Publications

Journal Papers

[25]  Egan, P. “Design for Additive Manufacturing: Recent Innovations and Future Directions.” Designs, 7(4), 2023.

[24]  Chirico-Scheele, S., M. Binks, G. Christopher, F. Maleky, and P. Egan. “Printability, Texture, and Sensory Trade-offs for 3D Printed Potato with Added Proteins and Lipids.” Journal of Food Engineering, 351, 2023.

[23]   Khatri, N. and P. Egan. “Energy absorption of 3D printed ABS and TPU multi-material honeycomb structures.” 3D Printing and Additive Manufacturing, 2023.

[22]   Egan, P. N. Khatri, M. Parab, and A. Arefin. “Mechanics of 3D printed polymer lattices with varied design and processing strategies.” Polymers, 14(24), 2022.

[21]  Kulkarni, N., S. Ekwaro-Osire, and P. Egan. “Fabrication, mechanics, and reliability analysis for 3D printed lattice designs.” Journal of Risk and Uncertainty in Engineering Systems, Part B: Mechanical Engineering, 8(1), 2021.

[20]  Arefin, A., M. Lahowetz, and P. Egan. “Simulated tissue growth in tetragonal lattices with mechanical properties tuned for bone tissue engineering.” Computers in Biology and Medicine, 2021.

[19]  Arefin, A., N. Khatri, N. Kulkarni, and P. Egan. “Polymer 3D printing review and outlook: Materials, process, and design for medical applications.” Polymers, 13(9), 2021.

[18]  Scheele, S., C. Hartmann, M. Siegrist, M. Binks, and P. Egan. “Consumer assessment of 3D printed food shape, taste, and fidelity using chocolate and marzipan materials.” 3D Printing and Additive Manufacturing, 2021.

[17]  Moniruzzaman, M., C. O'Neal, A. Bhuiyan, and P. Egan. “Design and Mechanical Testing of 3D Printed Hierarchical Lattices Using Biocompatible Stereolithography.” Designs, 24(3), pp. 22, 2020.

[16]  Egan, P. “Integrated design approaches for 3D printed tissue scaffolds: Review and outlook.” Materials, 12(25), pp. 2355, 2019.

[15]  Egan, P.,  X. Wang, H. Greutert, K. Shea, K. Würtz-Kozak, and S. Ferguson. “Mechanical and biological testing of polymer lattices for tissue engineering.” 3D Printing and Additive Manufacturing, 6.2, pp. 73-81, 2019.

[14]  Egan, P.,  I. Bauer, K. Shea, and S. Ferguson. “Mechanics of three-dimensional printed lattices for biomedical devices.” Journal of Mechanical Design, 141(3), pp. 031703, 2019.

[13]  Egan, P., K. Shea, and S. Ferguson. “Simulated tissue growth in 3D printed scaffolds.” Biomechanics and modeling in mechanobiology, pp. 1-15, 2018.

[12]  Egan, P., J. Moore, A. Ehrlicher, D. Weitz,  C. Schunn, J. Cagan, and P. LeDuc. “Robust mechanobiological behavior emerges in heterogeneous myosin systems.” PNAS, pp. 201713219: 1-8, 2017.

[11]  Egan, P., V. Gonella, M. Engensperger, S. Ferguson, and K. Shea. “Computationally designed lattices with tuned properties for tissue engineering using 3D printing.” PLoS One, 12(8), pp. e0182902: 1-20, 2017.

[10]  Egan, P., S. Ferguson, and K. Shea. “Design of hierarchical three-dimensional printed scaffolds considering mechanical and biological factors for bone tissue engineering.” Journal of Mechanical Design, 139(6), pp. 061401: 1-9, 2017.

[9]    Egan, P., J.  Cagan, C. Schunn, F. Chiu, J. Moore, and P. LeDuc,. “The D3 Methodology: Bridging science and design for bio-based product development.” Journal of Mechanical Design, 138(8), pp. 081101: 1-13, 2016.                      

[8]    Egan, P., C. Schunn, J. Cagan, and P. LeDuc. “Improving human understanding and design of complex multi-level systems with animation and parametric relationship supports.” Design Science, e3: pp. 1-31, 2015.

[7]    Egan, P., B. Sinko, S. Ketan, and P. LeDuc. “The role of mechanics in biological and bio-inspired systems.” Nature Communications, 6, pp. 1-11, 2015.

