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W2317343630 endingPage "686" @default.
W2317343630 startingPage "677" @default.
W2317343630 abstract "Emulsion blending as a new method to combine a water-soluble biopolymer, gelatin, with a synthetic biodegradable elastomer, poly(butylene succinate-co-adipate) (PBSA), was investigated. Blending by wet processing a hydrophilic biopolymer with a hydrophobic synthetic polymer aimed at evaluating the potential for improving the mechanical properties of the biopolymer without affecting its biodegradability. The effect of the variation of blend composition, and of the experimental procedure for the emulsification and the subsequent preparation of cast films from the resulting oil-in-water emulsions was analyzed. In particular, processing temperature, concentration of the precursor solutions (aqueous gelatin and PBSA in dichloromethane, respectively), blending method and post treatment conditions (T, P) affect the quality and stability of the aqueous gelatin emulsion containing PBSA in dichloromethane as the dispersed phase. Control of the aqueous phase viscosity is a key parameter for both the emulsion stability and the morphology of the final heterophasic cast films. In fact, viscosity must be sufficiently low to allow high shear emulsification, but high enough to prevent coalescence among the organic phase droplets. The process conditions optimized for a 80/20 blend were extended to the preparation of blends with 5–30 wt % PBSA. It was found that evaporation of the organic phase must be nearly quantitative before casting to allow the formation of uniform films at any investigated composition of the immiscible polymer blend. In fact, when the films are produced by casting, the presence of residual organic solvent along with too high a viscosity of the aqueous gelatin phase promotes the formation of cavities opening up at the lower film surface as a result of the higher density of CH2Cl2. However, such cavities, internally sheathed with PBSA microbeads precipitated upon evaporation of the organic phase, if smaller than 100 μm turned out to improve the flexibility of the films." @default.
W2317343630 created "2016-06-24" @default.
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W2317343630 date "2016-04-01" @default.
W2317343630 modified "2023-10-16" @default.
W2317343630 title "Emulsion Blending Approach for the Preparation of Gelatin/Poly(butylene succinate-<i>co</i>-adipate) Films" @default.
W2317343630 cites W1025538029 @default.
W2317343630 cites W1493051325 @default.
W2317343630 cites W1598825523 @default.
W2317343630 cites W1839058048 @default.
W2317343630 cites W1963907111 @default.
W2317343630 cites W1963978988 @default.
W2317343630 cites W1973389957 @default.
W2317343630 cites W1984960787 @default.
W2317343630 cites W1986371076 @default.
W2317343630 cites W1986628994 @default.
W2317343630 cites W1987322101 @default.
W2317343630 cites W1989221416 @default.
W2317343630 cites W1991057016 @default.
W2317343630 cites W1993527280 @default.
W2317343630 cites W1994318714 @default.
W2317343630 cites W1996726913 @default.
W2317343630 cites W1999802497 @default.
W2317343630 cites W2001620286 @default.
W2317343630 cites W2001846129 @default.
W2317343630 cites W2003010863 @default.
W2317343630 cites W2007017398 @default.
W2317343630 cites W2007435139 @default.
W2317343630 cites W2009300804 @default.
W2317343630 cites W2010883387 @default.
W2317343630 cites W2012142451 @default.
W2317343630 cites W2018957200 @default.
W2317343630 cites W2021827530 @default.
W2317343630 cites W2026092265 @default.
W2317343630 cites W2028549223 @default.
W2317343630 cites W2033912819 @default.
W2317343630 cites W2037895483 @default.
W2317343630 cites W2038166869 @default.
W2317343630 cites W2040894917 @default.
W2317343630 cites W2042864468 @default.
W2317343630 cites W2044915631 @default.
W2317343630 cites W2045350968 @default.
W2317343630 cites W2046492673 @default.
W2317343630 cites W2047523087 @default.
W2317343630 cites W2048014227 @default.
W2317343630 cites W2048378992 @default.
W2317343630 cites W2048933340 @default.
W2317343630 cites W2053248486 @default.
W2317343630 cites W2055441372 @default.
W2317343630 cites W2061311087 @default.
W2317343630 cites W2064006544 @default.
W2317343630 cites W2067690759 @default.
W2317343630 cites W2068834088 @default.
W2317343630 cites W2073120193 @default.
W2317343630 cites W2082243948 @default.
W2317343630 cites W2085453305 @default.
W2317343630 cites W2089762267 @default.
W2317343630 cites W2095118042 @default.
W2317343630 cites W2095352878 @default.
W2317343630 cites W2108577566 @default.
W2317343630 cites W2122873273 @default.
W2317343630 cites W2129243864 @default.
W2317343630 cites W2150178045 @default.
W2317343630 cites W2164626597 @default.
W2317343630 cites W2322830027 @default.
W2317343630 cites W2331202801 @default.
W2317343630 cites W2331385261 @default.
W2317343630 cites W4205677429 @default.
W2317343630 cites W4230176578 @default.
W2317343630 cites W4241297640 @default.
W2317343630 cites W4248545014 @default.
W2317343630 doi "https://doi.org/10.1021/acsbiomaterials.6b00050" @default.
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