Thermal properties of extruded and injection-molded poly(lactic acid)-based cuphea and lesquerella bio-composites

Journal of Applied Polymer Science

Volumn 111, Issue 1, 2009, Pages 114-124

  Mohamed, Abdellatif ^a   Finkenstadt, V L ^a   Rayas Duarte, P ^b   Palmquist Debra, E ^a   Gordon, Sherald H ^a  

^a NATIONAL CENTER FOR AGRICULTURAL UTILIZATION RESEARCH   (United States)

^b OKLAHOMA STATE UNIVERSITY   (United States)

Author keywords

Crystallinity; Cuphea; Degradation mechanism; DSC; Enthalpic relaxation; Extruded; Injection molded; Lasquerella; TGA

Indexed keywords

CRYSTALLINITY; CUPHEA; DEGRADATION MECHANISM; DSC; ENTHALPIC RELAXATION; EXTRUDED; INJECTION-MOLDED; LASQUERELLA; TGA;

ACIDS; BODY FLUIDS; DECOMPOSITION; DEGRADATION; DIFFERENTIAL SCANNING CALORIMETRY; DIGITAL CAMERAS; ELECTRIC RESISTANCE; EXTRUSION; EXTRUSION MOLDING; FIBERS; FLOW INTERACTIONS; GLASS TRANSITION; GRAVIMETRIC ANALYSIS; INJECTION MOLDING; LACTIC ACID; LASER INTERFEROMETRY; MELTING POINT; MOLDING; MOLDS; ORGANIC ACIDS; PLASTIC MOLDS; PYROLYSIS; SPINNING (FIBERS); THEOREM PROVING; THERMODYNAMIC PROPERTIES;

THERMOGRAVIMETRIC ANALYSIS;

BIOACTIVE PROPERTY; BIODEGRADABILITY; CRYSTALLINITY; ENZYMATIC DEGRADATION; EXTRUSION; FIBER PROPERTY; FIBER REINFORCED COMPOSITE; GLASS TRANSITION TEMPERATURE; INJECTION MOLDING; POLYLACTIC ACID; THERMAL PROPERTY; THERMOGRAVIMETRY;

EID: 58149233862     PISSN: 00218995     EISSN: 10974628     Source Type: Journal    
DOI: 10.1002/app.28964     Document Type: Article

References (25)

1. Netravali, A. N.; Chabba, S. Mater Today 2003, 6, 22.
2. Garlotta, D. J Polym Environ 2001, 9, 63.
3. Wollerdorfer, M.; Bader, H. Ind Crops Prod 1998, 8, 105.
4. Oksman, K.; Skrifvars, M.; Selin, J.-L. Compos Sci Technol 2003, 63, 1317.
5. Garlotta, D.; Doane, W. M.; Shogren, R. L.; Lawton, J. L.; Willett, J. L. J Appl Polym Sci 2003, 88, 1775.
6. Martin, O.; Averous, L. Polymer 2001, 42, 6209.
7. Gattin, R.; Copinet, A.; Bertrand, C.; Couturier, Y. Int Biodeterioration Biodegrad 2002, 50, 25.
8. Chen, C. C.; Chueh, J. Y.; Tseng, H.; Huang, H. M.; Lee, S. Y. Biomaterials 2003, 24, 1167.
9. Wang, L.; Ma, W.; Gross, R. A.; McCarthy, S. P. Polym Degrad Stab 1998, 59, 161.
10. Cao, X.; Mohamed, A. A.; Gordon, S. H.; Willett, J. L.; Sessa, D. J. Thermochim Acta 2003, 406, 115.
11. Kasuga, T.; Maeda, H.; Kato, H.; Nogami, M.; Hata, M. L; Ueda, M. Biomaterials 2003, 24, 3247.
12. Bleach, N. C.; Nazhat, S. N.; Tanner, K. E.; Kellomaki, M.; Tormala, P. Biomaterials 2002, 23, 1579.
13. Finkenstadt, V. L.; Liu, L.; Willett, J. L. J Polym Environ 2007, 15, 1.
14. Liu, L.; Finkenstadt, V. L.; Liu, C. K.; Coffin, D. R.; Willett, J. L.; Fishman, M. L.; Hicks, K. B. J Biobased Mater Bioenergy 2007, 1, 1.
15. Cermak, S. C.; Isbell, T. A.; Isbell, J. E.; Akerman, G. G.; Lowery, B. A.; Deppe, A. B. Ind Crops Prod 2005, 21, 353.
16. Holser, R. A. Ind Crops Prod 2003, 18, 133.
17. Harry-O'kuru, R. E.; Holser, R. A.; Abbott, A. P.; Weisleder, D. Ind Crops Prod 2002, 15, 51.
18. Nicolais, L.; Narkis, M. J Appl Polym Sci 1971, 15, 469.
19. Bailey, N. A.; Sandor, M.; Kreitz, M.; Mathiowitz, E. J Appl Sci 2002, 86, 1868.
20. Flynn, J. H.; Wall, L. A. Polym Lett 1.966, 4, 323.
21. Hua, C.; Vipul, D.; Gross, R. A.; McCarthy, S. P. J Polym Sci 1996, 34, 2701.
22. Wong, A. C.-Y.; Lam, F. Polym Test 2002, 21, 691.
23. Urban, M. W.; Craver, C. D., Eds. Structure-Property Relations in Polymers: Spectroscopy and Performance; American Chemical Society: Washington DC, 1993.
24. Gordon, M.; Taylor, J. S. J Appl Chem 1952, 2, 493.
25. Kwei, T. K.; Pearce, E. M.; Pennacchia, J. R.; Charton, M. Macromolecules 1987, 20, 1174.