[6]    Stankovic, T., J. Mueller, P. Egan, and K. Shea. “Generalized optimality criteria for optimization of additively manufactured multi-material lattice structures.” Journal of Mechanical Design, 137(11), pp. 111705: 1-12, 2015.           

[5]    Egan, P., J. Moore, C. Schunn, J. Cagan, and P. LeDuc. “Emergent systems energy laws for predicting myosin ensemble processivity.” PLOS Computational Biology, 11(4), pp. e1004177: 1-16, 2015.

[4]    Egan, P., J.  Cagan, C. Schunn, and P. LeDuc. “Synergistic human-agent methods for deriving effective search strategies: The case of nanoscale design.” Research in Engineering Design, 26(2), pp. 145-169, 2015.

[3]    Egan, P., J. Cagan, C. Schunn, and P. LeDuc. “Design of complex biologically based nanoscale systems using multi-agent simulations and structure-behavior-function representations.” Journal of Mechanical Design, 135(6), pp. 061005: 1-12, 2013.

[2]    Zapf, V., V. Correa, P. Sengupta, C. Batista, M. Tsukamoto, N. Kawashima, P. Egan,  C. Pantea, A. Migliori, J. Betts, M. Jaime, and A. Paduan-Filho. “Direct measurement of spin correlations using magnetostriction.” Physical Review B, 77(2), pp. 020404: 1-4, 2008.

[1]    Franco, A., V. Zapf, and P. Egan.  “Magnetic properties of nanoparticles of CoxFe(3-x)O4 prepared by combustion reaction.” Journal of Applied Physics, 101(9), pp. 09M506: 1-3, 2007.  

Book Chapters

[2]     Chirico, S., M. Binks, and P. Egan. “3D Printing Food: Manufacturing, Mechanics, and Validation.” Materials Science and Engineering in Food Product Development. Wiley Publishing, in press.

[1]     Egan, P.,  and J.  Cagan. “Human and computational approaches for design problem-solving.” Experimental Design Research. Springer House Publishing, 2016.  pp. 187-205.

Conference Papers

[27]   Arefin, A. and P. Egan. “Pareto Optimization of Tissue and Blood Vessel Growth in 3D Printed Bone Scaffolds.” ASME IDETC Design Automation Conference. Boston, MA, 2023. 

[26]   Chirico, S., and P. Egan. “Effect of various types of additives on texture and shape stability of mashed potato and pumpkin.” ASME IDETC DFMLC Conference. St. Louis, MO, 2022.

[25]   Khatri, N., J. A. Smith, and P. Egan. “Empirical characterization of lattice, spring, and non-assembly mechanisms fabricated with nylon powder printing.” ASME IDETC DAC Conference. St. Louis, MO, 2022.

[24]  Masud, A., A. Arefin, M. Chyu, and P. Egan. “Design and testing of 3D printed tissue scaffolds with directionally tunable stiffness.” ASME IMECE Conference. Virtual Conference, 2021.

[23]  Khatri, N., and P. Egan. “Tailored energy absorption for 3D printed multi-material cellular structures using ABS and TPU.” ASME IMECE Conference. Virtual Conference, 2021.

[22]  Arefin, A., and P. Egan. “Computational investigation of tissue and blood vessel growth trade-offs in hierarchical lattices.” ASME IDETC Design Automation Conference. Virtual Conference, 2021.

[21]  Chirico, S., M. Hoque, G. Christopher, and P. Egan. “Printability and fidelity of protein-enriched 3D printed foods: A case study using cricket and pea protein powder.” ASME IDETC DFMLC Conference. Virtual Conference, 2021.

[20]  Mahmoud, R., Q. Nguyen, G. Christopher, and P. Egan. “3D printed food design and fabrication approach for manufacturability, rheology, and nutrition trade-offs.” ASME IDETC Design Automation Conference. Virtual Conference, 2021.

[19]  Kulkarni, N., S. Ekwaro-Osire, and P. Egan. “Mechanical testing and reliability analysis for 3D printed cubic lattices.” ASME IMECE Conference. Virtual Conference, 2020.

[18]  Arefin, A. and P. Egan. “Computational design generation and evaluation of beam-based tetragonal bravais lattice structures for tissue engineering.” ASME IDETC Design Automation Conference. Virtual Conference, 2020.

