Back Article

Rana RS, Kumar J, Singh I, Sharma AK. 2024. Comparative analysis of drilled and molded holes in short natural fiber reinforced composites. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications 238:493−503

Saini K, Matsagar VA, Kodur VR. 2024. Recent advances in the use of natural fibers in civil engineering structures. Construction and Building Materials 411:134364

Arul QA, Navaneetha Krishnan KK. 2024. A novel natural fiber filler reinforced bio-medical polymer composite. Iranian Journal of Medical Sciences 49:399−401

Mohammed M, Oleiwi JK, Mohammed AM, Jawad AJM, Osman AF, et al. 2024. A review on the advancement of renewable natural fiber hybrid composites: prospects, challenges, and industrial applications. Journal of Renewable Materials 12:1237−1290

Zhu S, Xie J, Sun Q, Zhang Z, Wan J, et al. 2024. Recent advances on bast fiber composites: engineering innovations, applications and perspectives. Composites Part B: Engineering 284:111738

Al Mahmud MZ, Fazle Rabbi SM, Islam MD, Hossain N. 2025. Synthesis and applications of natural fiber-reinforced epoxy composites: a comprehensive review. SPE Polymers 6:e10161

Elfaleh I, Abbassi F, Habibi M, Ahmad F, Guedri M, et al. 2023. A comprehensive review of natural fibers and their composites: an eco-friendly alternative to conventional materials. Results in Engineering 19:101271

Ramamoorthy SK, Skrifvars M, Persson A. 2015. A review of natural fibers used in biocomposites: plant, animal and regenerated cellulose fibers. Polymer Reviews 55:107−162

Zee ME. 2023. The Effect of Different Retting Methods on Hop (H. lupulus) Fiber Quality for Small-Scale Textile Production. Dissertation. University of Idaho, USA.

Sadrmanesh V, Chen Y. 2019. Bast fibres: structure, processing, properties, and applications. International Materials Reviews 64:381−406

Yan L, Chouw N, Jayaraman K. 2014. Flax fibre and its composites – a review. Composites Part B: Engineering 56:296−317

Staiger MP, Tucker N. 2008. Natural-fibre composites in structural applications. In Properties and Performance of Natural-Fibre Composites. Amsterdam: Elsevier. pp. 269−300 doi: 10.1533/9781845694593.2.269

Astute Analytica. 2025. Hemp Fiber Market – Industry Dynamics, Market Size and Opportunity Forecast to 2033. Astute Analytica Reports. 280 pp. www.astuteanalytica.com/industry-report/hemp-fiber-market

La Mantia FP Morreale M. 2011. Green composites: a brief review. Composites Part A: Applied Science and Manufacturing 42:579−588

John MJ, Thomas S. 2008. Biofibres and biocomposites. Carbohydrate Polymers 71:343−364

Santos CM, Santos TF, Aquino MS, Mavinkere Rangappa S, Siengchin S, et al. 2024. Era of bast fibers-based polymer composites for replacement of man-made fibers. Heliyon 10:e29761

Cognitive Market Research. 2025. Bast Fiber Fabric Market Report 2025 (Global Edition). Cognitive Market Research Report 2025. www.cognitivemarketresearch.com/bast-fiber-fabric-for-apparel-market-report

Patel, D. 2025. Bast Fiber Fabric for Apparel Market: Global Forecast from 2025 to 2033. Datalntelo Market Research Report 2025. https://dataintelo.com/report/global-bast-fiber-fabric-for-apparel-market

McElwee-Adame A, Esplin-Stout R, Mugoya T, Vourlitis G, Welch N, et al. 2025. Evolutionary history and rhizosphere microbial community composition in domesticated hops (Humulus lupulus L.). Molecular Ecology 34:e17769

Luskar L, Čeh B. 2021. Hop biomass composting approach impact on compost microbiological properties. Agricultural Research and Technology: Open Access Journal 26:556329

Plantura Garden Team. 2024. Hops (Humulus lupulus) – Overview, Cultivation and Uses. Planetura Garden. https://plantura.garden/uk/herbs/hops/hops-overview

Univers Bière. 2024. Le Houblon : Histoire, Culture et Utilisation. Univers Bière 2024. http://univers-biere.net/houblon.php

BarthHaas. 2024. The BarthHaas Report 2023/2024: The global Hop Market. Nuremberg: BarthHaas GmbH and Co. KG. 40 pp. www.hops.com.au/downloads/news-events/BarthHaas-Hop-Report-2023-2024.pdf

International Hop Grower's Convention. 2024. Economic Commission Summary Reports. Freising, Germany. May, 2025. 51 pp. www.ihgc.org/wp-content/uploads/2025_05_IHGC_CountryReports.pdf

BarthHaas. 2024. Hop Update June 2024. BarthHaas GmbH and Co. KG. www.barthhaas.com/ressources/blog/blog-article/hop-update-june-2024

