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Effect of the carding process and fibre length on the properties of pineapple leaf fibre and reinforced polypropylene composites

Tanvir HossaınReazuddin ReponAbdus ShahidAyub AliTarikul Islam (2024) Progress, Prospects and Challenges of MXene Integrated Optoelectronics Devices. ChemElectroChem, Available at: http://dx.doi.org/10.1002/celc.202400008

Shahin HossainM. Abdul JalilTarikul IslamRois Uddin MahmudAbdul KaderKhayrul Islam (2024) Enhancement of antibacterial and UV protection properties of blended wool/acrylic and silk fabrics by dyeing with the extract of Mimusops elengi leaves and metal salts. Heliyon, Available at: http://dx.doi.org/10.1016/j.heliyon.2024.e25273

Physically processed waste pineapple leaf fibre for high performance composite with polypropylene

Swaraz MollickMd. Reazuddin ReponAminoddin HajiMohammad Abdul JalilTarikul IslamMahbub Morshed Khan (2023) Progress in self-cleaning textiles: parameters, mechanism and applications. Cellulose, 5.7, pp. 1-48, Available at: https://link.springer.com/article/10.1007/s10570-023-05539-4

Swaraz MollickTarikul IslamMd. Razu MiahMd. Mehedi Hassan RiadTanay ChakrabartyMd. Tanvir HossenMd. Tanvir Islam (2023) Development of Antibacterial Cotton Fabric Utilizing Microencapsulation Technique from Dragon Fruit Peel Extract. Fibers and Polymers, 2.5, pp. 1-9, Available at: https://link.springer.com/article/10.1007/s12221-023-00353-y

Studies on interfacial shear strength of pineapple leaf fibre from agro-waste reinforced polypropylene composites: Influence of fibre length and carding parameters

Mohammad Mobarak Hossain, Shah Alimuzzaman, Dewan Murshed Ahmed, 'Tear and Tensile Strength of 100% Woven Fabrics' Basic Structures: Regression Modelling', Vlákna a textil, 30 (2), 14-25, http://vat.ft.tul.cz/2023/2/VaT_2023_2_2.pdf

Fig. 3

Fabrication and investigation of the physico-mechanical properties of Jute-PALF reinforced LLDPE hybrid composites: Effect of gamma irradiation

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Due to its morphological structure, jute fiber exhibits a high electrical resistance in its unprocessed condition and inhibited electrical conductivity [24]. Jute and natural fibers generally have low conductivity or act as electrical insulators. Jute exhibits high resistance and poor electrical conductivity [25]. Its resistance can be decreased with specific therapy. One example is the deposition of graphene materials on jute fibers, such as graphene oxide (GO) and graphene flakes (G), which greatly improved the tensile and interfacial properties. However, graphene oxide (GO) is electrically insulating, in contrast to graphene flakes (G), which are a...

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