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61,005 resultsShowing papers similar to Recommendation: Low-cost, high-throughput quantification of microplastics released from textile wash tests: Introducing the fibre fragmentation scale — R0/PR2
ClearRecommendation: Low-cost, high-throughput quantification of microplastics released from textile wash tests: Introducing the fibre fragmentation scale — R1/PR5
This recommendation paper outlines a low-cost, high-throughput protocol for quantifying microplastics shed from textiles during washing, designed for use by labs without specialized equipment. The method standardizes fiber fragmentation testing to support textile industry comparisons.
Low cost, high throughput quantification of microplastics released from textile wash tests: Introducing the fibre fragmentation scale
Researchers developed three standardized textile wash test methods for quantifying microplastic fiber shedding during laundering, introducing a 'fibre fragmentation scale' to rank textile designs by shedding propensity and enable systematic comparison across materials and processing variables.
Low-cost, high-throughput quantification of microplastics released from textile wash tests: Introducing the fibre fragmentation scale
Researchers developed a low-cost, high-throughput method for quantifying microplastic fibers shed during textile washing tests, introducing a new fibre fragmentation scale to standardize measurements. The method significantly reduces analysis time compared to the recommended gravimetric approach, which takes over 8 hours per specimen batch. The study aims to help the textile industry design and select lower-shedding materials by making standard testing more accessible and practical.
Author comment: Low-cost, high-throughput quantification of microplastics released from textile wash tests: Introducing the fibre fragmentation scale — R0/PR1
This methods paper proposes a simple visual grading scale — analogous to colour fastness cards used in the textile industry — to make fibre fragmentation testing faster and cheaper without losing accuracy. Standardising how synthetic textiles are tested for microfibre shedding is critical for designing lower-polluting fabrics and reducing one of the main sources of microplastic fibres entering waterways through laundry.
Author comment: Low-cost, high-throughput quantification of microplastics released from textile wash tests: Introducing the fibre fragmentation scale — R1/PR4
This author comment introduces three new test methods using standard laundering equipment for quantifying microplastic fibers released from textiles, and proposes a gravimetric analysis approach to enable comparisons across labs and fabric types. The commentary discusses the limitations of current high-throughput quantification methods and proposes the fibre fragmentation scale as a standard metric.
Decision: Low-cost, high-throughput quantification of microplastics released from textile wash tests: Introducing the fibre fragmentation scale — R0/PR3
Researchers introduce a fibre fragmentation scale to support low-cost, high-throughput quantification of microplastic fibre shedding from textiles during washing, providing a standardized tool for industry to design lower-shedding products.
Recommendation: Designing out microplastic pollution released from textiles and apparel during laundering — R0/PR2
Researchers investigated source-directed design and manufacturing interventions to reduce microplastic fibre release from synthetic textiles during laundering, using standardised wash tests on polyester fabrics. They found that modifications to fabric structure and finishing at the design stage can significantly reduce the quantity of microplastic fibres shed during washing, addressing one of the largest identified sources of ocean microplastic pollution.
Reliable quantification of microplastic release from the domestic laundry of textile fabrics
This study identified major sources of variation in methods used to quantify microplastic fiber release from textile laundry, recommending a standardized testing protocol to enable reliable comparisons across fabrics, machines, and washing conditions.
Decision: Low-cost, high-throughput quantification of microplastics released from textile wash tests: Introducing the fibre fragmentation scale — R1/PR6
Peer reviewers evaluated and provided a decision on the proposed low-cost textile microplastic quantification method, assessing its scientific validity, reproducibility, and potential for adoption as a standard analytical approach in the field.
Microplastics Shedding from Textiles—Developing Analytical Method for Measurement of Shed Material Representing Release during Domestic Washing
Researchers developed an analytical method to measure microplastic shedding from textiles during domestic washing, identifying key methodological variables that explain the large variation in shedding measurements across prior studies and proposing a standardized approach for more comparable results.
Quantifying shedding of synthetic fibers from textiles; a source of microplastics released into the environment
Researchers quantified the shedding of synthetic fibers from textiles during simulated washing, finding that fabric type, age, and wash conditions significantly affected fiber release, and establishing a quantitative basis for estimating textile-derived microplastic inputs.