[17]  Briguiet, G. and P. Egan. “Structure, process, and material influences for 3D printed lattices designed with mixed unit cells.” ASME IDETC Design Automation Conference. Virtual Conference, 2020.

[16]  Chirico S., M Binks, and P. Egan. “Design and manufacturing of 3D printed foods with user validation.” ASME IDETC Design for Manufacturing and Life Cycle Conference. Virtual Conference, 2020.

[15]  Egan, P. “Design and biological simulation of 3D printed lattices for biomedical applications.” ASME IDETC Design Automation Conference. Anaheim, CA, 2019.

[14]  Egan, P., I. Bauer, K.Shea, and S. Ferguson. “Integrative design, build, test approach for biomedical devices with lattice structures.” *Best Paper Finalist* ASME IDETC Design Theory and Methodology Conference. Quebec City, Canada, 2018.

[13]  Egan, P., V. Gonella, M. Engensperger, S. Ferguson, and K. Shea. “Design and fabrication of 3D printed tissue scaffolds informed by mechanics and fluids simulations.” ASME IDETC Design Automation Conference. Cleveland, OH, 2017.

[12]  Egan, P., S. Ferguson, and K. Shea. “Design and 3D printing of hierarchical tissue engineering scaffolds based on mechanics and biology perspectives.” ASME IDETC Design Theory and Methodology Conference. Charlotte, NC, 2016.

[11]  Egan, P., J.  Cagan, P. LeDuc, and C. Schunn. “The d₃ science-to-design methodology: Automated and cognitive-based processes for discovering, describing, and designing complex nanomechanical biosystems.” ASME IDETC Design Theory and Methodology Conference. Boston, MA, 2015.

[10]  Egan, P., C. Schunn, J.  Cagan, and P. LeDuc. “Development of graphical user interfaces to improve human design proficiency for complex multi-level biosystems.” *Best Paper Award* at ASME Computers and Information in Engineering Conference. Boston, MA, 2015. 

[9]    Stankovic, T., J. Mueller, P. Egan, and K. Shea. “Optimization of additively manufactured multi-material lattice structures using generalized optimality criteria.” *Best Paper Award* at ASME Computers and Information in Engineering Conference. Boston, MA, 2015.

[8]    Chen, T., P. Egan, F. Stoeckli, and K. Shea. “Studying the impact of incorporating an additve manufacturing based design exercise in a large, first year technical drawing and CAD course.” ASME IDETC Engineering Education Conference. Boston, MA, 2015.

[7]    Egan, P., T. Ho, C. Schunn, J.  Cagan, and P. LeDuc. “The effects of training background and design tools on multi-level biosystems design.” Internation Conference on Engineering Design. Milano, Italy, 2015.

[6]    Egan, P.,  J. Cagan, C. Schunn and P. LeDuc. “Cognitive-based search strategies for complex bio-nanotechnology design derived through symbiotic human and agent-based approaches.” ASME IDETC Design Theory and Methodology Conference. Buffalo, NY, 2014. DETC2014-34714.

[5]    Egan, P.,  C. Schunn, J. Cagan, and P.LeDuc. “Surprisingly stochastic: Learning and design application of emergent behavior using interactive simulations of nano-mechanical biological systems.” Annual Conference of the Cognitive Science Society. Quebec City, CA, 2014.

[4]    Egan, P.,  J. Cagan, C. Schunn, and P. LeDuc. “A modular design tool for visualizing complex multiscale systems.” International Conference on Engineering Design. Seoul, South Korea, 2013.

[3]    Egan, P.,  J. Cagan, C. Schunn, and P. LeDuc. “Utilizing emergent levels to facilitate complex systems design: demonstrated in a synthetic biology domain.” ASME IDETC Design Automation Conference. Portland OR, 2013. DETC2013-12072

[2]    Egan, P.,  J. Cagan, C. Schunn, and P. LeDuc. “Design of complex nano-scale systems using multi-agent simulations and structure-behavior-function representations.” ASME IDETC Design Theory and Methodology Conference.  Chicago, IL, 2012. pp. 793-804.

[1]    Egan, P.,  P. LeDuc, J. Cagan, and C. Schunn. “A design exploration of genetically engineered myosin motors.” ASME IDETC Design Automation Conference. Washington DC, 2011. pp. 1017-1025.