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Papers
61,005 resultsShowing papers similar to The Unique Morphology of Coconut Petiole Fibers Facilitates the Fabrication of Plant Composites with High Impact Performance
ClearInvestigation of physical properties of microalgae‐pectin‐based bio‐composite with addition of pine needle for environmental application
This paper is not directly about microplastics — it investigates the physical properties of a bio-composite material made from microalgae, pectin, and pine needles as a potential alternative to petroleum-based plastics, without studying microplastic pollution or environmental impacts.
Mechanical Properties of Polypropylene Composites with different Reinforced Natural Fibers – A Comparative Study
This is a materials science study comparing the mechanical properties of polypropylene composites reinforced with five different natural plant fibers; it is not a microplastics research paper.
Upcycling of HDPE Milk Bottles into High-Stiffness, High-HDT Composites with Pineapple Leaf Waste Materials
Not relevant to microplastics — this study explores recycling used HDPE milk bottles into reinforced plastic composites using pineapple leaf fiber waste, focused on materials engineering rather than pollution.
Characterization of Composites from Post-Consumer Polypropylene and Oilseed Pomace Fillers
This paper is not relevant to microplastics research; it characterizes wood-plastic composites made from recycled polypropylene and agricultural pomace fillers, evaluating mechanical properties for construction applications rather than addressing plastic pollution.
Influence of Plastic and Coconut Shell (Cocos nucifera L.) on the Physico-Mechanical Properties of the 8/6 Composite Rafter
Researchers tested composite building materials made from waste plastic and coconut shell as an alternative to conventional wooden rafters in construction. Using plastic waste as a binding material in construction provides a potential pathway for diverting plastic waste from the environment while reducing demand for timber.
A Study of Plant-Filled Polymer Composites Based on Highly Plasticized Polyvinyl Chloride
Not relevant to microplastics — this is a polymer materials study developing plant-filled PVC composites (using spruce flour, birch flour, and rice husk as fillers) to improve the ecological profile of PVC products, with testing of mechanical and thermal properties.
Characterization of Hybrid FRP Composite Produced from Recycled PET and CFRP
This paper is not about microplastics — it characterizes the mechanical properties of recycled carbon fiber composites made with PET plastic waste for structural applications.
Mechanical properties of fibre/ filler based poly(Lactic Acid) (Pla) composites : A brief review
This review examines the mechanical properties of polylactic acid (PLA)-based composites reinforced with natural fibers and fillers, presenting PLA as a biodegradable alternative to conventional plastics in applications ranging from agriculture to biomedical devices. Improving the strength and durability of bio-based plastics is essential for replacing petroleum-based materials that generate persistent microplastic pollution.
Developing Eco-Friendly 3D-Printing Composite Filament: Utilizing Palm Midrib to Reinforce High-Density Polyethylene Matrix in Design Applications
This paper is not about microplastics. It describes the development of 3D-printing filaments made from high-density polyethylene reinforced with palm midrib nanoparticles for use in furniture and interior design. While the study uses a plastic polymer, it focuses on materials engineering and sustainable filament production rather than microplastic contamination or health effects.
Cellulose Nanofibrils Dewatered with Poly(Lactic Acid) for Improved Bio-Polymer Nanocomposite Processing
This paper is not about environmental microplastics; it describes a manufacturing process for combining cellulose nanofibers with polylactic acid (a biodegradable bioplastic) to make stronger composite materials, with no relevance to plastic pollution or human health risk.
Thermal Performance Evaluation of Buildings with Coconut Leaf Roofs
Despite its title referencing plastics in the context of roofing materials, this paper studies the thermal performance of coconut leaf roofs compared to zinc roofs — not microplastic pollution. It examines how organic roofing derived from coconut palms reduces indoor and attic temperatures in Indonesian test houses and is not relevant to microplastics or human health.
Nano/Micro Hybrid Bamboo Fibrous Preforms for Robust Biodegradable Fiber Reinforced Plastics
Researchers created strong, eco-friendly composite materials by combining nano- and micro-scale fibers from bamboo, producing a biodegradable plastic alternative with improved mechanical properties. This work contributes to developing sustainable materials that could replace conventional petroleum-based plastics and reduce microplastic generation.
