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20 resultsShowing papers similar to Textile Fiber Pollution: Relating Textile Features to Fiber Release in Pilling Experiments
ClearTextile Fiber Pollution:Relating Textile Featuresto Fiber Release in Pilling Experiments
Researchers evaluated the contribution of physical, dynamic, and thermomechanical textile properties to microfiber release susceptibility in pilling experiments, finding that fiber nature, dimensional features, and mechanical properties collectively determine a textile's propensity to shed microplastic fibers.
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.
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.
The Effect of the Physical and Chemical Properties of Synthetic Fabrics on the Release of Microplastics during Washing and Drying
Researchers investigated how the physical and chemical properties of synthetic fabrics influence microplastic fiber release during washing and drying, finding that fabric construction, fiber type, and surface treatment are key determinants of the quantity and characteristics of released microplastic particles.
Polyester Textiles as a Source of Microplastics from Households: A Mechanistic Study to Understand Microfiber Release During Washing
Researchers conducted a mechanistic study of microplastic fiber shedding from polyester textiles in household washing machines, identifying wash temperature, spin speed, and detergent type as key variables affecting fiber release rates.
Characterization of Microplastics Released Based on Polyester Fabric Construction during Washing and Drying
Researchers characterized microplastic fiber release from polyester fabrics during washing and drying, finding that fabric construction type significantly influences fiber shedding rates, with looser fabric structures releasing substantially more microplastic fibers per wash cycle.
Domestic laundry and microfiber pollution: Exploring fiber shedding from consumer apparel textiles
Researchers measured microfiber shedding from a range of consumer apparel textiles during simulated laundry cycles, finding that fiber release varied substantially by fabric type, construction, and wash conditions, with polyester fleece releasing the most microfibers per wash.
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 to Water, Via Laundering, and to Air, via Everyday Use: A Comparison between Polyester Clothing with Differing Textile Parameters
Researchers measured microfiber release from polyester garments into both wash water and air during everyday wear, finding that release into air was comparable to or exceeded laundry release and was influenced by fabric structure, yarn type, and twist level.
Effects and Characterization of Environmental Conditions on Microplastic Fibers Release from Synthetic Textile
Researchers investigated how environmental conditions such as moist heat, high-temperature drying, and abrasion affect the release of microplastic fibers from synthetic textiles. The study found that these aging processes significantly increased fiber shedding, highlighting synthetic clothing as a major ongoing source of microplastic contamination in water environments.
Assessment of microplastics release from polyester fabrics: The impact of different washing conditions
Researchers assessed microplastic fiber release from polyester and polyamide fabrics during simulated washing, finding that fabric construction, fiber type, and washing conditions all influenced the quantity of fibers released. The study provides data to help quantify the contribution of laundry to microplastic emissions in wastewater.
Formation of microplastic fibers and fibrils during abrasion of a representative set of 12 polyester textiles
Abrasion testing of representative polyester fabrics generated microplastic fibers and fibrils, with fiber characteristics reflecting the mechanical and chemical properties of the parent textile. The findings suggest that real-life wear and abrasion during use, not just laundering, is a significant pathway for microfiber release from synthetic textiles.
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.
Differences in the release of microplastic fibers and fibrils from virgin and recycled polyester textiles
Researchers compared microplastic fiber and fibril release from virgin versus mechanically recycled polyester textiles during abrasion testing. They analyzed four pairs of commercially available textiles that were identical except for the type of polyester used. The findings provide important data for understanding whether the growing use of recycled polyester in clothing changes the amount or character of microplastic shedding during wear.
A review of the current status of microfiber pollution research in textiles
This review synthesizes research on microfiber shedding from textiles, examining how fiber properties (length, diameter, twist, surface treatment) influence how much a fabric sheds during laundering. Microfibers from textile washing are one of the largest sources of microplastic fiber pollution in wastewater and aquatic environments globally.
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.
Decoding microplastic shedding from cotton/polyester blends: An analysis through fiber identification
Researchers developed a chemical separation method to accurately quantify polyester shedding from cotton/polyester blend fabrics, distinguishing polyester from natural fiber microplastics. Testing various fabric structures showed that polyester staple fibers in blends shed substantially during use, providing more realistic microplastic estimates for everyday clothing and bedding.
Effect of Washing Process on the Release of Microplastics from Polyester Fabrics
Researchers conducted an analytical evaluation of microplastic and fiber release from tri-color pile polyester fabrics during washing with detergent, employing multiple characterization methods on the fabric, wastewater, and filter cake before and after cryogenization to assess defragmentation and fiber shedding.
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.
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.