A Feasible and Efficient Monitoring Method of Synthetic Fibers Released during Textile Washing
Researchers developed and validated a feasible monitoring method for quantifying synthetic microfibers released from textiles during washing, addressing the need for standardized protocols to measure microfiber emissions. The method provided reproducible results for collecting and characterizing microfibers from wash effluent to support emission modeling.
Release of synthetic microplastic plastic fibres from domestic washing machines: Effects of fabric type and washing conditions
Researchers measured synthetic microfiber release from domestic washing machines in real household conditions, finding that millions of fibers are shed per wash cycle, with fiber release influenced by fabric type and wash parameters.
Evaluation of microplastic release caused by textile washing processes of synthetic fabrics
This study evaluated microplastic fiber release caused by washing synthetic fabrics, finding that washing processes generate substantial quantities of microfibers and that fabric construction affects release rates, with implications for filtering strategies.
Quantification and morphological characterization of microfibers emitted from textile washing
Textile microfibers released during washing machine cycles were quantified and characterized, with the study finding that fiber type, fabric construction, and wash conditions all influenced emission quantities. The results confirm textile washing as a significant and ongoing source of microplastic fiber pollution in wastewater.
Quantification of microfibre release from textiles during domestic laundering
Researchers developed a reliable method for quantifying microfibre release from domestic laundering, finding that fabric characteristics had a greater influence on release than wash settings, and estimated UK annual domestic microfibre emissions between 7,300 and 36,100 tonnes depending on assumptions.
The contribution of washing processes of synthetic clothes to microplastic pollution
Real-scale wash trials of synthetic commercial garments measured microfiber release per wash, finding that release varied significantly with textile type, structure, and age, with some items releasing over 700,000 fibers per wash. The study quantifies the contribution of synthetic textile washing to microplastic pollution and identifies fiber characteristics that govern release rates.
Designing out microplastic pollution released from textiles and apparel during laundering
This study explored source-directed design and manufacturing interventions to reduce microplastic fiber release from synthetic textiles during washing, using standardized wash tests to quantify shedding from fabric surfaces and edges. Structural fabric design modifications were identified as effective strategies to reduce microplastic fiber shedding at the point of manufacture.
Eco-conception d'étoffes en polyester pour limiter le relargage de fragments de fibres microplastiques lors du premier lavage
Researchers investigated the release of microplastic fibre fragments from polyester textiles during the first machine wash, evaluating how production-stage design choices affect fibre shedding with the goal of developing lower-emission textile manufacturing approaches.
Quantification of different microplastic fibres discharged from textiles in machine wash and tumble drying
Researchers quantified synthetic microplastic fibre emissions from five sequential machine washes and tumble dryings of synthetic fabrics, finding that fibre release decreased with successive washes and that two commercial in-machine fibre traps varied substantially in their collection efficiency, with implications for reducing domestic microplastic emissions.
Microplastics' emissions: Microfibers’ detachment from textile garments
Researchers measured microfiber detachment rates from finished textile garments during normal laundering and found that garments shed between 175 and 560 microfibers per gram of fabric, or 30,000 to 465,000 microfibers per square meter. They found a strong correlation between microfiber release and the textile's surface density. The study also provides standardized reporting units to improve comparability across research, an important step given the current lack of methodological consensus in textile microfiber studies.
Study on the Relationship between Textile Microplastics Shedding and Fabric Structure
Researchers investigated the relationship between textile fabric structure and microplastic shedding during washing, finding that fabric type, weave pattern, and mechanical stress significantly influence the number of microfibers released.
Microplastic Release from Domestic Washing
Researchers measured microfiber release from domestic washing of textile materials across five washing cycles, finding that the amount of microplastic fiber shed varied significantly with washing conditions and fiber type, contributing to aquatic microplastic pollution.
Microfiber release from real soiled consumer laundry and the impact of fabric care products and washing conditions
Researchers measured microfiber release from real soiled consumer laundry from UK households, finding a mean release of 114 ppm (mg microfiber per kg fabric) under typical washing conditions, and investigated how fabric care products, washing machine design, and cycle settings affect fiber shedding. The study found that certain fabric conditioners and appliance features can meaningfully reduce microfiber release during domestic washing.