Effects of Nano Cellulose and Nano Clay on Properties of Biodegradable Composites Made of Recycled Polymers and Industrial Saw Dust

Esmaeilzadeh Saeih, Salume; Khademi Eslam, Habibollah; Ghasemi, Esmaeil; Baziyar, Behzad

doi:10.22092/ijwpr.2019.126306.1541

Document Type : Research Paper

Authors

¹ Phd. Student, Department of Wood and Paper Science and Technology, Faculty of Natural Resources and Environment, Science and Research Branch, Islamic Azad University, Tehran, Iran

² Professor, Department of Wood and Paper Science and Technology, Faculty of Natural Resources and Environment, Science and Research Branch, Islamic Azad University, Tehran, Iran

³ Professor, Iran Polymer and Petrochemical Institute, Tehran, Iran

⁴ Assistance professor, Department of Wood and Paper Science and Technology, Faculty of Natural Resources and Environment, Science and Research Branch, Islamic Azad University, Tehran, Iran

https://doi.org/10.22092/ijwpr.2019.126306.1541

Abstract

Abstract
Effects of temperature, cellulose Nano fibers and Nano clay particles on mechanical, physical and morphological properties of biodegradable composites made of recycled thermoplastic starch biopolymer and regular mixed industrial sawdust are investigated. To this aim Cellulose Nano Fibers and Nano Clay particles were selected to be 0, 3 and 5 weight percent and were added to prepared biodegradable composites by using internal mixer and samples prepared by injection molding. Mechanical properties including tensile modulus and strength, flexural modulus and strength were extracted at temperatures ranging from 23 ºC to 80 ºC. Impact test and water absorption and thickness swelling were also performed according to related standards. Results show that elevating the temperature drastically reduce mechanical properties. Nano Clay addition results in better mechanical properties except for impact and water absorption and thickness swelling are improved. Using 5% Cellulose Nano Fibers improves mechanical and morphological properties better than 3% addition. Dynamic mechanical thermal analysis revealed Nano composites samples with 5% Nano Clay and Cellulose Nano Fibers has higher storage modulus and glass transition temperatures in compare to pure composite samples. This Nano particles can be successfully used to improve properties and performance except for fracture resistance.

Keywords

Main Subjects

Composite wood products

References

Alexandre, B., Marais, S., Langevin, D., Médéric, P. and Aubry, T., 2006. Nanocomposite-based polyamide 12/montmorillonite: relationships between structures and transport properties. Desalination, 199(1-3): 164-166.

-Bharadwaj, R.K., Mehrabi, A.R., Hamilton, C., Trujillo, C., Murga, M., Fan, R. and Thompson, A.K., 2002. Structure–property relationships in cross-linked polyester–clay nanocomposites. Polymer, 43(13), 3699-3705.

-Beigloo, J.G., Eslam, H.K., Hemmasi, A.H., Bazyar, B. and Ghasemi, I., 2017. Effect of nanographene on physical, mechanical, and thermal properties and morphology of nanocomposite made of recycled high density polyethylene and wood flour. BioResources, 12(1): 1382-1394.

-Cao, X., Ding, B., Yu, J. and Al-Deyab, S.S., 2012. Cellulose nanowhiskers extracted from TEMPO-oxidized jute fibers. Carbohydrate polymers, 90(2):1075-1080.

-Chen, H.C., Chen, T.Y. and Hsu, C.H., 2006. Effects of Wood Particle Size and Mixing Ratios of HDPE on the Properties of the Composites, Holz als Roh- und Werkstoff 64: 172–177.

-Deka, B.K. and Maji, T.K., 2011. Effect of TiO2 and nanoclay on the properties of wood polymer nanocomposite. Composites Part A: Applied Science and Manufacturing, 42(12):2117-2125.

-Eslam,H.K., Esmaeeilzadeh, S.S., Rajabi, M., 2011. Effect of Steaming Treatment on the Physical and Mechanical Properties of WPC Made of Cotton Flour and Polypropylene, Australian Journal of Basic and Applied Sciences, 5(6): 1143-1150.

-Han, G., Lei, Y., Wu, Q., Kojima, Y. and Suzuki, S., 2008. Bamboo–fiber filled high density polyethylene composites: effect of coupling treatment and nanoclay. Journal of Polymers and the Environment, 16(2): 123-130

-Huang, Z., Qian, L., Yin, Q., Yu, N., Liu, T. and Tian, D., 2018. Biodegradability studies of poly(butylene succinate) composites filled with sugarcane rind fiber, Polymer Testing, 66 (2018): 319-326.

-Nafchi, H.R., Abdouss, M., Najafi, S.K., Gargari, R.M., and Mazhar, M., 2015. Effects of nano-clay particles and oxidized polypropylene polymers on improvement of the thermal properties of wood plastic composite. Maderas. Ciencia y tecnología, 17(1): 45-54.

-Nosrati, S.B., Dehdast. F., Mohebbi, G.R. and Abdoyss, R., 2017. The effect of nano-clay particles and compatibilization of oxidized polypropylene in molten phase on the mechanical and physical properties of wood plastic composite,Iranian Journal of wood and paper Industrial,9(1):137/151

-Qi, H., Cai, J., Zhang, L. and Kuga, S., 2009. Properties of films composed of cellulose nanowhiskers and a cellulose matrix regenerated from alkali/urea solution. Biomacromolecules, 10(6): 1597-1602.

-Rana, H.T., Gupta, R.K., GangaRao, H.V. and Sridhar, L.N., 2005. Measurement of moisture diffusivity through layered‐silicate nanocomposites. Aiche journal, 51(12): 3249-3256.

-Satyanarayana, K.G., Arizaga, G.G.C. and Wypych, F., 2009. Biodegradable composites based on lignocellulosic fibers-An overview, Progress in polymer science, 34(9): 982-1021.

-Saffarzadeh, S. and Ebrahimi, Gh., 2000. A Study of Cellulosic Fibers/ High Density Polyethylene Composites and their Mechanical Properties, Iran. J. Nat. Res., 53, 217-224, 2000.

-Samal, S.K., Nayak, S.K. and Mohanty, S., 2008. Polypropylene nanocomposites: effect of organo-modified layered silicates on mechanical, thermal & morphological performance. Journal of Thermoplastic Composite Materials, 21(3): 243-263.

-Tjong, S.C., 2006. Structural and mechanical properties of polymer nanocomposites. Materials Science and Engineering: R: Reports, 53(3-4): 73-197.

-Thuwall, M., Boldizar, A. and Rigdahl, M., 2006. Extrusion processing of high amylose potato starch materials. Carbohydrate Polymers, 65(4):441-446.

-Wu, Q., Lei, Y., Clemons, C.M., Yao, F., Xu, Y. and Lian, K., 2007. Properties of HDPE/clay/wood nanocomposites. Journal of Plastic Technology, 27(2):108-115.

Iranian Journal of Wood and Paper Science Research

Effects of Nano Cellulose and Nano Clay on Properties of Biodegradable Composites Made of Recycled Polymers and Industrial Saw Dust

References

References

Volume 34, Issue 3 - Serial Number 69
November 2019
Pages 337-348

Effects of Nano Cellulose and Nano Clay on Properties of Biodegradable Composites Made of Recycled Polymers and Industrial Saw Dust

References

References

Volume 34, Issue 3 - Serial Number 69November 2019Pages 337-348

Volume 34, Issue 3 - Serial Number 69
November 2019
Pages 337-348