Biomedical Engineering Reference
In-Depth Information
Bledzki, A. K., Jaszkiewicz, A., and Scherzer, D.
(2009). Mechanical properties of PLA compos-
ites with man-made cellulose and abaca fibres.
Composites: Part A
40
, 404-412.
Bodros, E., Pillin, I., Montrelay, N, and Baley,
C (2007). Could biopolymers reinforced by ran-
domly scattered flax fibre be used in structural
applications?
Composites Science and Technol-
ogy
67
, 462-470.
Bourmaud, A. and Pimbert, S. (2008). In-
vestigations on mechanical properties of
poly(propylene) and poly(lactic acid) reinforced
by miscanthus fibers.
Composites: Part A
,
39
,
1444-1454.
Bunsell, A. R., and Renard, J, (Eds.) (2005).
Fundamentals of Fibre Reinforced Composite
Materials
. Institut of Physics Publishing, Bristol,
Philadelphia, USA.
Cheung, H., Ho, M., Lau, K., Cardona, F.,and
Hui, D. (2009). Natural fibre-reinforced com-
posites for bioengineering and environmental
engineering applications.
Composites Part B:
Engineering
40
, 655 -663.
Cho, D., Seo, J. M., Lee, H. S., Cho, C. W., Han,
S. O., and Park, W. H. (2007). Property improve-
ment of natural fiber-reinforced green compos-
ites by water treatment.
Advanced Composite
Materials,
16
, 299-314.
DIN EN ISO 61:1977: Glasfaserverstärkte
Kunststoffe--Zugversuch (German).
DIN EN ISO 139:2005: Textilien--Normalkli-
mate für die Probenvorbereitung und Prüfung
(German).
DIN EN ISO 179:1996: Kunststoffe--Bestim-
mung der Charpy-Schlagzähigkeit (German).
Ganster, J. and Fink, H. P. (2006). Novel cel-
lulose fibre reinforced thermoplastic materials.
Cellulose
13,
271-280.
Garlotta, D. (2001). A literature review of
poly(lactic acid).
Journal of Polymers and the
Environment
9
(2), 63-84.
Gassan, J. and Bledzki, A. (1999). Möglichkeiten
zur Kontrolle der Festigkeit und Impactzähigkeit
von naturfaserverstärkten Kunststoffen.
Die An-
gewandte Makromolekulare Chemie
272
(4745),
17-23.
Grashorn, C. (2007). Erstes Serienprodukt aus
naturfaserverstärktem PLA im Spritzguss. 5.
N-FibreBase Kongress,
Mai 2007, Hürth, Ger-
many, pp. 21-22.
Graupner, N. (2008). Application of lignin as
natural adhesion promoter in cotton fibre-rein-
forced poly(lactic acid) (PLA) composites
. Jour-
nal of Materials Science
43,
5222-5229.
Graupner, N. (2009). Improvement of the Me-
chanical Properties of Biodegradable Hemp Fi-
ber Reinforced Poly(lactic acid) (PLA) Compos-
ites by the Admixture of Man-made Cellulose
Fibers
. Journal of Composite Materials
43
(6),
689-702.
Graupner, N., Herrmann, A. S., and Müssig, J.
(2009). Natural and man-made cellulose fibre-
reinforced poly(lactic acid) (PLA) composites:
An overview about mechanical characteristics
and application areas.
Composites: Part A
40
,
810-821.
Graupner, N. and Müssig, J. (2009). Man-made
cellulose fibres as reinforcement for poly(lactic
acid) (PLA) composites.
Journal of Biobased
Materials and Bioenergy
3,
249-261.
Gupta, B., Revagade, N., and Hilborn, J. (2007).
Poly(lactic acid) fiber: An overview
. Progress in
Polymer Science,
32
, 455-482.
Hu, R. and Lim, J. (2007). Fabrication and Me-
chanical Properties of Completely Biodegrad-
able Hemp Fiber Reinforced Polylactic Acid
Composites.
Journal of Composite Materials
41
(13), 1655-1668.
Huber, T. and Müssig, J. (2008). Fibre matrix
adhesion of natural fibres cotton, flax and hemp
in polymeric matrices analyzed with the single
fibre fragmentation test.
Composite Interfaces
15
(2-3), 335-349.
Huda, M. S., Drzal, L. T., Mohanty, A. K., and
Misra, M. (2008). Effect of fiber surface-treat-
ments on the properties of laminated biocom-
posites from poly(lactic acid) (PLA) and kenaf
fibers. Composites Science and Technology 68,
424-432.
Ibrahim, N., Yunus, W., Othman, M., Abdan,
K., and Hadithon, K. (2010). Poly(Lactic Acid)
(PLA)-reinforced Kenaf Bast Fiber Composites:
The Effect of Triacetin. Journal of Reinforced
Plastics and Composites, 29, 1099-1111.
Iji, M. (2008). Highly Functional Bioplastics
Used for Durable Products. In The Netherlands
Science and Technology (Organizer and Editor).
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