Effect of nano gel wollastonite on physical, mechanical and morphological properties of bagasse-cement composites

Hasanpoor Tichi, Ali; Golbabaei, Fardad; Ghasemi, Hadi; Rezanezhad, Mojtaba

doi:10.22092/ijwpr.2019.126987.1560

Document Type : Research Paper

Authors

¹ Wood and Forest Products Science Research Division, Research Institute of Forests and Rangelands, Agricultural Research Education and Extension Organization (AREEO) P.O. Box 13185-116, Tehran, Iran

² Dep. of Faculty member of Graphic Design

³ university

https://doi.org/10.22092/ijwpr.2019.126987.1560

Abstract

In this study, the effect of nano gel wollastonite on physical, mechanical and morphological properties of composites made of bagasse and cement has been investigated. The mixing ratio of bagasse as lignocellulosic material with Portland cement at three levels (15:85, 25: 75 and 35: 65%) and nano-wollastonite at three levels of 0, 3 and 7% were considered as the variables of this study. The cake density of all boards were 1.1 g / cm3 and calcium chloride booster 5% for all treatments were considered as constant factors. Mechanical and physical properties of the specimens include modulus of rupture, modulus of elasticity, internal bonding, thickness swelling after 2 and 24 soaking hours in water and density of boards according to DIN-EN-634 and fire resistance (weight loss percentage) according to standard ISO-11925 were measured. In this study, the hydration temperature of a mixture of cement, bagasse and nano-wollastonite was measured using a thermocouple and flux. Also, microscopic images (SEM) of samples were prepared to investigate the morphological properties of composites and their distribution. The results showed that by increasing the amount of nano-wollastonite, the percentage of weight loss boards decreased, the heat of hydration and the physical and mechanical properties improved. The modulus of rupture, modulus of elasticity, and internal bonding of boards decreased with increasing bagasse content and the maximum value was obtained using 15% bagasse. The results also showed that with increasing bagasse content in boards, there was a significant increase in thickness swelling of boards. Inference from microscopic imaging (SEM) showed that the optimum level of nano-wollastonite can fill the empty holes and create a uniform structure and thus improve the properties of the boards.

Keywords

Main Subjects

Composite wood products

References

-Ciullo, P.A., 1997. Industrial minerals and their uses. Noyes, United States of America, 640p.

-DIN EN standard, NO. 634, 1995. Cement-bonded Particleboards. Specifications- general requirements; German version.

-Esmailpour, A., Taghiyari, H.R., Nouri, P. and Jahangiri, A., 2017. Fire-retarding properties of nanowollastonite in particleboard. Fire and Materials, 42:306–315.

-Golbabaei, F., Nourbakhsh, A., Kargarfard, A. and Hajihassani, R., 2017. Investigation on the properties of cement-fiber board produced using waste newsprint. Iranian Journal of Wood and Paper Science Research, 32(3): 450-461.

- Hassanpoortichi, A. and Bazyar, B., 2017. Investigation on effect of nano gel wollastonite on applied properties wood-cement composites manufactured from rice straw fibers. Iranian Journal of Wood and Paper Science Research. 33(3): 353–365. (In Persian).

-Hassanpoortichi, A., Bazyar, B., Khademieslam, H., Rangavar, H. and Talaeipour, M., 2015. Effect of nano-wollastonite on microscopic, mechanical and physical properties of cement-wood fibers composite. Iranian Journal of Wood and Paper Science Research. 3(4): 567–577. (In Persian).

-Hassanpoortichi, A., Bazyar, B., Khademieslam, H., Rangavar, H. and Talaeipour, M., 2019. Is Wollastonite Capable of Improving the Properties of Wood Fiber-cement Composite? BioResources Journal, 14(3): 6168-6178.

- Khosrviyan, B., 2009. The study of mechanical, physical, thermal and morphological properties of hybrid multi- structures and nano hybrid polypropylene wood flour/ wollastonite multi- structures. M.S. thesis, Department of Natural Resource, The University of Tehran, karaj, 103p.

-Karade, S.R., 2010. Cement-bonded composites from lignocellulosic wastes. Construction and building materials, 24(8): 1323-1330.

-Li, H., Xiao, H. and Ou, J., 2004. A study on mechanical and pressure-sensitive properties of cement mortar with nanophase materials. Cement and Concrete Research, 34(3): 435-438.

-Nazerian, M., Kamyab, M. and Kermaniyan, H., 2016 a. Application effect of mineral fibers on hydration and properties of gypsum-bonded fiberboard manufactured from kenaf and bagasse fibers. Journal of Wood & Forest Science and Technology, 23 (2): 203-228.

-Nazerian, A., Hosseni Eghbal, S., Kermaniyan, H. and Mohebbi Gargari, R., 2016 b. The effect of water-leaching treatment of bagasse particles and additive content on the properties of cement-bonded particleboard. Journal of Wood & Forest Science and Technology, 23 (4): 315-334.

-Rangavar, H., Nourbakhsh, A. and Haji Hatamlo, S., 2016 a. The effect of nano-wollastonite on physical and mechanical properties of wood plastic composites made with sunflower stem waste and alder wood. Iranian Journal of Wood and Paper Science Research, 31(4):684-694. (In Persian)

- Rangavar, H., Kargarfard, A. and Hoseiny Fard, M.S., 2016 b. Investigation on Effect of cement types on the cement hydration and properties of wood-cement composites manufactured using sunflower stalk (Helianthus Annuus). Iranian Journal of Wood and Paper Science Research, 31 (2), 336 – 348. (In Persian)

-Taghiyari, H.R., Mobini, K., Sarvari Samadi, Y., Doosti, Z., Karimi, F., Asghari, M., Jahangiri, A. and Nouri, P., 2013. Effects of nano-wollastonite on thermal conductivity coefficient of medium-density fiberboard. Journal of Nanomaterials & Molecular Nanotechnology. 2(1): 1-5.

-Taghiyari, H.R., Ghorbanali, M. and Tahir, P.M.D., 2014. Effects of the improvement in thermal conductivity coefficient by nano-wollastonite on physical and mechanical properties in medium-density fiberboard (MDF), BioResources 9(3), 4138-4149.

-Tzakorrezaie, V., Najafi, A. and Sinaie, A., 2016. The effect of nano-wollastonite on bending properties and fire resistance of wood flour/polypropylene composite. Iranian Journal of Wood and Paper Science Research, 31(3):425-434.

Effect of nano gel wollastonite on physical, mechanical and morphological properties of bagasse-cement composites

References

References

Volume 34, Issue 3 - Serial Number 69November 2019Pages 397-408

Volume 34, Issue 3 - Serial Number 69
November 2019
Pages 397-408