Microfiber Washing Guidelines LAUNDERING TIPS LAUNDERING BASICS

Total Page:16

File Type:pdf, Size:1020Kb

Microfiber Washing Guidelines LAUNDERING TIPS LAUNDERING BASICS Microfiber Washing Guidelines LAUNDERING TIPS LAUNDERING BASICS READ DIRECTIONS PRE-WASH IN COLD WATER Carefully follow the washing instructions Pre-washing in cold water removes any and warnings on your detergent’s packaging residual chemicals on the microfibers. (temperature and amounts). Rinsing at higher temperatures can cause the residual chemical to react, damaging LAUNDER IN NET BAGS the microfibers. Mesh bags protect microfiber products from free-flowing in the wash; prevents premature HOT WATER WASH, 194O F MAX fiber break-down. According to the CDC*, hot water MICROFIBER ONLY WASH/DRY washing (chemical-free) is an effective Do not wash or dry microfiber with other means of destroying micro-organisms. A textiles, as lint and fabric fibers will be caught temperature of at least 160oF (71oC) for a in microfiber, thus destroying its performance. minimum of 25 minutes is recommended. Filmop microfiber can withstand TEXTILE DETERGENTS pH<11 temperatures up to 194oF (90oC). Use standard liquid textile detergents with a pH of less than 11, such as Sunburst TRUST (pH TUMBLE DRY, 104o F MAX 4.5-5.5) and Tide® Professional 2x Laundry High heat can melt the fibers, causing the Detergent (pH 8.1 - 8.5). microfiber to lose effectiveness. NO SOFTENER WASH LIFE GUARANTEE Softening agents clog the fiber’s capillaries Filmop guarantees the lifecycle preventing proper solution holding. performance of Rapido®, Micro-Kleen, and Micro-Fast mop heads when washing NO CHLORINE BLEACH instructions are followed. Chlorine bleach compromises the microfiber construction, particularly microfiber with polyamide. If necessary, use non-chlorine bleach. STORE DRY Store microfiber products in a dry environment. Moisture can result in mildew growth. Engineered Cleaning Systems *CDC Guidelines for Enviornmental Infection Control in Hospitals, Recommendations of CDC and the Healthcare Infection Control Practices Advisory Committee (HICPAC), page 101 FLATMOP MOPSELECTION Maintenance GUIDE Bag Rotation Details Bag in use Mesh Collection Bag Details during shift • Allow a minimum of three bags Bag in-use per user (for in-house laundering; during shift outsourced laundry may need more, depending on turnaround Bag in transit time) between laundry and use • Each bag holds up to 30 mops Bag in (fits into workstation) • Use bag tags for customized laundry labeling (particularly important for outsourced laundry, so same mop • Line the workstation container with a plastic heads are returned) liner first, then insert the mesh collection bag to keep moisture out of the workstation. • Labeling provides enhanced cross contamination control as it • Collect used mop heads in mesh collection bag allows same mop heads to be during shift. consistently used in designated areas • Remove the mesh collection bag with soiled mopheads, secure drawstring, and place for Filament Structure: laundry at end of shift. Microfiber:Fiber that measures one denier or less. Extruded Blend: Raw polymers are processed through an extrusion system, creating a microfiber (measuring one denier or less). Raw Material Key: Twisted Blend: Microfiber (one denier or less) and other filaments (larger PE = Polyester; PA = Polyamide; PE = Polyester; than one denier) are combined through a twisting process. RY = Rayon; PP = Polypropylene Rapido® Flat Mop Wash cycles Color Code Filament Structure Loop Description Pocket Velcro 100% Extruded Blend Microfiber Long-Loop, 3/8” 600 500 (80% PE, 20% PA) 5 different solids including white Micro-Fast Flat Mop Wash cycles Color Code Filament Structure Loop Description Pocket Velcro 100% Twisted Blend (70% PE Microfiber, Long-Loop, 3/8” 400 400 4 colors with color-coded 25% PE, 5% RY) ribbing Micro-Kleen Flat Mop Wash cycles Color Code Filament Structure Loop Description Pocket Velcro 100% Twisted Blend (80% PE Microfiber, Long-Loop, 3/8” 300 300 One color mixture, four 20% PE) color-coded ribbing Micro-Activa Flat Mop Wash cycles Color Code Filament Structure Loop Description Pocket Velcro 100% Extruded Blend Microfiber Short loop, 3/16” 300 300 (85% PE, 15% PA) One color with 4-color tab Puli-Scrub Flat Mop Wash cycles Color Code Filament Structure Loop Description Pocket Velcro 70% Extruded Blend Microfiber Specialty loop for (70% PE, 30% PA) scrubbing; short-loop, 300 300 One color with 4-color tab 30% PP 3/16” (Scrub material) FILMOP® USA LLC. • 13410 Highway 105 West • Conroe, Texas 77304 Engineered Cleaning Systems Toll-Free: 888 741 0707 • e-mail: [email protected] www.FilmopUSA.com.
