#Garment Reprocessing
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Raspberry Processing House- The UK's Leading Garment Processing Specialists
Raspberry Processing House is a UK-based company specialising in garment finishing services. We provide high-quality finishing solutions, including washing, dyeing and fabric treatments, tailored to the fashion and textile industries. With a focus on innovation and sustainability, the company ensures garments meet industry standards for durability, appearance and texture. Raspberry Processing House works closely with clients to enhance the final product, delivering expertise in both traditional and modern techniques. Our commitment to eco-friendly practises and exceptional customer service makes us as a trusted partner in the garment manufacturing process.

#Garment Finishing in the UK#Clothing Processing Companies UK#Expert Garment Processors#Local Garment Processing UK#Garment Reprocessing#Garment Treatment Specialists UK#Textile Processing in the UK
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Scrap Buyers in Hyderabad@+91 82978 65751
Scrap Buyers in Hyderabad@+91 82978 65751
A S Traders is a leading scrap buying and dealing business based in Hyderabad. We have been in the industry for 15 years and have established ourselves as one of the most reliable and trusted scrap buyers in Hyderabad. We buy all types of scrap Iron scrap, Battery Scrap, Brass Scrap, Computer Scrap, Conveyor Belt, Copper Scrap, Demolishing Work, DG Set, Electrical Scrap, Eva Rubber, Ferrous and Nonferrous, GI Scrap, Glass Scrap, Iron Pipes Scrap, Steel Pipes Scrap, Iron Scrap, Lead Scrap, Motor Parts Scrap, Nickel Scrap, Office Furnitures, Old Air Condition, Old Machinery, Old Vehicles, Plastic Scrap, PVB Rubber, Solar Scrap, Stainless Steel, TMT Steel Scrap, Wooden Scrap and many more. At A S Traders Scrap Buyers in Hyderabad, we offer competitive prices and quick payment to ensure our customers get the best deal possible. We are committed to providing excellent customer service and strive to make the scrap-selling process as easy and hassle-free as possible. Whether you’re a homeowner looking to get rid of some old scrap or a business owner looking to dispose of your industrial scrap, contact us.
Scrap Related FAQs for Hyderabad
What are the way Sell scrap online in Hyderabad ?
There are many ways to sell scrap materials online in Hyderabad as they will come to you on time and pick them up. You can get 24 hours turnaround time, which is not much to get rid of this rubbish collection. There is a freedom to sell metals and non-metals in return for cash in Hyderabad.
What kind of Scrap Metals do scrap Dealer accept in Hyderabad ?
The scrap dealers deal in ferrous and non-ferrous metals that may include heavy types of machinery, electronic appliances, and all other old instruments except woods. You dont have to worry about the weight, size, and material as they accept all the bins from your home in Hyderabad.
How do you pay Steel Scrap Metals in Hyderabad ?
They are offering different ways of paying options as cash, cheque, and bank transfers as per your preference. Get assure cost value in case of any metals as the price of steel scrap cost may also vary as per the metal condition in Hyderabad.
What Price Expect from my batteries Scrap in Hyderabad?
the price may differ in the case of battery scrap as its weight, wear and tears, and the years of usage. In the case of a less used battery, you can expect more price than the battery is totally damaged and out of odor in Hyderabad.
Scrap Dealer Near Me
You can call us at +91 82978 65751 if you are looking for scrap buyers or scrap dealers near you. You can check the Scrap Price or Rate List by calling our customer care team. We are dealing in the following scrap categories –
Copper Scrap
Aluminium Scrap
Iron Scrap
Plastic Scrap
Steel Scrap
Metal Scrap
Car Scrap
Battery Scrap
Brass Scrap
Computer Scrap
Copper Scrap
Electronics Scrap
Home Appliances Scrap
Furniture Scrap
Paper Scrap
Air Condition Scrap
Machinery Scrap
Solar Scrap
Polythene Scrap
Electrical Steel Scrap
X Ray Film Scrap
Automobile Scrap
Computer scrap
Wooden scrap
Carbide Scrap
Zinc Scrap
Truck Scrap
Carbide Scrap
Nylon Scrap
Chemical Scrap
Camera Scrap
Non Ferrous Metal Scrap
Mild Steel Scrap
Bottle Scrap
Battery Scrap
Wire Scrap
Inverter Scrap
Silver Scrap
Photocopier Part Scrap
Building Construction Scrap
Garment Scrap
Tungsten Scrap
Glass Epoxy Scrap
Cotton Scrap
Disposable Scrap
Bakelite Scrap
Aluminum Scrap
Scrap Price/Rate
A New Tangled Notion to Sell Scrap Online in Hyderabad
The scrap dealers are always organized to help their clientele of Hyderabad by buying the scrap rate per kg and by converting that scrap waste product into an advanced well-furnished one, they also have predictable work of ferrous and nonferrous scrap commodities in Hyderabad, the scrap experts of Hyderabad are regimented in producing anything superior from the given scrap material of Hyderabad. The scrap dealers have all pursue one policy of reprocessing the old waste of Hyderabad customers, iron stuff and contain something astonishing which is pollution-free entirely, they try to make an advanced impression in which there can endure the only pollution restricted stuff of Hyderabad, and they all will be constructed through from top to bottom technology apparatus in Hyderabad.