Limousin R, Guendoul F, Vibert C, Antoun K, Ségovia C, et al. 2023. Hop stems, a new fibrous bioresource. Industrial Crops and Products 201:116966

Sabbatini G, Mari E, Ortore, MG, Di Gregorio A, Fattorini D, et al. 2024. Hop leaves: from waste to a valuable source of bioactive compounds – a multidisciplinary approach to investigating potential applications. Heliyon 10:e28526

Moudood A, Rahman A, Öchsner A, Islam M, Francucci G. 2019. Flax fiber and its composites: an overview of water and moisture absorption impact on their performance. Journal of Reinforced Plastics and Composites 38:323−339

Ali A, Shaker K, Nawab Y, Ashraf M, Basit A, et al. 2015. Impact of hydrophobic treatment of jute on moisture regain and mechanical properties of composite material. Journal of Reinforced Plastics and Composites 34:2059−2068

Harder N, Rodriguez-Uribe A, Snowdon MR, Misra M, Mohanty AK. 2023. Hop natural fiber-reinforced poly(butylene succinate-co-butylene adipate) (PBSA) biodegradable plastics: effect of fiber length on the performance of biocomposites. Materials Advances 4:1502−1514

Cvetanović Kljakić A, Ocvirk M, Rutnik K, Košir IJ, Pavlić B, et al. 2024. Exploring the composition and potential uses of four hops varieties through different extraction techniques. Food Chemistry 447:138910

Eyupoglu S. 2020. Sustainable plant-based natural fibers. In Sustainability in the Textile and Apparel Industries: Sourcing Natural Raw Materials, eds. Muthu SS, Gardetti MA. Cham: Springer International Publishing. pp. 27−48 doi: 10.1007/978-3-030-38541-5_2

Lee CH, Khalina A, Lee SH, Liu M. 2020. A comprehensive review on bast fibre retting process for optimal performance in fibre‐reinforced polymer composites. Advances in Materials Science and Engineering 2020:6074063

Angulu M, Gusovius HJ. 2024. Retting of bast fiber crops like hemp and flax—a review for classification of procedures. Fibers 12:28

Romanowska B, Różańska W, Zimniewska M. 2024. The influence of the chemical composition of flax and hemp fibers on the value of surface free energy. Materials 17:1104

Mushtaq B, Ahmad F, Nawab Y, Ahmad S. 2023. Optimization of the novel jute retting process to enhance the fiber quality for textile applications. Heliyon 9:e21513

Madueke CI, Mbah, OM, Umunakwe R. 2023. A review on the limitations of natural fibres and natural fibre composites with emphasis on tensile strength using coir as a case study. Polymer Bulletin 80:3489−3506

Mohanty AK, Misra M, Drzal LT, Selke SE, Harte BR, et al. 2005. Natural fibers, biopolymers, and biocomposites: an introduction. In Natural Fibers, Biopolymers, and Biocomposites. 1^st Edition. Boca Raton: CRC Press. 896 pp. doi: 10.1201/9780203508206

Ihlenfeldt S, Müller J, Peukert C, Rogall L. 2024. New gentle extraction method of hemp bast strips for use as bio-based reinforcing fibers in highly loaded fiber composites. Procedia CIRP 125:178−183

Unal F, Avinc O, Yavas A. 2022. Production of sustainable banana fibers from agricultural wastes and their properties. In Sustainable Approaches in Textiles and Fashion: Fibres, Raw Materials and Product Development, ed. Muthu SS. Singapore: Springer Nature Singapore. pp. 157−193 doi: 10.1007/978-981-19-0878-1_7

Ventorino V, Chouyia, FE, Romano I, Mori M, Pepe O. 2024. Water retting process with hemp pre-treatment: effect on the enzymatic activities and microbial populations dynamic. Applied Microbiology and Biotechnology 108:464

Xu J, Chen Y, Laguë C, Landry H, Peng Q. 2012. Analysis of energy requirement for hemp fibre decortication using a hammer mill. Canadian Biosystem Engineering 54:1−8

Skoglund G, Holst B, Lukešová H. 2020. First experimental evidence of hop fibres in historical textiles. Archaeological and Anthropological Sciences 12:214

Lukešová H, Andersen HL, Kolínová M, Holst B. 2019. Is it hop? Identifying hop fibres in a European historical context. Archaeometry 61:494−505

Pierre-Eugène D. 1912. Procédé pour la transformation des écorces des tiges de houblons en fibres et fils et pour la séparation de ces écorces de leurs tiges. Brevet d'Invention No. 447400. France: Office National de la Propriété Industrielle. https://worldwide.espacenet.com/patent/search?q=pn=FR447400

Reddy N, Yang Y. 2009. Properties of natural cellulose fibers from hop stems. Carbohydrate Polymers 77:898−902

Sharath Shekar HS, Ramachandra M. 2018. Green composites: a review. Materials Today: Proceedings 5:2518−2526