Recommended publications
  • Microfibers Lesson (Approximately 30-40 Mins)
    Microfibers Lesson (Approximately 30-40 mins) Intro – (pairs/small groups) • Tell youth: “Take a moment and think about all the things you use and/or come in contact with each day that are made of plastic.” • In pairs/small groups: brainstorm/write list of plastic items they use in everyday life (2 mins) • Share out some items • How does plastic get into our waterways and the Puget Sound? (littering, stormdrains, boats/ships….washing our clothes!) • Alarming stat: More than 400 million tons of plastic are produced worldwide each year, with over 8 million tons winding up in the oceans. Huge contributor to plastic pollution in our waterways are: MICROFIBERS. What do you know about microfibers? • What are microfibers? o Tiny strands of plastic (>5mm) that are woven together to create synthetic fabrics o Synthetic fabrics = polyester, acrylic, spandex, nylon, rayon (Natural fabrics = cotton, wool) o **Have people look at tags on their shirts, jackets, etc., and see how many people are wearing synthetic clothing** o A recent study: of all the human-made material found on the shoreline across the globe, 85% were microfibers and matched the types of material (such as nylon & polyester) used in clothing. Microfibers video - Is Your Fleece Jacket Polluting the Oceans? • Stop the video at :53 and study the graphics: What do they mean? • Stop at 3:30 – Small group discussion: o How should this problem be solved? Who is responsible? Have youth think about what steps they would take to solve this problem. Write these potential responsible parties on the board: Wastewater treatment plants, washing machine manufacturers, individuals/consumers, clothing companies, corporations creating these synthetic fibers from petroleum, government o Have groups share out ideas and write them on the board.
    [Show full text]
  • MICROFIBER? Microfi Ber Is a Material Blended from Polyester and Polyamide (Nylon)
    Microfi ber PADS, CLOTHS & MITTS CLEANING IS BELIEVING Cleaning is Believing. The Rubbermaid Microfi ber Cleaning System is built around the highest quality microfi ber, made from ultra-fi ne, non- abrasive fi bers. Rubbermaid’s products are designed to deliver superior cleaning performance while creating healthier, more appealing environments. Rubbermaid’s microfi ber pads and cloths include features and benefi ts that make cleaning faster, better, safer. THE RUBBERMAID ADVANTAGE ■ Advanced “hook-and-loop” backing makes pad-to-handle attachments secure ■ Durable pad construction withstands more than 300 launderings* ■ Color-coded pads help reduce cross- contamination by differentiating areas of use ■ Overlock-stitched and poly-bound edges retain pad shape over time and use ■ Dense microfi ber structure removes more dust, dirt and harmful bacteria than conventional cleaning products *Source: Stress Engineering, September 2003 Pad, Cloth & Mitt Features WET PADS SPECIALTY PADS HIGH- FINISH PADS PERFORMANCE This pad is WET PADS traditionally This twisted loop pad is a blend colored and optimally confi gured of microfi ber and polyester for strength and for a smooth, even application of fl oor ease of use. Edges are double fi nished… fi nish. The unique trapezoidal shape overlock-stitched then bound with polyester conforms to the frame and protects grosgrain piping for added durability. As baseboards, furniture and equipment, evidence, this construction has been proven to withstand over allowing faster, hassle-free application. 300 commercial launderings. Wet padsare suitable for routine The foam liner controls liquid release and mopping and capable of effi ciently and effectively removing dust, ensures good surface contact.
