Page 127 - IJB-7-3
P. 127

Li, et al.
           38.  Isaacson A, Swioklo S, Connon CJ, 2018, 3D Bioprinting of   45.  Tanner RI, 1970, A Theory of Die-Swell. J Polym Sci Part A-2
               a Corneal Stroma Equivalent. Exp Eye Res, 173:188–93.  Polym Phys, 8:2067–78.
               https://doi.org/10.1016/j.exer.2018.05.010.     46.  Carreau  PJ,  Choplin  L,  Clermont  JR,  1985,  Exit  Pressure
           39.  Kong B, Chen Y, Liu R, et al., 2020, Fiber Reinforced GelMA   Effects in Capillary Die Data. Polym Eng Sci, 25:669–76.
               Hydrogel to Induce the Regeneration of Corneal Stroma. Nat      https://doi.org/10.1002/pen.760251105.
               Commun, 11:1435.                                47.  Iwami K, Noda T, Ishida K, et al., 2010, Bio Rapid Prototyping
           40.  Zhang  B,  Gao  L,  Gu  L,  et  al.,  2017,  High-resolution  3D   by   Extruding/Aspirating/Refilling   Thermoreversible
               Bioprinting  System  for Fabricating  Cell-laden  Hydrogel   Hydrogel. Biofabrication, 2:014108.
               Scaffolds  with  High  Cellular  Activities.  Proc CIRP,  65:      https://doi.org/10.1088/1758-5082/2/1/014108.
               219–24.                                         48.  Liang JZ, 2008, Effects of Extrusion Conditions on Die-Swell
               https://doi.org/10.1016/j.procir.2017.04.017.       Behavior  of  Polypropylene/Diatomite  Composite  Melts.
           41.  Shao  L,  Gao  Q,  Xie  C,  et al.,  2020,  Sacrificial  Microgel-  Polym Test, 27:936–40.
               Laden Bioink-Enabled  3D Bioprinting of Mesoscale Pore      https://doi.org/10.1016/j.polymertesting.2008.08.001.
               Networks. Biodes Manuf, 3:30–9.                 49.  Chin  WC.  Managed  Pressure  Drilling:  Modeling,  Strategy
               https://doi.org/10.1007/s42242-020-00062-y.         and Planning. Waltham: Gulf Professional Publishing; 2012.
           42.  Gong Y, Wang F, Al-Furjan MS, et al., 2020, Experimental   p. 315-85.
               Investigation and Optimal 3D Bioprinting Parameters of SA-  50.  Allain C, Cloitre M, Perrot P, 1997, Experimental Investigation
               Gel Porous Cartilage Scaffold. Appl Sci, 10:768.    and Scaling Law  Analysis of Die Swell in Semi-Dilute
               https://doi.org/10.3390/app10030768.                Polymer Solutions. J Nonnewton Fluid Mech, 73:51–66.
           43.  Khalil S, Sun W, 2007, Biopolymer Deposition for Freeform      https://doi.org/10.1016/s0377-0257(97)00051-7.
               Fabrication of Hydrogel Tissue Constructs. Mater Sci Eng C,   51.  Cooke ME, Rosenzweig DH, 2021, The Rheology of Direct
               27:469–78.                                          and Suspended Extrusion Bioprinting. APL Bioeng, 5:011502.
               https://doi.org/10.1016/j.msec.2006.05.023.         https://doi.org/10.1063/5.0031475.
           44.  Tanner  RI,  2005,  A  Theory  of  Die-Swell  Revisited.   52.  Quéré D, Azzopardi MJ, Delattre L, 1998, Drops at Rest on a
               J Nonnewton Fluid Mech, 129:85–7.                   Tilted Plane. Langmuir, 14:2213–6.







































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