Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/a-novel-biodegradable-polyurethane-based-on-hydroxylated-polylactic-CDddwkk6KH
References (49)
-
K. Hiltunen, J. Seppälä, M. Härkönen (1997)
Lactic acid based poly(ester-urethanes) : Use of hydroxyl terminated prepolymer in urethane synthesisJournal of Applied Polymer Science, 63
-
(1949)
Tung Oil: A New American Industry -
J. Borda, Ildikó Bodnár, S. Kéki, L. Sipos, M. Zsuga (2000)
Optimum conditions for the synthesis of linear polylactic acid-based urethanesJournal of Polymer Science Part A, 38
-
M. Coleman, K. Lee, D. Skrovanek, P. Painter (1986)
Hydrogen bonding in polymers. 4. Infrared temperature studies of a simple polyurethaneMacromolecules, 19
-
C. Meuse, Xiaozhen Yang, Decai Yang, S. Hsu (1992)
Spectroscopic analysis of ordering and phase-separation behavior of model polyurethanes in a restricted geometryMacromolecules, 25
-
K. Chian, L. Gan (1998)
Development of a rigid polyurethane foam from palm oilJournal of Applied Polymer Science, 68
-
S. Vainionpää, P. Rokkanen, P. Törmälä (1989)
Surgical applications of biodegradable polymers in human tissuesProgress in Polymer Science, 14
-
M. Yoneda, K. Hayashida, K. Izawa, K. Shimada, K. Shino (1996)
A simple and secure anchoring system for Caspari's transglenoid multiple suture technique using a biodegradable poly-l-lactic acid button.Arthroscopy : the journal of arthroscopic & related surgery : official publication of the Arthroscopy Association of North America and the International Arthroscopy Association, 12 3
-
L. Leung, J. Koberstein (1985)
Small-angle scattering analysis of hard-microdomain structure and microphase mixing in polyurethane elastomersJournal of Polymer Science Part B, 23
-
J. Zeng, Yi-dong Li, Wen-Da Li, Ke‐Ke Yang, Xiu-li Wang, Yu-Zhong Wang (2009)
Synthesis and Properties of Poly(Ester Urethane)s Consisting of Poly(l-Lactic Acid) and Poly(Ethylene Succinate) SegmentsIndustrial & Engineering Chemistry Research, 48
-
Janne Kylmä, J. Seppälä (1997)
Synthesis and Characterization of a Biodegradable Thermoplastic Poly(ester−urethane) ElastomerMacromolecules, 30
-
J. Koberstein, Á. Galambos, L. Leung (1992)
Compression-molded polyurethane block copolymers. 1. Microdomain morphology and thermomechanical propertiesMacromolecules, 25
-
D. Pospiech, H. Komber, D. Jehnichen, L. Häussler, K. Eckstein, Holger Scheibner, A. Janke, H. Kricheldorf, O. Petermann (2005)
Multiblock copolymers of L-lactide and trimethylene carbonate.Biomacromolecules, 6 1
-
M. Corcuera, L. Rueda, B. d’Arlas, A. Arbelaiz, C. Marieta, I. Mondragon, A. Eceiza (2010)
Microstructure and properties of polyurethanes derived from castor oilPolymer Degradation and Stability, 95
-
J. Koberstein, T. Russell (1986)
Simultaneous SAXS-DSC study of multiple endothermic behavior in polyether-based polyurethane block copolymersMacromolecules, 19
-
R. Seymour, S. Cooper (1973)
Thermal Analysis of Polyurethane Block PolymersMacromolecules, 6
-
A. Saiani, C. Rochas, G. Eeckhaut, W. Daunch, J. Leenslag, J. Higgins (2004)
Origin of Multiple Melting Endotherms in a High Hard Block Content Polyurethane. 2. Structural InvestigationMacromolecules, 37
-
D. Cohn, A. Hotovely-Salomon (2005)
Biodegradable multiblock PEO/PLA thermoplastic elastomers: molecular design and propertiesPolymer, 46
-
D. Cohn, A. Salomon (2005)