    [Show full text]
  • MICROFIBERS... Fine Fibers for Fashionable Fabrics
    MICROFIBERS... Fine Fibers for Fashionable Fabrics “Microfiber” is really not a fiber Some rayon and acrylic microfibers Fabric Characteristics in the truest sense of the word. are also being manufactured for Consider a very thick rope. When Rather, it is the generic term for the consumer use. Microfibers can bent, it will be stiff and form a technology that has been developed be used alone or blended with rounded arc. If finer threads or to produce an ultra-fine fiber, which conventional denier man-made yarns are wound together until they is then woven into very high-quality fibers as well as with natural fibers form the same diameter as the fabric constructions. DuPont such as cotton, wool and silk. thick rope and are bent, they will introduced the first microfiber, made These fibers, especially the ultra- form a sharper bend or curve. from polyester, in 1989. fine 0.3 to 0.5 denier types, are Each of the individual strands can Fiber Characteristics more expensive to process, and then move independently to create more flexibility or pliability. This Man made fibers are formed by command a premium price. Fiber effect occurs with microfibers. forcing a liquid through tiny holes brands such as Invista’s patented TM Each of the many very fine fibers in a device called a spinneret. With Micromattique (polyester) are moves independently to create a microfibers, the holes are finer enjoying a surge in popularity for soft drape, yet the fine fibers can than with more conventional fibers. both residential and commercial be packed together tightly to give Potentially, any man-made fiber could interior fabrics.
    [Show full text]
  • What You Should Know About Microfiber Pollution Scientists Estimate That Over 8 Million Tons of Plastic Enter Our Oceans Each Year
    What You Should Know About Microfiber Pollution Scientists estimate that over 8 million tons of plastic enter our oceans each year. While we have all seen the plastic bottles, bags, and straws that contribute to the plastic pollution problem, one major source of plastic pollution is less obvious: our clothes. The majority of clothing on the planet is made from plastic-based materials like polyester, rayon, nylon, and acrylic. When washed, synthetic clothing sheds tiny plastic fragments known as microfibers. Microfibers are the most prevalent type of microplastic (plastic pieces less than 5 mm in diameter) found in the environment. Though we cannot see them, plastic microfibers are all around us. Researchers have found microfibers in a diverse range of land and aquatic ecosystems, from shorelines and the seafloor, to remote areas in US National Parks, and even in snow in the Alps and the Arctic. Once in the environment, microfibers are extremely difficult to clean up. For this reason, it is critical to prevent this type of pollution from entering the environment in the first place. Additional research is needed to understand how microfibers enter the environment and where they come from, but many studies suggest that washing clothes is one major source. A 2019 study by Ocean Wise estimated that the average household in the U.S. 1 and Canada releases 533 million microfibers – or 135 grams – of microfibers to wastewater treatment plants each year. Wastewater treatment plants filter out the majority of microfibers, but because they are so small, some microfibers pass through the wastewater treatment systems, entering our waterways and oceans.
    [Show full text]
  • Cotton Microfibers Make a Big Difference
    COTTON MICROFIBERS MAKE A BIG DIFFERENCE. COTTON USA is committed to growing and producing cotton sustainably, striving to create minimal environmental impact before, during and after manufacturing. As industry concern over microplastics in our ocean grows, a new study proves cotton microfibers are the most environmentally-friendly. THE PROBLEM WITH PLASTICS The production of synthetic fibers for textiles has rapidly increased in the past decade. Synthetic fibers can create small plastic particles called microplastics that end up in our waterways. It’s estimated that 270,000 tons of LAUNDRY IN THE LAB: microplastics exist in the world’s oceans. They can also AN INDEPENDENT STUDY be found in our air, food and drinking water. A recent independent study from North Carolina • Of 159 global tap water samples, 81% contained State’s College of Natural Resources set out to synthetic microplastics better understand what happens to small particles of • 12 U.S. beer brands sampled, all contained cotton, polyester, rayon and poly/cotton blends that microplastics are released into our water. The team simulated the • 12 sea salt brands sampled, all contained laundering process for all four fabric types in a controlled microplastics environment. Cotton generated the most fibers during • The average person ingests 5,800 particles of both washing and drying while rayon produced the least. synthetic debris annually But more than just discovering how many microfibers were produced, researchers wanted to understand to THE PROBLEM WITH LAUNDRY what extent microfibers and microplastics remained in water and what their eventual fate might be. Fibers Every time you wash an article of clothing, thousands of were tested in different water types to measure the microfibers are shed from the textile and released into biodegradation process.
