@Article{JRM.2014.634137,
AUTHOR = {William Eberts, Matthew T. Siniawski, Timothy Burdiak, Nick Polito},
TITLE = {Mechanical Characterization of Bamboo and Glass Fiber  Biocomposite Laminates},
JOURNAL = {Journal of Renewable Materials},
VOLUME = {3},
YEAR = {2015},
NUMBER = {4},
PAGES = {259--267},
URL = {http://www.techscience.com/jrm/v3n4/49557},
ISSN = {2164-6341},
ABSTRACT = {Single-ply biocomposite laminates were fabricated with two different woven fabrics and a bio-based resin 
using a wet layup technique at room temperature. A highly elastic, stockinette weave bamboo fiber fabric 
and a thicker, inelastic plain weave bamboo fabric were both investigated. The elastic fabric was pre-strained 
at 25% intervals, ranging from 0–100% of its original length. Samples made with E-Glass and S-Glass, two 
common glass fiber reinforcements, were also fabricated using the bioresin as benchmarks. The ultimate 
strength and modulus of elasticity characteristics of the composites were determined using the ASTM D3039/
D3039M-08 standard test method for determining the tensile properties of polymer matrix composites. The 
average percent elongation, toughness, and fiber volume ratio of the samples were determined in order to 
further understand the mechanical response of the composites. The plain weave bamboo fabric laminate had 
a higher tensile strength and a higher modulus compared to the stockinette weave laminate. Both bamboo 
laminates had lower strengths and moduli compared to the E-Glass and S-Glass laminates. However, at a prestrain of 100%, the stockinette weave bamboo laminate exhibited a higher toughness than both the glass fiber 
laminates and the plain weave bamboo laminate.},
DOI = {10.7569/JRM.2014.634137}
}