Designing biodegradable multiblock PCL/PLA thermoplastic elastomers.Biomaterials, 26 15
-
Surya Singh, S. Ray (2007)
Polylactide based nanostructured biomaterials and their applications.Journal of nanoscience and nanotechnology, 7 8
-
V. Rek E. G. Bajsic (2000)
10.1106/Q4CF-0J7G-0H93-C265J. Elastom. Plast., 32
-
Oju Jeon, Soo‐Hong Lee, S. Kim, Y. Lee, Young Kim (2003)
Synthesis and Characterization of Poly(l-lactide)−Poly(ε-caprolactone) Multiblock CopolymersMacromolecules, 36
-
A. Saiani, W. Daunch, H. Verbeke, J. Leenslag, J. Higgins (2001)
Origin of Multiple Melting Endotherms in a High Hard Block Content Polyurethane. 1. Thermodynamic InvestigationMacromolecules, 34
-
Hossein Izadi-Vasafi, G. Sadeghi, H. Garmabi (2012)
Synthesis of hydroxyl‐terminated poly(lactic acid) via polycondensation: An equation to predict molecular weight based on the reaction parametersJournal of Applied Polymer Science, 125
-
Shrikant Khot, John Lascala, E. Can, S. Morye, George Williams, G. Palmese, Seli̇m Küsefoǧlu, R. Wool (2001)
Development and application of triglyceride‐based polymers and compositesJournal of Applied Polymer Science, 82
-
Peter Ma, Ruiyun Zhang, Guozhi Xiao, R. Franceschi (2001)
Engineering new bone tissue in vitro on highly porous poly(alpha-hydroxyl acids)/hydroxyapatite composite scaffolds.Journal of biomedical materials research, 54 2
-
N. Martín (2007)
Encyclopedia of Polymer Science and Technology -
Yanhong Hu, Yun Gao, De-ning Wang, C. Hu, Stella Zu, Lieve Vanoverloop, D. Randall (2002)
Rigid polyurethane foam prepared from a rape seed oil based polyolJournal of Applied Polymer Science, 84
-
J. Borda, Ildikó Bodnár, Istvánné Ráthy, M. Zsuga (2003)
Synthesis and investigation of the mechanical properties of poly(lactic acid)-(toluene diisocyanate)-poly(ethylene glycol)/poly(propylene glycol) copolymersPolymers for Advanced Technologies, 14
-
R. Seymour, G. Estes, S. Cooper (1970)
Infrared Studies of Segmented Polyurethan Elastomers. I. Hydrogen BondingMacromolecules, 3
-
Yongdoo Choi, S. Kim, Sun Kim, K. Lee, Chulhee Kim, Y. Byun (2001)
Long-term delivery of all-trans-retinoic acid using biodegradable PLLA/PEG-PLLA blended microspheres.International journal of pharmaceutics, 215 1-2
-
M. Amrollahi, G. Sadeghi, Y. Kashcooli (2011)
Investigation of novel polyurethane elastomeric networks based on polybutadiene-ol/polypropyleneoxide mixture and their structure–properties relationshipMaterials & Design, 32
-
X. Kong and S. S. Narine in “Industrial and Consumer Nonedible Products from Oils and Fats” (2005)
X. Kong and S. S. Narine in “Industrial and Consumer Nonedible Products from Oils and Fats” (F. Shahidi Ed.), pp.279–281, Wiley, New York, 2005. -
M. Pergal, V. Antić, M. Govedarica, Dejan Goäevac, S. Ostojić, J. Djonlagic (2011)
Synthesis and characterization of novel urethane‐siloxane copolymers with a high content of PCL‐PDMS‐PCL segmentsJournal of Applied Polymer Science, 122
-
D. J. Lyman (1966)
10.1080/15583726608085352Rev. Macromol. Chem., 1
-
Wenna Chen, Weijun Luo, Shen‐guo Wang, J. Bei (2003)
Synthesis and properties of poly(L‐lactide)‐Poly(Ethylene glycol) multiblock copolymers by coupling triblock copolymersPolymers for Advanced Technologies, 14
-
J. Zeng, Yi-dong Li, Qun-Ying Zhu, Ke‐Ke Yang, Xiu-li Wang, Yu-Zhong Wang (2009)
A novel biodegradable multiblock poly(ester urethane) containing poly(L-lactic acid) and poly(butylene succinate) blocksPolymer, 50
