A phase-field formulation for fracture in ductile materials: Finite deformation balance law derivation, plastic degradation, and stress triaxiality effects
Borden, Michael J., Hughes, Thomas J.R., Landis, Chad M., Anvari, Amin, Lee, Isaac J.
Published in Computer methods in applied mechanics and engineering (01.12.2016)
Published in Computer methods in applied mechanics and engineering (01.12.2016)
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An Isochroman Analog of CD3254 and Allyl-, Isochroman-Analogs of NEt-TMN Prove to Be More Potent Retinoid-X-Receptor (RXR) Selective Agonists Than Bexarotene
Jurutka, Peter W, di Martino, Orsola, Reshi, Sabeeha, Mallick, Sanchita, Sausedo, Michael A, Moen, Grant A, Lee, Isaac J, Ivan, Dominic J, Krall, Tyler D, Peoples, Samuel J, Perez, Anthony, Tromba, Lucas, Le, Anh, Khadka, Iraj, Petros, Ryan, Savage, Brianna M, Salama, Eleine, Salama, Jakline, Ziller, Joseph W, Noh, Youngbin, Lee, Ming-Yue, Liu, Wei, Welch, John S, Marshall, Pamela A, Wagner, Carl E
Published in International journal of molecular sciences (19.12.2022)
Published in International journal of molecular sciences (19.12.2022)
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Corrigendum to “A phase-field formulation for fracture in ductile materials: Finite deformation balance law derivation, plastic degradation, and stress triaxiality effects” [Comput. Methods Appl. Mech. Engrg. 312 (2016) 130–166]
Borden, Michael J., Hughes, Thomas J.R., Landis, Chad M., Anvari, Amin, Lee, Isaac J.
Published in Computer methods in applied mechanics and engineering (01.09.2017)
Published in Computer methods in applied mechanics and engineering (01.09.2017)
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