The online scrap dealers of Hyderabad are skilled person with merely one approach of recycling all the longstanding waste scrap products of Hyderabad and produce something astonishing which can be pollution-free entirely in Hyderabad, they try their level best to paradigm an usual cognizance in which there can be all the things which are well-known by the scrap goods but are entirely real and virtuous for health for the person of Hyderabad. The scrap vendors of Hyderabad manage the pieces at a restored level, and due to their agile familiarity of Hyderabad’s scrap, they can effort on all sorts of scrap products of Hyderabad and they are manageable for all 7 days of the weak including all the leading holidays in Hyderabad as well.
If you don’t know about the worth of the scrap in Hyderabad, then you need not worry about it, as this matter of worry has already taken care of by the online scrap price list mend for Hyderabad is already obtainable by the vendors working for scraps in any of the locations of Hyderabad nearby your area. The prices of scraps keep fluctuating as per the market plea and utilization, online scrap service is authentic and the prices can be universally checked from any of the competitors or local vendors in Hyderabad, and hence they provide the best price to the person who are looking to buy their scraps to the vendors which are true and genuinetowards their work in Hyderabad.
Have you ever believed to sell scrap online in the location of Hyderabad? Shocked? Yes, it is right, this is a brand new idea in Hyderabad, actually, in various of the areas in Hyderabad there are society flats with plenty of security and hence, the normal street-vendors are not allowed to enter, in that condition this online service is really helpful in Hyderabad. Being an authorized marketplace of Hyderabad, we are here to connect you with steady online services of scrap selling, as it new idea which is getting more standard in Hyderabad nowadays and we make sure that the vendors who approach your home are registered vendors, that means they are consistent and trustworthy to agreement with despite any location in Hyderabad.
There are various scrap buyers in Hyderabad which may surround you but the most imperative thing is that you do not have time to meet, interact, negotiate with them to sell your old unessential belongings as you are so hectic with your own schedule, but these Online Scrap buyers are obtainable throughout the day in the nearby location of Hyderabad so that you can call them anytime as per your accessibility in Hyderabad. The person who are working-class don’t have time to sell their scraps on usual basis, the online scrap selling service in Hyderabad is really beneficial for them and that is the main purpose for getting this idea more & more standard day by day in Hyderabad.
How to Search The Kabadi Wala at Hyderabad Location
The energy requirements of recycled copper in Hyderabad is as much as 80 to 89% less than the dispensation of new copper from virgin ore for the location of Hyderabad, it is a very supportive step of copper conservation, as copper is a non-renewable source, while only 10-12% of known reserves have been expended. As we all know that, Copper metal is an significant component that is essential for flora and fauna health, reasonable excess disclosure to copper is not allied with health risks in Hyderabad, as with former metal scrap, there are vital conservational advantages to the recycling of the copper scrap of Hyderabad, these cover solid waste departure, abridged energy requirements for dispensation, and natural source protection.
It is always recommended to look for a vendor from the authorized website of Hyderabad as the vendors registered on an authorized website are found more dependable, they always provide notable service to make their brand value and the customer rating or reviews do matter to them despite their location in any of the area of Hyderabad. To locate the kabadi wala near me in any of the locations of Hyderabad, you should know the precise words to put on the search for Hyderabad location, that means along with writing in English as scrap vendors, scrap dealer, scrap purchasing, etc. you must also know how to put it in Hindi as Kabari wala, Kabar ki dukaan, for the areas of Hyderabad.
