Green composites of waste silk short fibers/cellulose were prepared by dissolving cellulose in (7%NaOH/12%Urea) aqueous solution pre-cooled at −12°C. The effect of fiber loading on the tensile, optical, thermal degradation, and cell viability was studied. The interfacial bonding between the fibers and matrix was assessed using the fractograph.
KumarRLiuDZhangL.Advances in biomaterials. J Biobased Mater Bioenergy2008; 2(1): 1–24.
2.
SundararamanSShabeerAChandrashekharaKSchumanT.Impact behavior of fiber reinforced pultruded soy-epoxy composites. J Biobased Mater Bioenergy2008; 2(1): 71–77.
3.
Jeevan Prasad ReddyDVarada RajuluAArumugamVNareshMDMuthukrishnanM.Effects of resorcinol on the mechanical properties of soy protein isolate films. J Plast Film Sheeting2010; 25(3–4): 221–233.
4.
JagadeeshDJeevan Prasad ReddyDVarada RajuluALiR.Green composites from wheat protein isolate and Hildegardia populifolia natural fabric. Polymer Compos J2011; 32(3): 398–406.
5.
HamadaH.Mechanical properties of hemp reinforced poly(butylenes succinate) biocomposites. J Biobased Mater Bioenergy2008; 2(3): 273–281.
6.
LiangZ.Mechanical and thermal properties of poly(butylene succinate)/plant fiber biodegradable composite. J Appl Polym Sci2010; 115(6): 3559–3567.
7.
ShinjiO.Development of high strength biodegradable composites using manila hemp fiber and starch based biodegradable resin. Composites A2006; 37(11): 1879–1883.
8.
HuRLimJK.Fabrication and mechanical properties of completely biodegradable hemp fiber reinforced polylactic acid composites. J Comp Mater2007; 41(13): 1655–1669.
9.
AlvarezVAKennyJMVazquezA.Creep behavior of biocomposites based on sisal fiber reinforced cellulose derivatives/starch blends. Polym Compos2004; 25(3): 280–288.
10.
AmmarICheikhRBCamposARCunhaAM.Injection molded composites of short Alfa fibers and biodegradable blends. Polym Compos2006; 27(4): 341–348.
11.
KimSDaleBEDrzalLTMisraM.Life cycle assessment of Kenaf fiber reinforced biocomposites. J Biobased Mater Bioenergy2008; 2(1): 85–93.
12.
LiXHMengYZWangSJVarada RajuluATjongSC.Completely biodegradable composites of poly(propylene carbonate) and short lignocellulose fiber Hildegardia populifolia. J Polym Sci Part B, Polym Phys2004; 42(4): 666–675.
13.
QiHChangCZhangL.Properties and applications of biodegradable transparent and photoluminescent films prepared via a green process. Green Chem2009; 11(2): 177–184.
14.
LueAZhangL.Investigation of the scaling law on cellulose solution prepared at low temperature. J Phys Chem B2008; 112(15): 4488–4495.
15.
CaiJZhangLLiuSLiuYXuXChenX. Dynamic self-assembly induced rapid dissolution of cellulose at low temperatures. Macromolecules2008; 41(23): 9345–9351.
16.
QiHCaiJZhangLKugaS.Properties of films composed of cellulose nanowhiskers and a cellulose matrix regenerated from alkali/urea solution. Biomacromolecules2009; 10(6): 1597–1602.
17.
SaravananBCSreekumarCBansalGCRayDRaoJRMishraAK.A rapid MTT colorimetric assay to assess the proliferative index of two Indian strains of Theileria annulata. Vet Parasitol2003; 113(3–4): 211–216.
18.
MosmanT.Rapid colorimetric assay for cellular growth and survival. J Imm Methods1983; 65(1–2): 55–63.
19.
YuanQYaoJChenXHuangLShaoZ.The preparation of high performance silk fiber/fibroin composites. Polymer2010; 51(21): 4843–4849.
