Rice Straw and Cornstarch Biodegradable Composites

Published Date
2012, Vol.3:83–88, doi:10.1016/j.aasri.2012.11.015

Conference on Modelling, Identification and Control

Open Access, Creative Commons license

Title 

Rice Straw and Cornstarch Biodegradable Composites ☆

• Author 

• Junjun Liu ^a,,
• Chanjuan Jia ^a
• Chunxia He ^b

• aXuzhou Institute of Technology, Xuzhou 221008, China
• bKey Laboratory of Intelligence Agricultural Equipment, College of Engineering, Nanjing Agricultural University, Nanjing 210031, China

Available online 22 January 2013

Abstract

The main goal of this work was to use rice straw (RS) in the production of environmentally sound composites using corn based adhesives (CA). Treatments of RS with NaOH and hot-water were undertaken to evaluate the effect of such treatments on the performance of produced composites. The influence of composite density and starch content on properties of composites was also investigated. The microstructure of fractured surfaces was further observed. Results showed that cornstarch based composites had higher flexural strength. Composites made from hot-water treated straw and cornstarch had better interface and higher flexural strength, and flexural strength reached peak values at starch content of 10% and composite density of 0.7 g/cm³. Composites made from non-treated straw and cornstarch had lower moisture absorption. Moisture absorption was increasing with starch content increasing and density decreasing. The composites developed from this work may have potential application for ceiling panels and bulletin boards.

Keywords

• Rice straw
• Cornstarch
• Biodegradable
• Flexural strength
• Moisture absorption
• Composites

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References

1. • [1]
   • Tong Jin, Ma Yunhai, Ren Luquan
   • Naturally biological materials and their tribology: a review [J]
   • Tribology, Volume 21, Issue 4, 2001, pp. 315–320
2. • [2]
   • C.H.E.N. Xiaolei, S.H.I. Jiangao, W.A.N.G. Lei
   • Degradability of Poly(lactic-acid)/Starch Composite in Seawater [J]
   • Marine Fisheries, Volume 31, Issue 4, 2009, pp. 420–425 (in Chinese)
3. • [3]
   • N. Reddy, Y. Yang
   • Preparation and characterization of long natural cellulose fibers from wheat straw [J]
   • J Agric Food Chem, Volume 55, 2007, pp. 8570–8575
   • View Record in Scopus
      | 
     Full Text via CrossRef
     Citing articles (40)
4. • [4]
   • Zhou Dingguo, Yang. Zhang
   • The Development of Straw-based Composites Industry in China [J]
   • China Wood Industry, Volume 211, 2007, pp. 5–8 (in Chinese)
5. • [5]
   • A. Schirp, F. Loge, K. Englund
   • Pilot-scale production and material properties of extruded straw–plastic composites based on untreated and fungal-treated wheat straw [J]
   • For Prod J, Volume 56, 2006, pp. 90–96
   • View Record in Scopus
     Citing articles (6)
6. • [6]
   • A. Alemdar, M. Sain
   • Biocomposites from wheat straw nanofibers:morphology, thermal and mechanical properties [J]
   • Compos Sci Technol, Volume 68, 2008, pp. 557–565
   • Article
      | 
      PDF (874 K)
      | 
     View Record in Scopus
     Citing articles (202)
7. • [7]
   • X. Li, S. Wang, L. Duan
   • Particulate and trace gas emissions from open burning of wheat straw and corn stover in China [J]
   • Environ Sci Technol, Volume 41, 2007, pp. 6052–6058
   • View Record in Scopus
      | 
     Full Text via CrossRef
     Citing articles (134)
8. • [8]
   • S. Panthapulakkal, M. Sain
   • Injection molded wheat straw and corn stem filled polypropylene composites [J]
   • J Polym Environ, Volume 14, 2006, pp. 265–272
   • Article
      | 
      PDF (363 K)
      | 
     View Record in Scopus
      | 
     Full Text via CrossRef
     Citing articles (135)
9. • [9]
   • Han Seung Yang, Dae Jun Kim, Lee. Young Kyu
   • Possibility of using waste tire composites reinforced with rice straw as construction materials [J]
   • Bioresource Technology, Volume 95, 2004, pp. 61–65
10. • [10]
    • Soren Halvarsson, Hakan Edlund, Magnus Norgren
    • Properties of medium-density fibreboard (MDF) based on wheat straw and melamine modified urea formaldehyde (UMF) resin [J]
    • Industrial Crops and Products, Volume 28, 2008, pp. 37–46
11. • [11]
    • Xuan Kuang, Rui Kuang, Xiaodong, Zheng
    • Mechanical properties and size stability of wheat straw and recycled LDPE composites coupled by waterborne coupling agents [J]
    • Carbohydrate Polymers, Volume 80, 2010, pp. 927–933
12. • [12]
    • K. Andrzej, Bledzki, A. Abdullah, Mamun, Volk. Jürgen
    • Physical, chemical and surface properties of wheat husk, rye husk and soft wood and their polypropylene composites [J]
    • Composites: Part A, Volume 41, 2010, pp. 480–488
    • View Record in Scopus
      Citing articles (1)
13. • [13]
    • Yi Zou, Shah Huda, Yang. Yiqi
    • Lightweight composites from long wheat straw and polypropylene web [J]
    • Bioresource Technology, Volume 101, 2010, pp. 2026–2033
14. • [14]
    • P. Leiva, E.M. Ciannamea, R.A. Ruseckaite, P.M. Stefani
    • Medium-density particleboards from rice husks and soybean protein concentrate [J]
    • J Appl Polym Sci, Volume 106, 2007, pp. 1301–1306
    • View Record in Scopus
       | 
      Full Text via CrossRef
      Citing articles (22)
15. • [15]
    • B.S. Ndazi, S. Karlsson, J.V. Tesha, C.W. Nyanumwa
    • Chemical and physical modifications of rice husks for use as composite panels [J]
    • Compos Part A, Volume 38, 2007, pp. 925–935
    • Article
       | 
       PDF (1077 K)
       | 
      View Record in Scopus
      Citing articles (80)

• ☆
  Selection and/or peer review under responsibility of American Applied Science Research Institute.

• ⁎ 
  Corresponding author. Tel.: +086 15050822151.
  
  

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