Are you aware that different to old plastic or paper, metal has cent present perceivable properties, as they can be made impeccable with a single method of recycling, that is the motive the scrap dealers are more interested in buying out your old metal scrap in Hyderabad so that they can earn profit out of this dealing. Now we will talk about metal scrap, metal is a faultless substantial that can be reprocessed and can offer an general variety of profits and rewards in Hyderabad but countless of us don’t know how numerous types of metals are existing in the world, the metal scrap business is one of the primary industries in the Hyderabad location and is still mounting at an recognized stride.
Sometimes the scrap vendors located in Hyderabad do not have contacts and options to recycle the heavy metal scrap, therefore they only accept plastic scrap in Hyderabad, and also the most normal. scrap paper like old books, notebooks, and newspaper in Hyderabad If you also have a lot of steel scrap at your home or office in Hyderabad, you must get in touch contact an experienced scrap vendor and deliberate having it recycled in Hyderabad, you also initially need to ask about the types of scrap they accept and their costs, before calling them at your place, make sure you re-inquire the types of scrap they accept as this shield a lot of your time and energy.
The Different Type of Scraps Sold in Hyderabad
If we talk about the aluminum scrap and the steel scrap of Hyderabad which is very commonly obtained from foils, cans, and other household material, it is mostly used in the infrastructure such as the aluminum windows can be constructed from the old recycled aluminum in Hyderabad, there are several more uses of recycled aluminum in the construction material used for the sites of Hyderabad. Scrap Buyers are there in adequate in Hyderabad, they can assemble the scrap from you, take it to the scrapping ability and ensure the scrap metal is recycled, this not only aids the atmosphere, but it is also used in the home and manufacturing industry, this abolishes the constraint for additional mining to obtain new metals for manufacturing processes.
The battery scrap of Hyderabad is further a productive material as the lead present in the battery is used again, as the lead is again a non-renewable source of energy and have a worthy value of re-sale in Hyderabad, therefore the scrap dealers earn worthy profits after buying the battery scrap from any of the locations of Hyderabad. The scrap dealers also take rejected pet bottle scrap of Hyderabad, they assemble them, sort them, clean them, then they are shredded and modified into washed flakes, which are then used to yield an range of produces, initiating from polyester fibre, which is recycled for a range of applications like filling material for pillows, cushions, and converted to materials for utilization in clothing.
Scrap furniture, a few fitting materials, lights, roofing, computer scrap, and countless more domestic products in Hyderabad can convey recycled scrap metal into depletion, giving objects that have stretched the end of their decided period a new tangled, tempting persistence in Hyderabad.
The old heavy fans installed in your homes are having copper binding in old days and therefore, they are very exclusive and valuable when goes in scrap sale in Hyderabad. If you plan to sell the old fan from your home, then the scrap vendors of Hyderabad are interested to buy it for the copper wire scrap, it is again a vastly valuable contract for them and we can also earn worthy profits by buying the copper cable scrap in Hyderabad.
SCRAP BUYERS IN HYDERABAD
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SCRAP BUYER'S IN KOLKATA
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Shoe Cleaning in Lucknow - Fabrico
In today’s fast-paced lifestyle, where fashion, hygiene, and convenience go hand in hand, maintaining your shoes in pristine condition has become more important than ever. Shoes are not just a part of your attire—they reflect your personality and sense of cleanliness. Whether you’re a student, a corporate professional, or someone attending traditional events in the city of Nawabs, your shoes play a crucial role in creating a lasting impression. That’s where Fabrico steps in with its premium and affordable services for shoe cleaning in Lucknow.
Why Shoe Cleaning Matters
Let’s face it—Lucknow’s dusty roads, monsoon rains, and daily commuting can quickly turn your stylish footwear into dull, dirty, and unhygienic items. Improper care can lead to stains, bad odors, fungal growth, and even permanent damage to your expensive shoes. But unlike clothes, shoes require specialized handling, different techniques, and appropriate products based on material type—be it leather, suede, canvas, or synthetic.
This is where professional shoe laundry in Lucknow becomes an essential service. It’s no longer a luxury but a practical solution for anyone who values quality footwear and wants to extend its life.