    [Show full text]
  • ABSTRACT Vyas, Khyati
    ABSTRACT Vyas, Khyati. Microfiber Nylon Spunbond: Production and Characterization. (Under the direction of Dr. Trevor Little) The research is to produce and characterize microfiber nylon spunbonds using Sixteen Segmented Pie bicomponent configuration with one of the components as water-soluble polymer. In addition, the entire process of making microfiber nylon spunbond is optimized. The influence of fiber size and the basis weight of the fabrics on ExcevalTM removal process and the properties of nonwoven fabrics at each process are analyzed. Combining aqueous polymer removal with Sixteen Segmented Pie bicomponent fiber cross- section, microfiber spunbond nonwovens of various basis weights and fiber size were produced. The spunbond fabrics of solid Sixteen Segmented Pie bicomponent fibers using Nylon (70%) and ExcevalTM (30%) as alternate components were made, and then fabrics were recalendared at an optimized calendaring condition to increase web integrity and achieve web strength to withstand washing treatment as well as to facilitate ease of ExcevalTM removal. FTIR and SEM were used to verify ExcevalTM removal. As a next step, the recalendared fabrics were processed for the washing treatment to remove water dispersive polymer ExcevalTM from the fabrics without causing damage to the Nylon component and suggestions were made about optimized washing conditions for the removal of ExcevalTM from the fabrics of different basis weight and fiber size. Hydroentangling was carried out for all fabrics to improve strength and aesthetic properties of the washed fabrics. Further, characterization of the fabrics was made using FAST (Fabric Assurance by Simple Testing) system and MTS Sintech tensile tester. Properties of the fabrics including basis weight, tensile strength, elongation, compression, surface thickness, bending and extensibility (%), were analyzed for each process.
    [Show full text]
  • Embedding Circularity in the Procurement of Linen and Towels in France © Valio84sl/Gettyimages ©
    Embedding circularity in the procurement of linen and towels in France © valio84sl/Gettyimages © Quick facts Background information Type of procurement: Betterfly Tourism1 estimates that the production and linen and towels treatment of bed linens and towels for the hospitality industry in France generates 470,000 tons of CO each year, Year of inception: 2014 2 representing over 10 million m3 of water consumption and Type of business: Sustainable requiring 15,000 tons of detergents. tourism consulting firm, in partnership with a hotel The challenge Organisation name: Betterfly Tourism & Amiral Hotel Procurement and treatment of linen and towels not only Number of staff:16 represent a challenge for hotels due to the high operating Country/region: France costs (laundry, transport, logistics), but also the environmental impacts of the use of linen and towels (water & energy Procurement value: 4,500 USD consumption, use of chemicals). Household maintenance of linen and towels have other side effects such as nuisance to the neighbourhood (air and noise pollution) generated during the daily delivery of clean linen and towels. Moreover, cleanliness and quality of linen and towels are of utmost importance for the guests, as they represent two of the top criteria in the overall evaluation of an accommodation. The strategy1 A group of key stakeholders in the textile value chain from the hospitality industry convened in order to identify and collectively implement an innovative sourcing solution to reduce negative lifecycle impacts and costs of linen and towels, while being mindful of guests’ health and comfort. The group includes a hotel federation (Groupement National des Indépendants de l’Hôtellerie & de la Restauration); five hotels (Amiral, Château Belmont, Charme Hôtel, hotel La Pérouse and Bhô Hotel); seven laundries members of ‘Cercle du Propre’; a linen producer (Tissus Gisèle), a detergent producer (Ecolab), and Betterfly Tourism.