-
M. Mosiewicki, U. Casado, N. Marcovich, M. Aranguren (2009)
Polyurethanes from tung oil: Polymer characterization and compositesPolymer Engineering and Science, 49
-
K. Lam, A. Nijenhuis, H. Bartels, A. Postema, M. Jonkman, A. Pennings, P. Nieuwenhuis (1995)
Reinforced poly(L-lactic acid) fibres as suture material.Journal of applied biomaterials : an official journal of the Society for Biomaterials, 6 3
-
(2016)
Polym -
A. Guo, I. Javni, Z. Petrović (2000)
Rigid polyurethane foams based on soybean oilJournal of Applied Polymer Science, 77
-
L. Nair, C. Laurencin (2007)
Biodegradable polymers as biomaterialsProgress in Polymer Science, 32
-
T. Chung, Y. Huang, Y. Liu (2001)
Effects of the rate of solvent evaporation on the characteristics of drug loaded PLLA and PDLLA microspheres.International journal of pharmaceutics, 212 2
-
K. Hiltunen, M. Härkönen, J. Seppälä, T. Väänänen (1996)
Synthesis and Characterization of Lactic Acid Based Telechelic PrepolymersMacromolecules, 29
-
S. Gogolewski (1989)
Selected topics in biomedical polyurethanes. A reviewColloid and Polymer Science, 267
-
T. Cooper, R. Storey (2008)
Poly(lactic Acid) and Chain-Extended Poly(lactic acid)−Polyurethane Functionalized with Pendent Carboxylic Acid GroupsMacromolecules, 41
-
J. Ferguson Z. S. Petrovic (1991)
10.1016/0079-6700(91)90011-9Prog. Polym. Sci., 16
-
Y. Tezuka, Nariaki Ishii, K. Kasuya, H. Mitomo (2004)
Degradation of poly(ethylene succinate) by mesophilic bacteriaPolymer Degradation and Stability, 84
-
Y. Hui (1996)
Industrial and consumer nonedible products from oils and fats
- Publisher
- Springer Journals
- Copyright
- 2016 The Korean Fiber Society and Springer Science+Business Media Dordrecht
- ISSN
- 1229-9197
- eISSN
- 1875-0052
- DOI
- 10.1007/s12221-016-5361-y
- Publisher site
- See Article on Publisher Site
Abstract
Abstract A novel biodegradable polylactic acid-based polyurethane (PU) was synthesized via a chain extension reaction between hydroxylated polylactic acid (PLA-OH) and hydroxylated tung oil (HTO) using 1,6-hexamethylene diisocyanate (HDI) to link the two polyols and dibutyltin dilaurate (DBTDL) as a catalyst. Both PLA-OH and HTO, as polyols, were separately synthesized in our laboratory. Three different molecular weights of PLA-OH prepolymers were used, and the molar ratio of PLA-OH to HTO was also changed to investigate the effect of these two parameters on the structure and properties of the final PUs. Chemical structures of PLA-OH, HTO, and final PUs were investigated by Fourier transform infrared (FTIR) and Hydrogen-1 nuclear magnetic resonance (1HNMR) spectroscopies. Thermal transitions and thermal stability of the final PUs were, respectively, studied by differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA). The FTIR and 1HNMR results showed that the chain-extension reaction of the two polyols with HDI was sufficiently achieved. The TGA results showed that the polyurethanes based on the lower molecular weight PLA segments were more thermally stable; it was not degraded up to 270 °C. DSC results showed that incorporating HTO in the PU chains led to formation of more flexible PU chains, while the glass transition temperatures of the PUs of higher PLA-OH molecular weights were higher than those of lower ones.
Journal
Fibers and Polymers – Springer Journals
Published: Mar 1, 2016
Keywords: Polymer Sciences