Fabrico: Redefining Shoe Laundry in Lucknow
Fabrico is a leading name in India’s garment care industry, now transforming the way people view shoe cleaning in Lucknow. With a reputation for professionalism, hygiene, and customer-centric services, Fabrico offers state-of-the-art shoe laundry in Lucknow that’s convenient, affordable, and highly effective.
What makes Fabrico stand out?
1. Advanced Cleaning Techniques
At Fabrico, every shoe goes through a customized cleaning process based on its material and level of dirt or damage. From high-end sneakers to delicate suede loafers, each pair is handled with care using advanced machinery and manual detailing. The deep cleaning process includes stain removal, sole scrubbing, deodorizing, color protection, and polishing.
2. Eco-Friendly and Safe Products
Fabrico is committed to sustainability and safety. That’s why all products used for shoe cleaning in Lucknow are non-toxic, fabric-safe, and environmentally friendly. Whether it’s sneaker whitening solutions, leather conditioners, or suede-safe cleansers, every chemical is chosen to ensure your shoes look brand new—without causing harm to your skin or the planet.
3. Expert Staff and Quality Control
Trained professionals at Fabrico know the value of branded shoes and the emotions attached to them. Every pair is checked manually before and after the wash to ensure the cleaning is up to the highest standards. If a shoe requires extra care or spot re-treatment, it is reprocessed without any extra cost.
4. Doorstep Pickup and Delivery
One of the best parts of choosing Fabrico’s shoe laundry in Lucknow is the convenience it offers. No need to go out or wait in queues. Just schedule a pickup through the Fabrico app or website, and your cleaned and polished shoes will be delivered back to your doorstep within a few days. It’s perfect for busy professionals and families looking for hassle-free shoe care.
Who Can Use Fabrico’s Shoe Cleaning in Lucknow?
Fabrico’s services are designed for everyone:
Students who want their white canvas shoes or school footwear looking spotless
Working professionals who need their formal leather shoes polished and fresh for meetings
Sneaker lovers who invest in high-end brands and want to maintain the look and feel
Wedding-goers who want to restore their traditional footwear like juttis or mojris
Fitness enthusiasts with worn-out sports shoes that need deodorizing and cleaning
No matter what your shoe type or usage, Fabrico has a dedicated solution for it.
Benefits of Choosing Fabrico’s Shoe Laundry in Lucknow
Improves shoe lifespan by removing dirt and preventing material damage
Saves time and effort, especially with home pickup and drop services
Protects the shoe material with careful cleaning and drying techniques
Eliminates bad odors and harmful bacteria or fungus
Restores color and texture, making your shoes look and feel new again
Affordable Packages for Every Budget
Despite offering premium service, Fabrico ensures that their shoe cleaning in Lucknow remains pocket-friendly. With clear pricing, no hidden charges, and combo offers for multiple pairs, Fabrico caters to students and working-class people alike. Whether you have one pair or a closet full, you’ll find a plan that fits your needs.
Customer Testimonials
Thousands of customers across Lucknow have experienced the Fabrico difference. Here’s what some of them have to say:
Conclusion
In a city that blends culture, elegance, and modern living, your footwear should reflect the same. Don’t let dirt and neglect ruin your favorite pair. With Fabrico’s shoe cleaning in Lucknow, you get a professional, safe, and cost-effective solution that restores your shoes to their former glory. Whether you’re preparing for a function, job interview, or just everyday life—clean shoes give you confidence. Trust Fabrico’s shoe laundry in Lucknow and step forward in style, comfort, and cleanliness.
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The Role of Fabric Testing in Sustainable Textile Manufacturing
In recent years, sustainability has emerged as a pivotal focus within the textile industry. With increasing awareness about environmental impact, consumers and manufacturers alike are prioritizing eco-friendly practices. Among these practices, textiles and fabrics testing plays a crucial role in advancing sustainable textile manufacturing. Fabric testing ensures that materials not only meet quality and safety standards but also align with environmental and ethical benchmarks.
This blog explores the role of fabric testing in sustainable textile manufacturing, how testing labs contribute to green practices, and why integrating testing is essential for the future of textiles.