    [Show full text]
  • Speciality Fibres
    Speciality Fibres wool - global outlook what makes safil tick? nature inspires innovation in fabric renaissance for speciality fibre china rediscovers south african mohair who supplies the supplier? yarn & top dyeing sustainable wool production new normal in the year of the sheep BUYERS GUIDE TO WOOL 2015-2016 Welcome to Wool2Yarn Global - we have given our publication a new name! This new name reflects the growing number of yarn manufactures that are now an important facet of this publication. The new name also better reflects our expanding global readership with a wide profile from Acknowledgements & Thanks: wool grower to fabric, carpet and garment manufacturers in over 60 Alpha Tops Italy countries. American Sheep Association Australian Wool Testing Authority Our first publication was published in Russian in1986 when the Soviet British Wool Marketing Board Union was the biggest buyer of wool. After the collapse of the Soviet Campaign for Wool Canadian Wool Co-Operative Union this publication was superseded by a New Zealand / Australian Cape Wools South Africa English language edition that soon expanded to include profiles on China Wool Textile Association exporters in Peru, Uruguay, South Africa, Russia, UK and most of Federacion Lanera Argentina International Wool Textile Organisation Western Europe. Interwoollabs Mohair South Africa In 1999 we further expanded our publication list to include WOOL Nanjing Wool Market EXPORTER CHINA (now Wool2Yarn China) to reflect the growing New Zealand Wool Testing Authority importance of Asia and in particular China. This Chinese language SGS Wool Testing Authority magazine is a communication link between the global wool industry Uruguayan Wool Secretariat Wool Testing Authority Europe and the wool industry in China.
    [Show full text]
  • Toward Eliminating Pre-Consumer Emissions of Microplastics from the Textile Industry
    Toward eliminating pre-consumer emissions of microplastics from the textile industry Photo credit: Mark Godfrey Photo credit: Devan King Abstract There is growing global awareness that microfibers are, we know enough to take microplastics are a potentially harmful action now to reduce the flows of these pollutant in oceans, freshwater, soil and air. materials into natural systems like rivers While there are many important sources of and oceans. The elimination of pre- microplastic pollution, we now know the consumer microfiber pollution will require textile lifecycle of manufacturing, use and changes along all stages of the textile disposal is a major emission pathway of supply chain. These changes include: microplastics. Microplastics emitted during a textile’s lifecycle are referred to as 1. Better understanding the relative microfibers or ‘fiber fragments.’ To date, emissions of microfibers at each much of the attention has focused on the manufacturing step (from fiber to yarn shedding, washing and disposal of to fabric to garment). synthetic textiles by consumers. 2. Developing microfiber control technologies and codifying best However, this is only part of the picture practices. and ignores microfiber leakage during the manufacturing and processing of these 3. Scaling these solutions to Tier 1, 2 and 3 materials. We estimate that pre-consumer suppliers via a combination of textile manufacturing releases 0.12 million regulatory and brand or retailer-led metric tons (MT) per year of synthetic action. microfibers into the environment – a similar 4. Continuing to raise industry, order of magnitude to that of the consumer government and consumer awareness use phase (laundering). That would mean of the topic.
    [Show full text]
  • Addressing the Environmental Impact of Microfibers in Textiles WHITE PAPER
    Addressing the environmental impact of microfibers in textiles WHITE PAPER In recent years, the use of microfibers and other synthetic materials in textiles has grown significantly as producers seek new ways to improve the quality and durability of apparel products. This is particularly the case for manufacturers of athletic and outdoor apparel and footwear, in which the use of microfibers can provide increased warmth and resistance to environmental conditions while also reducing the weight of the finished product. Textiles incorporating microfibers can offer producers greater flexibility in product design while also helping to reduce the use of more expensive natural textiles. But the increased reliance on microfibers and synthetic materials in textiles bring with it a previously hidden cost. Textiles comprised of microfibers shed during the normal laundering processes used in most developed countries. Often too small to be trapped by standard filtering mechanisms, these microfibers are then routed through wastewater streams and end up in lakes, rivers, and oceans. Aside from contributing to plastic pollution, microfibers often retain a residue of chemicals that were used to coat the original textile, leading to chemical contamination. In this UL white paper, we’ll discuss the use of microfibers in textiles and the growing concern regarding their environmental impact. Learn how the U.S. intends to regulate efforts currently underway to address the microfiber issue, as well as scientifically- based test methods under development that can be used to assess the extent of microfiber shedding in textile samples. Lastly, we’ll discuss how UL is working with manufacturers to evaluate the textiles used in their apparel and footwear products, and enabling them to provide consumers with objective information critical to the environmental assessment of those products.
