Properties of Bamboo Fiber Reinforced Cornstarch-Based Composites

Guang Sheng Zeng; Rui Zhen Lin; Cong Meng; Lei Chen

doi:10.4028/www.scientific.net/AMM.200.237

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 200Properties of Bamboo Fiber Reinforced...

Properties of Bamboo Fiber Reinforced Cornstarch-Based Composites

Abstract:

In this paper the composites made of cornstarch and PVA as matrix, bamboo fiber as reinforcement, glycerol and urea as mixed plasticizer were prepared through the extrusion molding. By physical methods, the effects of cornstarch, bamboo fiber, PVA and mixed plasticizer on the mechanical properties of composites were investigated. SEM was used to observe the influence of different content of mixed plasticizer in cornstarch. The results showed that an increase in mixed plasticizer content from 10% to 40% in cornstarch did improve the mechanical properties of the composites compared without mixed plasticizer, and when the mixed plasticizer (wt-glycerol: wt-urea=2:1) content was 30% to cornstarch, the composite showed the highest tensile strength and elongation rate. Composites made from 20% of bamboo fiber, 30% of cornstarch, 50% of PVA and 30% of mixed plasticizer to cornstarch gave the best tensile strength (15.8N). Glycerol and urea could permeate the cornstarch molecules and plasticize it under high temperature and shearing in the extrusion process.

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Periodical:

Applied Mechanics and Materials (Volume 200)

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237-242

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.200.237

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Online since:

October 2012

Authors:

Guang Sheng Zeng, Rui Zhen Lin, Cong Meng, Lei Chen

Keywords:

Amboo Fiber, Cornstarch, Glycerol Urea, Iodegradable, PVA

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References

[1] W. M. Doane, C. L. Swanson and G. F. Fanta: American Chemical Society, (1992), pp.197-230.

Google Scholar

[2] D.S. Rosas, M.R. Calil and C.G.F. Guedes: Polym Environ, Vol. 12(2004), p.239.

Google Scholar

[3] F. Bien, B. Wiege and S. Warwel: Starch/Starke, Vol.53(2001) No.11, pp.555-559.

Google Scholar

[4] S. Mahmut and A.H. Milford: J Carbohyd Polym, Vol.(2005), pp.541-544.

Google Scholar

[5] L. Chen, X. Y. Qiu, M. X. Deng, Z. K. Hong, R. Luo and X. S. Chen: Polymer, Vol.46(2001) No.15, pp.5723-5729.

Google Scholar

[6] X. C. Ge, Y. Xu, Y. Z. Meng and R.K.Y. Li: Compos Sci Technol, Vol.65(2005)No.14, pp.2219-2225.

Google Scholar

[7] J. L. Willett, M. M. Millard and B. K. Jasberg: Polymer, Vol.38(1997), p.24.

Google Scholar

[8] C. Mercier: Starch Forum, Vol.29(1997), pp.48-52.

Google Scholar

[9] A. A. S. Curvelo, A. J. F. Carvalho and J. A. M. Agnelli: Carbohyd Polym, Vol.45(2001)No.2, pp.183-188.

Google Scholar

[10] L. Averous, C. Fringant and L. Moro: Starch/Starke., Vol.53(2001), pp.368-371.

Google Scholar

[11] K. N. Matsui, F. D. S. Larotonda, S. S. Paes, D. B. Luiz, A. T. N. Pires and J. B. Laurindo: Carbohydrate Polym Forum, Vol.55(2004), pp.435-443.

Google Scholar

[12] A. K. Mohanty, L. T. Drzal and M. Misra: Sci Technol Forum, Vol.16(2002), p.8.

Google Scholar

[13] N. Follain, C. Joly and P. Dole and C. Bliard: Carbohyd Polym Forum, Vol. 60(2005), pp.185-192.

Google Scholar

[14] S. Huda, L. T. Drzal, M. Misra, A. K. Mohant, K. Williams and D. F. Mielewski: Ind Eng Chem Res, Vol.44(2005), p.9.

Google Scholar

[15] R. L. Shogren, J. W. Lawton and K. F. Tiefenbacher: Ind Crops Prod , Vol.16(2002), p.69.

Google Scholar