Understanding Sustainable Textile Manufacturing
Sustainable textile manufacturing involves producing fabrics and garments with minimal negative impact on the environment and society. Key objectives include:
Reducing water, energy, and chemical usage during production
Minimizing waste and pollution
Using renewable, recycled, or biodegradable fibers
Ensuring fair labor and ethical sourcing practices
Creating durable products to extend lifecycle and reduce landfill waste
Sustainability is not just a trend but a responsibility driven by regulatory requirements, market demand, and global initiatives like the UN Sustainable Development Goals (SDGs).
How Fabric Testing Supports Sustainability
Fabric testing, traditionally associated with quality assurance, now plays a multifaceted role in fostering sustainability across the textile value chain:
1. Ensuring Material Compliance with Eco-Standards
Textile testing labs verify compliance with recognized environmental certifications such as:
OEKO-TEX Standard 100: Ensures textiles are free from harmful substances.
Global Organic Textile Standard (GOTS): Certifies organic fibers and sustainable processing.
Bluesign: Focuses on sustainable chemical usage and emissions.
By conducting chemical residue tests, harmful dye and finishing chemical detection, and heavy metal analysis, fabric testing ensures manufacturers meet stringent sustainability criteria. This protects consumers and the environment from toxic exposure.
2. Validating Use of Recycled and Alternative Fibers
Sustainable textiles often incorporate recycled polyester, organic cotton, hemp, or bamboo. Fabric testing assesses:
Fiber content verification to confirm material authenticity
Performance testing to ensure recycled fibers meet durability and comfort standards
Compatibility of blended fibers for optimal manufacturing outcomes
Testing ensures these alternative fibers deliver quality products, encouraging wider adoption of sustainable materials.
3. Optimizing Resource Efficiency
Water, energy, and chemical consumption are critical environmental metrics in textile manufacturing. Fabric testing labs assist by:
Analyzing fabric absorbency and dye uptake to optimize dyeing processes, reducing water and chemical waste
Assessing fabric weight and thickness to balance resource use without compromising quality
Testing fabric durability and colorfastness to ensure longer-lasting products, reducing the need for frequent replacement
This data enables manufacturers to refine production techniques for greater environmental efficiency.
4. Minimizing Waste Through Quality Control
Poor quality fabrics often result in high rejection rates, waste, and reprocessing — all detrimental to sustainability goals. Comprehensive textiles and fabrics testing include:
Tensile strength and tear resistance to prevent premature damage
Pilling and abrasion resistance to ensure aesthetic longevity
Dimensional stability testing to avoid deformation during use
By catching defects early, testing reduces material waste, conserves resources, and lowers carbon footprint.
5. Supporting Sustainable Finishing Techniques
Innovations in eco-friendly fabric finishes — such as waterless dyeing, natural antimicrobials, or biodegradable coatings — require validation. Testing labs evaluate:
Chemical residues and toxicity of new finishing agents
Durability and effectiveness of sustainable finishes
Biodegradability and environmental impact post-consumer use
This ensures novel sustainable processes meet safety and performance expectations.
Benefits of Integrating Fabric Testing in Sustainable Manufacturing
1. Enhanced Consumer Trust and Brand Reputation
Sustainability claims backed by rigorous testing reassure consumers seeking safe and eco-friendly products. Transparent lab certifications and test reports build trust and strengthen brand loyalty.
2. Regulatory Compliance and Market Access
Many countries enforce regulations restricting hazardous chemicals in textiles (e.g., REACH in Europe). Fabric testing ensures compliance, preventing legal issues and enabling access to global green markets.
3. Innovation Acceleration
Testing labs enable manufacturers to trial and validate new sustainable materials and processes faster and with confidence, driving continuous improvement.
4. Cost Savings Through Waste Reduction
By identifying defects and inefficiencies early, fabric testing reduces material waste, rework, and recalls — lowering operational costs and environmental impact.
5. Contribution to Circular Economy
Testing supports design for durability, recyclability, and biodegradability, fostering circular textile systems that reuse and recycle fibers sustainably.
Real-World Example: How Fabric Testing Transforms Sustainability Efforts
Consider a manufacturer shifting from conventional polyester to recycled polyester for sportswear:
Fabric testing confirms the recycled polyester meets strength, colorfastness, and moisture-wicking requirements.
Chemical residue analysis verifies absence of harmful dyes and finishes, meeting OEKO-TEX standards.
Durability tests ensure garments last as long as conventional counterparts, reducing landfill waste.
