https://orcid.org/0000-0002-5051-139X
References
- Prabhu L, Krishnaraj V, and Sathish S, et al. A review on natural fiber reinforced hybrid composites: chemical treatments, manufacturing methods and potential applications. Mater Today: Proc. 2021;45 :8080–8085 doi:10.1016/j.matpr.2021.01.280. Elsevier Ltd.
- Boopathi L, Sampath PS, Mylsamy K. Investigation of physical, chemical and mechanical properties of raw and alkali treated borassus fruit fiber. Compos Part B Eng. 2012;43(8):3044–3052.
- Porras A, Maranon A, Ashcroft IA. Characterization of a novel natural cellulose fabric from manicaria saccifera palm as possible reinforcement of composite materials. Compos Part B Eng. 2015;74:66–73.
- Khalid MY, Al Rashid A, Ullah Arif Z, et al. Recent advances in nanocellulose-based different biomaterials: types, properties, and emerging applications. J Mater Res Technol. 2021;14:2601–2623.
- Venkateshwaran N, ElayaPerumal A, Alavudeen A, et al. Mechanical and water absorption behaviour of banana/sisal reinforced hybrid composites. Mater Des. 2011;32(7):4017–4021.
- Sabeel Ahmed K, Khalid SS, Mallinatha V, et al. Dry sliding wear behavior of SiC/Al2O3 filled jute/epoxy composites. Mater Des. 2012;36:306–315.
- Gopalan V, Pragasam V, Narayanaswamy HB, et al. Investigation on machining characteristics of banana fiber and silicon carbide reinforced polymer matrix composites. Eng Trans. 2020;68(3):297–313.
- Chaudhary V, Bajpai PK, Maheshwari S. Studies on mechanical and morphological characterization of developed jute/hemp/flax reinforced hybrid composites for structural applications. J Nat Fibers. 2018;15(1):80–97.
- Nasir RM, Montaha MRA, Radha V, et al. Tribological performance of resin impregnated gunny (RIG) and resin reinforced honeycomb (RRH) material composites. Mater Des. 2013;48:34–43.
- Yallew TB, Kumar P, Singh I. Sliding wear properties of jute fabric reinforced polypropylene composites. Procedia Eng. 2014;97(2014):402–411. Elsevier Ltd.
- Swain PTR, Biswas S. Abrasive wear behaviour of surface modified jute fiber reinforced epoxy composites. Mater Res. 2017;20(3):661–671.
- Mishra V, Biswas S. Three-body abrasive wear behavior of short jute fiber reinforced epoxy composites. Polym Compos. 2016;37(1):270–278.
- Islam MS, Ahmed SJU. Influence of jute fiber on concrete properties. Constr Build Mater. 2018;189:768–776.
- Raval G, Kansagra M. Effects of jute fibers on fiber-reinforced concrete. Int J Innov Emerg Res Eng. 2017;4(8):7–12.
- Liu B, Zhe Zhang L, and Xia Liu Q, et al. Study on behaviors of jute fiber reinforced cement based materials. In: Applied mechanics and materials. Vol. 253. Switzerland: Trans Tech Publications Ltd; 2013. p. 508–511.
- Zhang T, Yin Y, Gong Y, et al. Mechanical properties of jute fiber‐reinforced high‐strength concrete. Struct Concr. 2020;21(2):703–712.
- Anwar K, Said M, and Afizal M, et al., Overview on the response surface methodology (RSM) in extraction processes. J Appl Sci Process Eng. 2015. 2(1), 8–17.
- Myers RH, Montgomery DC, and Anderson-Cook CM. Response surface methodology: process and product optimization using designed experiments. New Jersey: John Wiley & Sons; 2016.
- Sridharan V, Muthukrishnan N. Optimization of machinability of polyester/modified jute fabric composite using grey relational analysis (GRA). Procedia Eng. 2013;64:1003–1012.
- Priya IIM, Vinayagam BK. Investigation of drilling parameters using grey relational analysis and response surface methodology of biaxial glass fibre reinforced with modified epoxy resin composite. Int J Polym Sci. 2018;2018:1–12.
- Sankar BR, Umamaheswarrao P, and Srinivasulu V, et al. Optimization of milling process on jute polyester composite using taguchi based grey relational analysis coupled with principle component analysis. In: Materials Today: Proceedings Hyderabad,AP,Inida. Vol 2. Elsevier Ltd; 2015:2522–2531 doi:10.1016/j.matpr.2015.07.197.
- Alaneme KK, Sanusi KO. Microstructural characteristics, mechanical and wear behaviour of aluminium matrix hybrid composites reinforced with alumina, rice husk ash and graphite. Eng Sci Technol Int J. 2015;18(3):416–422.
- Manikandan N, Arulkirubakaran D, Palanisamy D, et al. Influence of wire-EDM textured conventional tungsten carbide inserts in machining of aerospace materials (Ti–6Al–4V alloy). Mater Manuf Process. 2019;34(1):103–111.
- Patel KM, Pandey PM, Venkateswara Rao P. Determination of an optimum parametric combination using a surface roughness prediction model for EDM of Al 2O 3/SiC w/TiC ceramic composite. Mater Manuf Process. 2009;24(6):675–682.
- Manikandan N, Balasubramanian K, Palanisamy D, et al. Machinability analysis and ANFIS modelling on advanced machining of hybrid metal matrix composites for aerospace applications. Mater Manuf Process. 2019;34(16):1866–1881.
- Prakash C, Senthil P, Manikandan N, et al. Investigations on machinability characteristics of cast aluminum alloy based (LM 26+Graphite+Fly ash) hybrid metal matrix composites for automobile components. Mater Manuf Process. 2021;1–16. Doi:10.1080/10426914.2021.1962531
- Pragasam V, Reddy Degalahal M. Investigation on flexural strength of cellulose-microfibril-reinforced polymer composites. Emerging Materials Research. 2020;9(2):488–498.
- Pragasam V, Mallikarjuna Reddy D. investigation on tensile strength of cellulose microfibril reinforced polymer composites. Cellulose Chem Echnol. 2020;54(5–6):531–544.