    [Show full text]
  • A Smarter Tool for Every Task
    Janitorial Carts A Smarter Tool for Every Task. Office Supply Room Automotive Shops SmartRags are the smarter tool for all tasks. Each dispenser box contains 50 12”x12” microfiber cloths with precision cut seamless edges. Color-coding reduces the threat (and perception) of cross-contamination. Smaller and more compact than regular microfiber cloths, SmartRags are ideal for utility carts, corporate supply rooms, automotive shops, and break rooms. SmartRags are less expensive than regular microfiber cloths so are ideally used in high-loss environments: Industrial and automotive shops need better lint-free options to wipe away heavy grime and oil. Office environments value the compact consumer-friendly packaging. Employees are also prone to wipe-and-toss rather than launder cloths. Break Rooms Healthcare Facilities are hyper sensitive to Hospital Acquired Infections (HAIs) so cloths are often discarded after one use. Part Number Color Size GSM Case Count UOM MSRP M950B Blue 12" x 12" 180 8/CARTON EA. $19.99 M950G Green 12" x 12" 180 8/CARTON EA. $19.99 M950R Red 12" x 12" 180 8/CARTON EA. $19.99 M950Y Yellow 12" x 12" 180 8/CARTON EA. $19.99 M950W White 12" x 12" 180 8/CARTON EA. $19.99 Contact Your Rep: (215) 482-6100 Prepared By Monarch Brands. www.monarchbrands.com BENEFITS F MICR FIBER What Is Microfiber? MICROFIBER COTTON Microfiber is a man-made fiber of 80% polyester, 20% Polyamide. Perfected in the 1960’s in Japan by Dr. Miyoshi Okamoto, microfiber is a synthetic fiber, finer than a strand of silk, which in turn is one-fifth the diameter of a human hair.
    [Show full text]
  • Microfibers from Laundering and Their Fate in the Aquatic Environment
    Microfibers from Laundering and Their Fate in the Aquatic Environment Marielis Zambrano1, Richard Venditti1, Joel Pawlak1, Jesse Daystar2, Mary Ankeny2, Carlos Goller3, Jay Cheng4 1Department of Forest Biomaterials, College of Natural Resources, North Carolina State University; 2Cotton Incorporated; 3Department of Biological Sciences, North Carolina State University; 4Department of Biological and Agricultural Engineering, North Carolina State University. December 3, 2019 OUTLINE Outline Introduction Microfibers generated from laundering Aerobic biodegradation of textile spun yarns in aquatic and marine environments. Microfibers interaction with the microbiome Summary www.adventurescientists.org/microplastics.html 2 MOTIVATION Microplastics: Sources and Distribution Microplastics are EVERYWHERE!!! “Microplastics are any synthetic solid particle or polymeric matrix, with regular or irregular shape and with Beer Tap Water Sea Salt size ranging from 1 μm to 5 mm, of either primary or secondary manufacturing origin, which are insoluble in water”. Frias and Nash (2019) About 0.8 - 2.5 Mt./year of primary microplastics are 212 particles/kg released into the ocean 4 particles/L 5 particles/L The average person ingests over 5,800 particles of synthetic 35% are micro-size fibers released from textiles during debris from these three sources annually, laundering. Kosuth et al. (2018) The presence of anthropogenic debris in seafood for human consumption has been observed Miranda and de Carvalho-Souza (2016) and Rochman et al. (2015) Human stool samples have shown between 18 to 172 plastic particles per 10 g of stool. Schwabl (2018) Boucher and Friot (2017) 3 Textile Microfibers in the Environment Wastewater Treatment Plants The Lint LUV-R filter traps 87% of fibers Washing Machine Effluent High volumes discharged daily Small size (10 µm – 100 µm) 30% Fibers WWTP Home Laundering WWTP Effluents The Coral Ball traps 26% of fibers > 98 % McIlwraith et al.
    [Show full text]