A Study of Plant-Filled Polymer Composites Based on Highly Plasticized Polyvinyl Chloride
Not relevant to microplastics — this study characterizes the optical, thermal, and mechanical properties of PVC-based composites filled with plant materials (spruce flour, birch flour, rice husk), exploring eco-friendly construction materials without addressing microplastic pollution.
Environmental Properties of Coconut Fiber/Reinforced Thermoplastic Starch/Beeswax Hybrid Composites
This study developed biodegradable composite materials from thermoplastic starch, beeswax, and coconut fiber as an alternative to conventional plastic. Bio-based composites that replace petroleum-derived plastics help reduce the sources of microplastic pollution in soil and water.
Mechanical Properties Optimization of Hybrid Aramid and Jute Fabrics-Reinforced Graphene Nanoplatelets in Functionalized HDPE Matrix Nanocomposites
This is a materials science study optimizing the mechanical properties of a jute-aramid hybrid polymer composite reinforced with graphene nanoplatelets; it is not a microplastics research paper.
Compatibility of Polymer/Fiber to Enhance the Wood Plastic Composite Properties and their Applications
This review examined how fiber compatibility affects the properties of wood-plastic composite materials, which combine natural fibers with plastic matrices for construction and other uses. Developing better bio-composite materials can help reduce reliance on pure plastics that contribute to microplastic pollution.
Toward a Circular Bioeconomy: Development of Pineapple Stem Starch Composite as a Plastic-Sheet Substitute for Single-Use Applications
This paper is not about microplastics; it develops a biodegradable composite material from pineapple stem starch as a substitute for hard-to-recycle single-use plastic items.
Development of Biodegradable Rigid Foams from Pineapple Field Waste
Not relevant to microplastics — this paper develops biodegradable rigid foam materials from pineapple agricultural waste (starch and cellulose) as a sustainable packaging alternative to petroleum-based plastics.
Improvement of the Ductility of Environmentally Friendly Poly(lactide) Composites with Posidonia oceanica Wastes Plasticized with an Ester of Cinnamic Acid
This paper is not about microplastics; it describes the development of biodegradable poly(lactide) composites reinforced with seagrass fibers and a natural plasticizer for use as sustainable materials.
Performance Spectrum of Home-Compostable Biopolymer Fibers Compared to a Petrochemical Alternative
Researchers compared home-compostable biopolymer fibers to conventional petrochemical alternatives, evaluating their mechanical performance and degradability to assess whether biobased materials can serve as viable substitutes that reduce microplastic pollution.
Preparation of Waste PP/Fly Ash/Waste Stone Powder Composites and Evaluation of Their Mechanical Properties
Not relevant to microplastics — this paper examines the mechanical properties of composite materials made from recycled polypropylene combined with fly ash and stone powder for industrial construction applications.
Potential Analysis for the Use of Bio-Based Plastics with Natural Fiber Reinforcement in Additive Manufacturing
Researchers reviewed the potential for using plant-based (bio-based) plastics reinforced with natural fibers in 3D printing as a sustainable alternative to fossil-fuel-derived composites, finding that while such materials could offer comparable strength at lower environmental cost, economic viability and biodegradability under real-world conditions remain challenges.
Bio-Adhesives Combined with Lotus Leaf Fiber to Prepare Bio-Composites for Substituting the Plastic Packaging Materials
Researchers prepared biodegradable composite packaging materials by combining natural bio-adhesives with lotus leaf fiber, testing mechanical and thermal properties. Natural fiber composites offer an alternative to petroleum-based plastic packaging that would not generate persistent microplastic pollution.
Synthesis Of Bio-Derived Carbon Reinforced LDPE Composite From Waste Plastic And Its Characterization For Possible Applications
Researchers developed a composite material by incorporating activated carbon (AC) nanoparticles derived from coconut shells into low-density polyethylene (LDPE) via melt blending at varying ratios. The resulting composites showed reduced density alongside enhanced physical, thermal, and functional properties, with potential applications in environmental remediation and sustainable packaging.