Test data guides adjustments to dyeing processes, reducing water and energy use.
Such testing empowers manufacturers to adopt greener materials confidently while maintaining product excellence.
Choosing the Right Fabric Testing Lab for Sustainability
For textile manufacturers aiming to enhance sustainability, partnering with accredited, experienced fabric testing labs is vital. Key factors to consider:
ISO/IEC 17025 Accreditation for global recognition of lab competence
Expertise in eco-certification testing such as OEKO-TEX, GOTS, and REACH compliance
State-of-the-art equipment for advanced chemical, physical, and biodegradability testing
Customized testing packages tailored to sustainable textiles
Consultancy services to interpret results and recommend process improvements
The right lab becomes a strategic partner in achieving sustainability goals.
Conclusion
Sustainable textile manufacturing is no longer optional but a necessity to protect our planet and meet evolving market expectations. Textiles and fabrics testing lies at the heart of this transformation, ensuring materials and processes align with environmental and social responsibility without sacrificing quality.
From verifying chemical safety and fiber authenticity to optimizing resource use and supporting innovative eco-finishes, fabric testing empowers manufacturers to produce textiles that are truly sustainable. By investing in robust testing protocols and partnering with qualified labs, the textile industry can accelerate its journey toward a greener, safer, and more sustainable future.
#Textiles and Fabrics Testing#Textile Testing#Fabrics Testing#Testing Lab near me#Testing Lab in Delhi
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Driving Demand in Southeast Asia: SHENMARK Textile's Leadership in Sustainable Polyester Yarn
The Growing Demand for Sustainable Polyester Yarn in Southeast Asia Environmental Impact of Conventional Polyester Production The environmental impact of traditional polyester production is severe, characterized by high energy consumption and substantial greenhouse gas emissions, all heavily reliant on non-renewable resources. Conventional polyester is produced from petroleum, making it energy-intensive and contributing significantly to global emissions while depleting crucial natural reserves. The production process also generates an alarming volume of plastic waste, exacerbating global pollution concerns. It is estimated that polyester accounts for 70% of synthetic fibers used in textiles, creating massive plastic waste volumes, further aggravated by persistent challenges such as microplastics. Microplastics shed during washing infiltrate marine ecosystems, posing severe threats to aquatic life and contributing to the complex global pollution puzzle. This underscores the urgent need for alternative solutions like sustainable polyester yarn to mitigate ecological impacts.
Shift Toward Recycled Yarn and Circular Economy Models The shift toward recycled yarn represents a transformative step in adopting circular economy models within the textile industry. Central to this approach is the commitment to reducing waste and enhancing sustainability across the lifecycle of products. Recycled yarn, particularly from polyester, minimizes reliance on virgin resources and addresses waste by reprocessing used materials into valuable products. In Southeast Asia, there's a noticeable growth in the recycled yarn market, reflecting the industry's pivot towards eco-friendly materials. As an example, companies like Unifi and Hyosung have successfully integrated recycled polyester into their offerings, experiencing reduced production costs and improved environmental footprints as benefits. The transition to recycled yarn is not merely a trend; it signifies a larger movement towards a more responsible and sustainable textile industry, with the circular economy model playing a pivotal role in this evolution.
SHENMARK Textile’s Leadership in Eco-Friendly Innovation Pioneering Recycled Polyester Yarn Technologies SHENMARK Textile is at the forefront of developing advanced technologies for producing recycled polyester yarn. The company employs state-of-the-art recycling technologies that minimize energy consumption and reduce greenhouse gas emissions in the textile production process. For example, SHENMARK has adopted mechanical recycling methods that allow for the conversion of post-consumer polyester waste into high-quality yarn, significantly cutting down the need for virgin polyester made from fossil fuels. In addition to these efforts, SHENMARK collaborates with leading universities and research institutions to push the boundaries of textile innovation, ensuring their technologies remain at the cutting edge and environmentally beneficial. These collaborative research efforts lead to continuous improvements in sustainable textile production, highlighting SHENMARK's commitment to innovation.
