**6. References**


Fracture Mechanisms of Biodegradable PLA and PLA/PCL Blends 393

Takayama, T., Todo, M., Tsuji, H. (2011). Effect of annealing on the mechanical properties of

Todo,M., Shinohara,N., Arakawa, K. (2002). Effects of crystallization and loading-rate on

Todo, M., Kagawa, T., Takenoshita, Y., Myoui, A. (2008). Effect of press processing on

Todo, M., Takayama, T. (2007). Improvement of mechanical properties of poly(l-lactic acid)

Todo, M., Takayama, T., Tsuji, H., Arakawa, K. (2007a). Effect of LTI blending on fracture

Todo, M., Park, S.D., Takayama, T., Arakawa, K. (2007b). Fracture micromechanisms of

Todo, M. (2007). Effect of unidirectional drawing process on fracture behavior of poly(L-

Tsuji, H., Ikada, Y. (1995). Properties and morphologies of poly (L-lactide): 1. Annealing

Tsuji, H., Ikada, Y. (1996). Blends of aliphatic polyesters. I. Physical proeprties and

Tsuji, H., Ishizuka, T. (2001). Porous biodegradable polyesters, 3 Preparation of porous

Tsuji, H., Yamada, T., Suzuki, M., Itsuno, S. (2003). Blends of aliphatic polyesters. part 7.

Uehara, H., Yamazaki, Y., Kanamoto, T. (1996). Tensile properties of highly syndiotactic

Vannaladsaysy, V., Todo, M., Takayama, T., Jaafar, M., Zulkifli, A., Pasomsouk, K. (2009).

Vannaladsaysy,V., Todo, M., Jaafar, M., Ahmad, Z. (2010). Characterization of

triisocyanate. *Polymer Engineering and Science,* Vol.50, No.7, pp.1485-1491.

caprolactone). *Journal of Apllied Polymer Science*, Vol.60, pp.2367-2375. Tsuji, H., Ikada, Y. (1997). Blends of aliphatic polyesters. II. Hydrolysis of solution-cast

solution. *Journal of Apllied Polymer Science*, Vol.67, pp.405-415.

lactide). *Macromolecular Bioscience*, Vol.1, No.2, pp.59-65.

caprolactone). *Polymer Journal*, Vol.52, pp.269-275.

polypropylene. *Polymer*, Vol.37, No.1, pp.57-64.

*Science*, Vol.44, No.11, pp.3006-3009.

lactide). *Journal of Materials Science*, Vol.42, No.4, pp.1393-1396.

*Biomedical Materials*, Vol.4, pp.255-260.

*Science Letters*, Vol.21, pp.1203-1206.

*Materials Engineering*, Vol.2, No.1, pp.1-7.

*Engineering*, Vol.1, No.9, pp.1157-1164.

pp. 1872-1883.

Vol.36, pp.2709-2716.

PLA/PCL and PLA/PCL/LTI polymer blends. *Journal of the Mechanical Behavior of* 

the mode I fracture toughness of biodegradable poly(lactic acid). *Journal of Materials* 

fracture behavior of HA/PLLA biocomposite material. *Journal of Solid Mechanics and* 

by blending of lysine triisocyanate. *Journal of Materials Science*, Vol.42, pp.4721-4724.

proeprties of PLA/PCL polymer blend. *Journal of Solid Mechanics and Materials* 

bioabsorbable PLLA/PCL polymer blends. *Engineering Fracture Mechanics*, Vol.74,

condition effects on properties and morphologies of poly (L-lactide). *Polymer*,

morphologies of solution-cast blends from poly(DL-lactide) and poly(ε-

blends from poly(L-lactide) and poly(ε-caprolactone) in phosphate-buffered

poly(ε-caprolactone) films from blends by selective enzymatic removal of poly(L-

effects of poly(L-lactide-co-ε-caprolactone) on morphology, structure, crystallization, and physical properties of blends of poly(L-lactide) and poly(ε-

Effect of lysine triisocyanate on the mode I fracture behavior of polymer blend of poly(L-lactic acid) and poly(butylene succinate-co-L-lactide). *Journal of Materials* 

microstructure and mechanical properties of biodegradable polymer blends of poly(L-lactic acid) and poly(butylene succinate-co-ε-caprolactone) with lysine


Harada, M., Iida, K., Okamoto, K., Hayashi, H., Hirano, K. (2008). Reactive compatibilization

Ikada, Y., Shikinami, Y., Hara, Y., Tagawa, M., Fukuda, E. (1996). Enhancement of bone

Maglio, G., Migliozzi, A., Palumbo, R., Immizi, B., Volpe, M.G. (1999). Compatibilized

Middleton, J.C., Tipton, A.J. (2000). Synthetic biodegradable polymers as orthopedic devices.

