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Papers
61,005 resultsShowing papers similar to Influence of Plastic and Coconut Shell (Cocos nucifera L.) on the Physico-Mechanical Properties of the 8/6 Composite Rafter
ClearThe Unique Morphology of Coconut Petiole Fibers Facilitates the Fabrication of Plant Composites with High Impact Performance
This paper is not relevant to microplastics; it investigates the mechanical and structural properties of coconut petiole fiber composites with polylactic acid (PLA) for manufacturing applications.
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.
Experimental Tests on Lightweight Cement Mortar and Concrete with Recycled Plastic Wastes
This paper is not relevant to microplastics research — it tests the mechanical properties of cement mortar and concrete incorporating recycled plastic waste granules as aggregate substitutes, a construction materials engineering study.
Feasibility Study of the Use of Concrete Blocks Produced From Plastic Marine Garbage for Use in Civil Construction
Researchers investigated the feasibility of producing concrete blocks incorporating plastic waste collected from marine and coastal environments, testing blocks with varying proportions of recycled plastic as a partial aggregate replacement in civil construction applications. The study assessed the mechanical and physical properties of the resulting composite blocks, evaluating whether marine plastic garbage could be valorized as a construction material while reducing environmental plastic loads.
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.
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.
Valorization of post-consumer plastic packaging into a composite material
This study developed a composite building material from post-consumer mixed plastic packaging waste, providing a higher-value end use that diverts plastic from landfill. Using plastic waste in durable construction products reduces the amount available to degrade into microplastics in the environment.
Recycling/reuse of plastic waste as construction material for sustainable development: a review
Researchers reviewed how waste plastic can be incorporated into construction materials — as binders, aggregates, or cement substitutes in bricks, tiles, concrete, and roads — finding that plastic-modified materials often show competitive strength properties while simultaneously diverting plastic waste from landfills.
A Step towards Sustainable Concrete with Substitution of Plastic Waste in Concrete: Overview on Mechanical, Durability and Microstructure Analysis
This review evaluates the use of plastic waste as a substitute material in concrete, analyzing its effects on mechanical strength, durability, and microstructure to assess its viability as a sustainable construction approach.
Recycling of Plastic Waste in the Construction Industry
This review examines the use of recycled plastic waste in construction applications including concrete, asphalt, insulation, and structural composites, assessing the performance, durability, and environmental benefits of incorporating waste plastics into building materials to reduce landfill disposal.
Potential Applications of Different Forms of Recycled Plastics as Construction Materials—A Review
This review examined potential applications of different forms of recycled plastics (granules, powder, fiber, aggregate) as construction materials, identifying suitable recycling methodologies and construction products with performance benefits such as improved toughness and reduced weight.
Investigating the Viability of Recycling Rice Husk Ash and Plastic Bag Waste to Enhance Durability of Lightweight Concrete
Researchers investigated using recycled rice husk ash and plastic bag waste to enhance durability of lightweight concrete, finding that these waste materials improved certain mechanical and durability properties while reducing environmental impact of construction.
A critical review of the current progress of plastic waste recycling technology in structural materials
Researchers reviewed technologies for recycling plastic waste into construction materials such as concrete and asphalt, finding this approach can meaningfully reduce the environmental burden of plastic pollution. Incorporating plastic waste into building materials offers a practical path toward both waste reduction and more sustainable construction.
A Survey on Use of Non-Recyclable Waste in Construction
This survey reviews strategies for incorporating non-recyclable plastic waste into construction materials, documenting the environmental threat posed by plastic waste in marine ecosystems and its effects on wildlife and human health. The authors conclude that using plastic waste as a component in cementitious composites offers the most promising avenue for improving environmental sustainability while providing a practical construction material.
Engineering Properties of Waste Badminton String Fiber
Researchers characterized the engineering properties of waste badminton string fibers, finding that used fibers retain sufficient mechanical strength for potential reuse as reinforcement in cement and polymer composite matrices.
Innovative Sustainable Concrete: Fresh and Hardened Properties Incorporating Plastic Waste
This study investigated the effects of incorporating plastic waste into concrete on mechanical and durability properties, addressing the hydrophobic nature and poor interfacial adhesion of plastic as a challenge within circular economy frameworks for construction material sustainability.
Evaluation of Eco-Friendly Hemp-Fiber-Reinforced Recycled HDPE Composites
Researchers developed hemp-fiber-reinforced recycled HDPE composites from postconsumer plastic waste, demonstrating that these sustainable biocomposites can serve as eco-friendly alternatives to conventional wood-plastic composite products.
Particleboard Composite Made from Pinus and Eucalyptus Residues and Polystyrene Waste Partially Replacing the Castor Oil-Based Polyurethane as Binder
Researchers developed particleboard composites using Pinus and Eucalyptus wood residues with polystyrene waste partially replacing castor oil-based polyurethane as a binder, evaluating the resulting physicomechanical and thermal properties as a strategy for recycling plastic waste.
Physical and mechanical properties of locally fabricated geopolymer-plastic ceiling boards
This paper is not about microplastics; it investigates the physical and mechanical properties of building ceiling boards made from geopolymer combined with recycled PET plastic aggregates, focused on construction material performance.
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.
Investigation 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.
Exploration of Interior Material Based on Plastic Waste
Researchers explored the potential for plastic waste to be transformed into interior design materials, using observation, interviews, and documentation methods to analyze the process from material collection through fabrication. The study characterized the physical and chemical properties of plastic waste relevant to its use as an interior material and assessed structural strength alongside its environmental risks.
Systematic Review of Plastic Waste as Eco-Friendly Aggregate for Sustainable Construction
This systematic review examines how recycled plastic waste can be used as a substitute for traditional aggregates in concrete and construction materials. Using plastic waste in construction could divert it from landfills and waterways where it breaks down into microplastics. The review evaluates the structural performance and environmental benefits of incorporating plastic into building materials.
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.