Collaborations with Recycled Polyester Fabric Manufacturers SHENMARK's dedication to sustainability extends through its strategic partnerships with recycled polyester fabric manufacturers. These collaborations are instrumental in maximizing the use of eco-friendly materials, enhancing SHENMARK's product offerings, and boosting market competitiveness. By working closely with other manufacturers, SHENMARK co-develops products that meet high environmental standards. One notable collaboration led to the creation of a new line of garments that combine functionality, durability, and sustainability, demonstrating the immense potential of such partnerships. These joint efforts thus play a pivotal role in promoting sustainable textiles and responding effectively to the growing consumer demand for environmentally responsible products.
Sustainable Applications: From Embroidery Threads to High-Performance Fabrics The applications of SHENMARK's sustainable polyester yarn span a vast range, from embroidery threads to high-performance fabrics. Their polyester yarn is used in embroidery threads that not only maintain the aesthetic appeal but also support environmental goals by reducing reliance on new raw materials. Additionally, SHENMARK’s yarn is integrated into technical fabrics which offer exceptional performance characteristics such as durability and moisture-wicking properties crucial in athletic and outdoor wear. Brands that have adopted SHENMARK's eco-friendly yarns have reported significant improvements in product sustainability and consumer satisfaction, exemplified by case studies where companies have successfully launched collections that prioritize both style and environmental consciousness.
Challenges and Strategic Solutions in the Sustainable Textile Sector Navigating Supply Chain Complexities for Recycled Threads Navigating the supply chain for recycled threads presents several challenges, particularly in terms of quality control and availability. Companies often face difficulties ensuring consistent quality due to the variability in recycled materials, which can affect the final product's performance. To counter these challenges, businesses can implement strategic solutions that prioritize the reliability of recycled yarn sources.
Quality Control Measures: Companies can establish stringent quality checks at every stage of the recycling process to ensure the materials meet set standards. Certifications like the Global Recycled Standard (GRS) provide a framework for assuring the quality. Strategic Partnerships: Forming alliances with reliable suppliers and manufacturers ensures a stable flow of recycled materials and enhances supply chain resilience. Technology Integration: Leveraging technology such as blockchain can improve transparency and traceability, allowing companies to identify and address bottlenecks promptly. These strategies can enhance the supply chain's efficiency, thus increasing the reliability and availability of recycled threads, an essential component of sustainable textile production.
Policy Frameworks and Consumer Education Initiatives Supportive government policies and consumer education initiatives are crucial in promoting sustainable textiles and the use of recycled materials. Policies that incentivize the adoption of eco-friendly practices can significantly boost industry engagement in sustainability. For instance, tax benefits for using recycled yarn can encourage manufacturers to innovate sustainably.
Additionally, consumer education plays a vital role in driving market demand for sustainable products. Initiatives that inform buyers about the benefits of choosing sustainable polyester yarn can shift consumer preferences, thereby increasing demand. A study by Nielsen reported that 73% of global consumers are willing to change consumption habits to reduce environmental impact, highlighting the potential impact of increased consumer awareness.
Development of interactive campaigns and informative platforms educates consumers and empowers them to make informed choices, fostering a demand for sustainable products. With these combined efforts, both policy frameworks and education initiatives pave the way for transformative change within the sustainable textile sector.
The Future of Sustainable Textiles: Opportunities and Projections Emerging Trends in Southeast Asia’s Recycled Yarn Market Southeast Asia is experiencing a significant shift towards embracing recycled yarn, which has broader implications for the textile industry globally. This trend is fueled by increasing consumer demand for sustainable textiles, as well as the ability to access advanced technologies in material recycling. Emerging markets are focusing on developing recycled polyester yarn and other fibers by integrating eco-friendly production processes. These opportunities for businesses include expanding into markets that prioritize sustainability while considering the use of recycled threads and yarns.
Growth Areas: There's a noticeable rise in recycling initiatives and collaborations with recycled polyester fabric manufacturers. These partnerships aim to improve material quality and accessibility. Market Opportunities: Firms could capitalize on these trends, particularly in sustainable materials by innovating and adapting recycled yarn to cater to diverse embroidery and sewing needs. To underline these growth prospects, industry experts project a compound annual growth rate in the recycled yarn market reflecting strong demand and potential scalability in Southeast Asia's textile sector.
SHENMARK’s Roadmap for Industry-Wide Sustainability SHENMARK is at the forefront of the movement towards sustainability in the textile industry. With a strategic roadmap aimed at transforming industry practices, SHENMARK is setting standards for eco-friendly initiatives across its operations. By leveraging its leadership position, SHENMARK plans to influence widespread adoption of sustainable practices, including sourcing recycled yarn and threads for sewing that reduce environmental impact.
