., Lind, R., Borish, M. and Love, L. (2019) Extrusion control for high quality printing on big area additive manufacturing (baam) systems. Additive Manufacturing, 28, 445–455.
- Cole, K.D., Yavari, M.R. and Rao, P.K. (2020) Computational heat transfer with spectral graph theory: Quantitative verification. International Journal of Thermal Sciences, 153, 106383.
- Colosimo, B.M., Huang, Q., Dasgupta, T. and Tsung, F. (2018) Opportunities and challenges of quality engineering for additive manufacturing. Journal of Quality Technology, 50(3), 233–252.
- Compton, B.G., Post, B.K., Duty, C.E., Love, L. and Kunc, V. (2017) Thermal analysis of additive manufacturing of large-scale thermoplastic polymer composites. Additive Manufacturing, 17, 77–86.
- Dinwiddie, R.B., Kunc, V., Lindal, J.M., Post, B., Smith, R.J., Love, L. and Duty, C.E. (2014) Infrared imaging of the polymer 3D-printing process, in Thermosense: Thermal Infrared Applications XXXVI. International Society for Optics and Photonics, Bellingham, WA, Volume 9105, pp. 910502.
- Dreifus, G., Goodrick, K., Giles, S., Patel, M., Foster, R.M., Williams, C., Lindahl, J., Post, B., Roschli, A., Love, L. and Kunc, V. (2017) Path optimization along lattices in additive manufacturing using the Chinese postman problem. 3D Printing and Additive Manufacturing, 4(2), 98–104.
- Duty, C.E., Kunc, V., Compton, B., Post, B., Erdman, D., Smith, R., Lind, R., Lloyd, P. and Love, L. (2017) Structure and mechanical behavior of big area additive manufacturing (baam) materials. Rapid Prototyping Journal, 23(1), 181–189.
- Fathizadan, S., Ju, F., Rowe, K., Fiechter, A. and Hofmann, N. (2020) A novel real-time thermal analysis and layer time control framework for large-scale additive manufacturing. Journal of Manufacturing Science and Engineering, 143(1), 011009.
- Fathizadan, S., Niaki, S.T.A. and Noorossana, R. (2017) Using independent component analysis to monitor 2-D geometric specifications. Quality and Reliability Engineering International, 33(8), 2075–2087.
- Han, W., Jafari, M.A., Danforth, S.C. and Safari, A. (2002) Tool path-based deposition planning in fused deposition processes. Journal of Manufacturing Science and Engineering, 124(2), 462–472.
- Han, W., Jafari, M.A. and Seyed, K. (2003) Process speeding up via deposition planning in fused deposition-based layered manufacturing processes. Rapid Prototyping Journal, 9(4), 212–218.
- Huang, X., Ye, C. and Huang, Y. (2011) Tool path planning based on endpoint build-in optimization in rapid prototyping. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 225(12), 2919–2926.
- Jin, Y., Pierson, H.A. and Liao, H. (2019) Toolpath allocation and scheduling for concurrent fused filament fabrication with multiple extruders. IISE Transactions, 51(2), 192–208.
- Kim, H., Lin, Y. and Tseng, T.-L.B. (2018) A review on quality control in additive manufacturing. Rapid Prototyping Journal, 24 (3), 645–669.
- Love, L.J. (2015) Utility of big area additive manufacturing (baam) for the rapid manufacture of customized electric vehicles. Technical report, Oak Ridge National Lab. (ORNL), Oak Ridge, TN.
- Love, L.J. and Duty, C. (2015) Cincinnati big area additive manufacturing (baam). Technical report, Oak Ridge National Lab. (ORNL), Oak Ridge, TN.
- Mohamed, O.A., Masood, S.H. and Bhowmik, J.L. (2016) Mathematical modeling and FDM process parameters optimization using response surface methodology based on q-optimal design. Applied Mathematical Modelling, 40(23-24), 10052–10073.
- Nocedal, J. and Wright, S. (2006) Numerical Optimization, Springer Science & Business Media, New York, NY.
- Noorossana, R., Fathizadan, S. and Nayebpour, M.R. (2016) EWMA control chart performance with estimated parameters under non-normality. Quality and Reliability Engineering International, 32(5), 1637–1654.
- Otsu, N. (1979) A threshold selection method from gray-level histograms. IEEE Transactions on Systems, Man, and Cybernetics, 9(1), 62–66.
- Quiñonero-Candela, J. and Rasmussen, C.E. (2005) A unifying view of sparse approximate Gaussian process regression. Journal of Machine Learning Research, 6, 1939–1959.
- Sood, A.K., Ohdar, R.K. and Mahapatra, S.S. (2010) Parametric appraisal of mechanical property of fused deposition modelling processed parts. Materials & Design, 31(1), 287–295.
- Sun, Q., Rizvi, G., Bellehumeur, C. and Gu, P. (2008) Effect of processing conditions on the bonding quality of FDM polymer filaments. Rapid Prototyping Journal, 14(2), 72–80.
- Thermwood (2019) Large scale additive manufacturing. http://thermwood.com/lsam/brochures/lsam_2017_brochure/index.html (accessed 10 January 2020).
- Wang, F., Fathizadan, S., Ju, F., Rowe, K. and Hofmann, N. (2020) Print surface thermal modeling and layer time control for large-scale additive manufacturing. IEEE Transactions on Automation Science and Engineering, 18(1), 244–254.
- Wang, F., Ju, F., Rowe, K. and Hofmann, N. (2019) Real-time control for large scale additive manufacturing using thermal images, in 2019 IEEE 15th International Conference on Automation Science and Engineering (CASE), IEEE Press, Piscataway, NJ, pp. 36–41.
- Yavari, M.R., Cole, K.D. and Rao, P.K. (2019) Design rules for additive manufacturing–understanding the fundamental thermal phenomena to reduce scrap. Procedia Manufacturing, 33, 375–382.
- Zeng, K., Pal, D. and Stucker, B. (2012) A review of thermal analysis methods in laser sintering and selective laser melting, in Proceedings of Solid Freeform Fabrication Symposium Austin, TX, Volume 60, pp. 796–814.