Baley C. 2002. Analysis of the flax fibres tensile behaviour and analysis of the tensile stiffness increase. Composites Part A: Applied Science and Manufacturing 33:939−948

Bogoeva-Gaceva G, Avella M, Malinconico M, Buzarovska A, Grozdanov A, et al. 2007. Natural fiber eco-composites. Polymer Composites 28:98−107

Singh H, Inder Preet Singh J, Singh S, Dhawan V, Kumar Tiwari S. 2018. A brief review of jute fibre and its composites. Materials Today: Proceedings 5:28427−28437

Wang C, Bai S, Yue X, Long B, Choo-Smith LP. 2016. Relationship between chemical composition, crystallinity, orientation and tensile strength of kenaf fiber. Fibers and Polymers 17:1757−1764

Duan L, Yu W, Li Z. 2017. Analysis of structural changes in jute fibers after peracetic acid treatment. Journal of Engineered Fibers and Fabrics 12:33−42

Wang WM, Cai ZS, Yu JY. 2008. Study on the chemical modification process of jute fiber. Journal of Engineered Fibers and Fabrics 3:1−11

Saxena M, Pappu A, Sharma A, Haque R, Wankhede S. 2011. Composite materials from natural resources: recent trends and future potentials. In Advances in Composite Materials - Analysis of Natural and Man-Made Materials, ed. Těšinova P. UK: IntechOpen. 586 pp. doi: 10.5772/18264

Zwawi M. 2021. A review on natural fiber bio-composites, surface modifications and applications. Molecules 26:404

Roslan SH, Rasid ZA, Hassan MZ. 2018. Bamboo reinforced polymer composite - a comprehensive review. In IOP Conference Series: Materials Science and Engineering 344:012008

Liu M, Thygesen A, Summerscales J, Meyer AS. 2017. Targeted pre-treatment of hemp bast fibres for optimal performance in biocomposite materials: a review. Industrial Crops and Products 108:660−683

Rodriguez-Uribe A, Harder N, Misra M, Mohanty AK. 2023. Biocomposites from poly (butylene succinate-co-butylene adipate) biodegradable plastic and hop natural fiber: studies on the effect of compatibilizer on performance of the composites. Composites Part C: Open Access 12:100408

Różańska W, Romanowska B, Rojewski S. 2023. The quantity and quality of flax and hemp fibers obtained using the osmotic, water-, and dew-retting processes. Materials 16:7436

Hindi J, Muralishwara K, Heckadka SS, Gurumurthy BM. 2025. Retting and chemical treatment of natural fibers – a review. Journal of Natural Fibers 22:2562479

Chen H, Wang Z, Jiang B, Liu M, Chen H, et al. 2025. One-step alkaline-hydrogen peroxide degumming of hemp fiber: optimization for enhanced processability and eco-efficiency. BioResources 20:8791−8810

Sullins T, Pillay S, Komus A, Ning H. 2017. Hemp fiber reinforced polypropylene composites: the effects of material treatments. Composites Part B: Engineering 114:15−22

Dovlatabadi S. 2020. Effects of kenaf filler reinforcement on mechanical properties of molded polypropylene composites: a particle size study. Polymers from Renewable Resources 11:64−68

Kumar Ghosh S, Bairagi S, Dutta S, Bhattacharyya R. 2016. Comparative study of the thermal insulation properties of Jute and Jute-polyester fibre blended nonwoven fabrics. American Journal of Engineering Research 5:43−49

Zakriya GM, Ramakrishnan G. 2018. Insulation and mechanical properties of jute and hollow conjugated polyester reinforced nonwoven composite. Energy and Buildings 158:1544−1552

Shahid MA, Habib MA, Hossain I, Limon MGM, Islam T, et al. 2024. Eco-friendly jute-based hybrid nonwoven fabric for packaging applications. ACS Omega 9:44639−44645

Johansson C, Bras J, Mondragon I, Nechita P, Plackett D, et al. 2012. Renewable fibers and bio-based materials for packaging applications – a review of recent developments. BioResources 7:2506−2552

Saleem A. 2021. Development and Characterisation of bast and basalt fibre hybrid polymer composites for automotive applications. Doctoral dissertation. Högskolan i Borås, Sweden.

Moussa M, El Hage R, Sonnier R, Chrusciel L, Ziegler-Devin I, et al. 2020. Toward the cottonization of hemp fibers by steam explosion. Flame-retardant fibers. Industrial Crops and Products 151:112242

Dou Y, Ju A, Zhong Z, Huo Y, Yao W. 2024. Flame-retardant and transparent unsaturated polyester based on P/N liquid flame retardants and modified halloysite nanotubes. Materials 17:761

Jumiati E, Frida E. 2025. Review of fire-retardant nanocomposite coating based on TiO₂ (titanium dioxide)-MMT (montmorillonite)-CNF (cellulose nanofibers). Polymers from Renewable Resources 16:105−122