Rice Straw Fiber Biocomposites Potentials in Contemporary Architecture

Hanaa Dahy; Jan  Knippers

Authors

Hanaa Dahy
Jan Knippers

Keywords:

Rice Straw Fiber, Agricultural Waste, Biocomposites, Straw-based Fibre and Particleboards, Straw Bales

Abstract

Compared to synthetic fibers, natural fibers have many advantages such as renewability, availability, low cost, biodegradability, non-toxicity and other excellent properties. Rice Straw Fiber (RSF) is considered to be an important but still abundant natural fiber when compared to other known industrial natural fibers like jute, kenaf and hemp. Inspite of the fact that RSF is considered one of the highest biomasses in the world, it still lacks much more deep research to investigate all its possible potentials in different industrial fields, especially in the building industry. On the other hand and as a result, this fibre with all its potentials is still illegally burnt in huge amounts worldwide causing extreme environmental damage as it's still considered an agricultural "waste", much more than a "resource" of its own.
Thus, the main objective of this paperwork is to highlight the potentials of rice straw fiber as an active filler together with its reinforcement activities in biocomposites as well as the "as -is" method of using this fibre in its raw form in direct building applications that should be also discussed. This will be achieved through the analysis and synthesis of a number of technologies, examples and applications of rice straw fiber composite materials. In addition, different technologies used in the industrialization of such biocomposites will be illustrated according to the outcome product reached, and categorized.

Metrics

Metrics Loading ...

References

Atchison J.E. and McGovern J.N.1983. History of paper and the importance of agrobased plant fibres. Pulp and Paper Manufacture. Vol.3. Secondary Fibres and Agrobased Pulping, Hamilton. F. and Leopold B., Eds., TAPPI Press, Atlanta.

Avella M., Martuscelli E., Pascucci B at al.1993. A New Class of biodegradable materials: poly-3-hydroxy-butyrate/ steam exploded straw fiber composites. I. Thermal and Impact Behavior. pp2091-2103.J. Applied Polymer Science 49:)

Avella M.,Rota GL, Martuscelli E et al. 2000 Poly (3-hydroxy-butyrate-co-3-hydroxxyvalerate) and wheat steam fibre composites: thermal, mechanical properties and biodegradation behavior. pp829-836.J. Applied Polymer Science 35.

Bergeret Anne et al. 2011. Environmental friendly Biodegradable Polymers and composites, in Integrated Waste management Voll. InTech.

Buzarovska A, Bogoeva-Gaceva G, Grozdanov A, Avella M, Gentile G, Errico M. 2008. Potential use of rice straw as filler in eco-composite materials.Australian. pp37-42 , Journal of Crop Science

Chander R., Ajay Ket al. 2007. Lignocellulose Biotechnology: Future Prospects . International Publishing HousePvt. Ltd., India

El-Sayed, M .. El-Samni, T.M. 2006. Physical & Chemical Properties of Rice Straw Ash and its Effect on the Cement Paste Produced from different Cement Types. pp.21-33. J. King Saud Univ. vol. 19, Eng. Sci. 1.

Han, Y.W., Anderson, AW. 1974.The problem of rice straw waste: a possible feed through fermentation. pp.338-344, Econ.Bot. 28

H. Ku, H. Wang et al.2011. A Review on the Tensile Properties of Natural Fiber Reinforced Polymer Composites. pp. 856-873.Composites Part B: Engineering, 42 (4).

John A Youngquist et al. 1996. Agricultural Fibres for Use in Building Components. pp 123-134.Syposium by U.S. Dep. Of Agr. Forest Service et al, WI: Forest Products Society.

John M., Rajesh D. Anandjiwala.2008. Recent developments in chemical modification and characterization of natural fiber-reinforced composites,pp 187-207, Journal of Polymer Composites, Vol.29, Iss.2, Wiley InterScience

Kakroodi, A R., Leduc, S. et al.2012. Mechanical properties of recycled polypropylene/SER rubber crumbs blends reinforced by birch wood flour.(Report)Article from: Polymers and Polymer Composites

J!Iantanis, G .. and Berns J.2001. Strawboards bonded with Urea Formaldehyde Resins. Proceedings of the Washington State University International 35th, Particleboards/Composite J!Iaterials Symposium

J!Iatko' S., Toldy A et al. 2005. Flame retardancy of biodegradable polymers and biocom posites. pp 13 8-145. Polymer Degradation and Stability 88. Elsevier Science

Pekarovic,,J., Pekarovicova, A, D. Fleming III., P.2008. Preparation of Biosilicaenriched Filler and an Example of its Use in Papermaking Retention System. , (2008), pp.218-222, Papir a Celuloza, 63, 7-8

Schmidt, AS.at al.2002. Comparison of the chemical properties of wheat straw and beech fibers following alkaline wet oxidation and laccase treatments. pp 39-53, Journal of Wood Chemistry and Technology. Vol.22, Issue 1

Sun, R.C. 2010. Cereal Straw as a Resource for Sustainable Biomaterials and Biofuels, pp. 1-5, Elsevier Science.

Sz. Matko.2005.Flame retardancy of biodegradable polymers and biocomposites . . pp 138-145.Polymer Degradation and Stability 88.El SevierScience

Tappi, 1983.Properties of fibrous raw materials and their preparation and pulping, pulp and paper manufacture, Vol. l, M.J. Kocurek and C.F.B. Stevens, eds.

Roxas D B, Castillo L S et al. 1984. Chemical composition and in vitro digestibility of straw from different varieties of rice. In: P T Doyle (ed.), The utilization of fibrous agricultural residues as animal feeds. Proceedings of the 3rd Ann.Workshop of the Austr.-AsianFibr. Agric. Residues Res. Network, Sri Lanka.

Van Dam J. E.G., van den Oever M. JA, Keijsers E. R.P.2004. Production process for high density high performance binderless boards from whole coconut husk. pp 97-101.Industrial Crops and Products 20 . El Sevier Science

Xiaoqun, M. , Donghai W. and Xiuzhi S . Sun. 2005. Straw based Biomass and Biocomposites. Ch.14, Natural Fibers, Biopolymers, and Biocomposites. CRC Press

Yang HS, Kim HJ, Son J, Park HJ, Lee BJ, Hwang IS .2004. Rice-husk flour filled polypropylene composites; mechanical and morphological study. pp305-312.Compos. Struct. 63

http://www.fritsch.de/uploads/tx downloads/CUTTING MILLS 03.pdf *

http://tuoyao.en.alibaba.com *

http ://aggregain. wrap. org. uk/waste management regulations/background/european. html#anchorlink 1 *

Galletti A et al.2011.

http://www.eurobioref.org/Summer School/Lectures Slides/dav2/Lectures/L04 AG %20Raspolli.pdf *

http://en.wikipedia.org/wiki/Epidermis %28botany%29 *

http://en.wikipedia.org/wiki/Cereal *

*:(date of connection for all websites: August 2012)