Mohanraj, J., Chapleau, N., Ajji, A., Duckett, R.A., Ward, I.M. (2003a). Fracture behavior of

Mohanraj, J., Chapleau, N., Ajji, A., Duckett, R.A., Ward, I.M. (2003b). Production,

Mohanty, A.K., Misra, M., Hinrichsen, G. (2000). Biofibres, biodegradable polymers and

Park, S.D., Todo, M., Arakawa, K. (2004). Effect of annealing on the fracture toughness of

Park, S.D., Todo, M., Arakawa, K. (2005). Effects of isothermal crystallization on fracture

Park, S.D., Todo, M., Arakawa, K., Koganemaru, M. (2006). Effect of crystallinity and

Sawai, D., Yamane, A., Kameda, T., Kanamoto, T., Ito, M., Yamazaki, M., Hisatani, K. (1999).

co-L-lactate) aaand poly(butylene succinate). *Polymer*, Vol.47, pp.3557-3564. Shibata, M., Teramoto, N., Inoue Y. (2007). Mechanical properties, morphologies, and

Takayama, T., Todo, M. (2006). Improvement of impact fracture properties of PLA/PCL

Takayama, T., Todo, M., Tsuji, H., Arakawa, K. (2006). Effect of LTI content on impact

and tensile proeprties. Macromolecules, Vol.32, No.17, pp.5622-5630. Shibata, M., Teramoto, N., Inoue Y. (2006). Mechanical properties, morphologies, and

poly(lactic acid), *Journal of Materials Science*, Vol.39, pp.1113-1116.

Vol.7, pp.183-187.

*Rapid Communication*, Vol.20, pp.236-238.

Engineering Science, Vol.43, No.6, pp.1317-1335.

L-lactate) blends. *Polymer*, Vol.48, pp.2768-2777.

*Biomaterials*, Vol.21, pp.2335-2346.

pp.553-558.

pp.1336-1345.

pp.1357-1363.

pp.4989-4992.

Vol.41, No.19, pp.6501-6504.

Vol.276/277, pp.1-24.

*Science*, Vol.40, pp.1055-1058.

of biodegradable poly(lactic acid)/poly(epsilon-caprolactone) blends with reactive processing agents, Polymer Engineering and Science, Vol.48, No.7, pp.1359-1368. Higashi, S., Tamamoto, T., Nakamura, T., Ikada, Y., Hyon, S.H., Jamshidi. K. (1986).

Polymer-hydroxyapatite composites for biodegradable bone fillers. *Biomaterials*,

formation by drawn poly(L-lactide). *Journal of Biomedical Materials Research*, Vol. 30,

poly(ε-caprolactone)/poly(L-lactide) blends for biomedical uses. *Macromolecules* 

die-drawn toughened polypropylenes. Journal of Applied Polymer Science, Vol.88,

properties and impact toughness of die-drawn toughened polypropylenes. Polymer

biocomposites:An overview. *Macromolecular Materrials and Engineering*,

toughness and crack growth behavior of poly(lactic acid) , *Journal of Materials* 

loading-rate on mode I fracture behavior of poly(lactic acid). *Polymer*, Vol.47,

Uniaxial drawing of isotactic poly(acrylonitrile): development of oriented structure

crystallization behavior of blends of poly(L-lactide) with poly(butylene succinate-

crystallization behavior of plasticized poly(L-lactide)/poly(butylene succinate-co-

polymer blend due to LTI addition. *Journal of Materials Science*, Vol.41, No.15,

fracture property of PLA/PCL/LTI polymer blends. *Journal of Materials Science*,


**Part 3** 

**Evaluation of the Interaction and Compatibility** 

**of Biomaterials with Biological Media** 