Strategic Initiatives: SHENMARK’s plan includes enhancing supply chain transparency and developing advanced recycling techniques to make threads and yarns more sustainable. Awareness and Involvement: The company is prioritizing awareness through community engagement and campaigns that educate both manufacturers and consumers about the importance of sustainable textiles. This effort not only supports their market sustainability goals but also aligns with their broader vision for industry change. SHENMARK’s roadmap highlights its commitment to perform vital roles in promoting sustainability within the sector while encouraging industry peers to adopt similar eco-friendly practices.
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A Future Without Landfills
Imagine a world where coffee cups don’t pile up in landfills for centuries, and packaging disappears into the earth. Thanks to the growing shift toward recyclable and compostable materials, this vision is becoming a reality. For decades, plastic has dominated our lives—from grocery bags to food containers, its convenience is undeniable. But the environmental cost? Devastating.
Every year, millions of tons of plastic waste clog our oceans, harm wildlife, and leak toxins into the soil. The urgency to reverse this damage has never been greater. Kraft paper has emerged as a strong alternative, providing durable yet biodegradable solutions. Unlike traditional plastics, recyclable and compostable materials are designed to break down naturally or be repurposed, conserving resources. Some of the most promising compostable materials include: Bagasse, Cornstarch-based bioplastics, Palm leaf plates, Hemp fibre and Mushroom packaging – grown from mycelium.
Poly coated kraft paper manufacturers are innovating with coatings that allow for recyclability while maintaining durability. Also, companies that fail to reduce their environmental footprint risk losing relevance. Retail giants are swapping out plastic for paper-based alternatives. Restaurants are abandoning Styrofoam in favour of biodegradable containers made from kraft paper. Even fashion brands are using compostable garment bags and recyclable shipping materials.
Recyclable materials can be reprocessed into new products, reducing the demand for virgin resources. Contamination and a lack of proper facilities often result in recyclable materials ending up in landfills. Poly coated kraft paper manufacturers are playing a crucial role by offering moisture-resistant, sustainable options that replace traditional plastic containers. Compostable materials break down into natural elements and, when exposed to the right conditions, return to the earth, enriching the soil rather than polluting it.
With governments introducing stricter regulations on single-use plastics, the momentum toward sustainable materials is accelerating. Innovations in material science are unlocking better solutions. From seaweed-based packaging to edible cutlery, the future of sustainability is full of potential. Kraft paper will continue to play a critical role in offering sustainable alternatives that support recyclability and compostability. Poly coated kraft paper manufacturers are adapting to the demand for materials that balance performance with environmental responsibility. So, the next time you unwrap a package or sip from a coffee cup, pause for a moment and consider where it will end up. The choices we make today shape the world we’ll live in tomorrow.
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Navigating Regulatory Frameworks in the Recycled Textile Market

Recycled Textiles: A Growing Industry for Sustainable Fashion Rise of Recycled Textile Market The past decade has seen a significant increase in the recycled textile market globally. Recycled polyester, cotton, nylon and other textiles are being reused to manufacture new fabrics and textile products at an industrial scale. This represents a major paradigm shift away from the traditional "take, make, dispose" linear economy of the fashion industry towards a more circular model. The recycled textile market was valued at $X billion in 2020 and is projected to grow at a compound annual growth rate of Y% until 2030 according to a new report by ABC Research. Recycled Polyester Leads Growth Of the various recycled textiles, polyester constitutes the largest segment both in terms of production volume and market value. Several big name brands have committed to utilizing recycled polyester in a major way. For example, brand Z pledged to swap Y% of virgin polyester with recycled polyester in all its products by 2025. Recycling Cotton Garments Cotton textile is another major component of post-consumer textile waste. While cotton is a natural textile, conventional cotton growing and processing has substantial environmental impacts. Recycling used cotton garments prevents these textiles from ending up in landfills. Companies like X have pioneered closed-loop recycling systems to recover cotton textiles from old T-shirts and other garments. Challenges in Collection and Sorting One of the bottlenecks inhibiting higher recycling rates is the difficulty associated with efficiently collecting and sorting used textiles. Currently, the majority of post-consumer clothing is discarded as trash. Setting up convenient take-back programs and developing technologies for automated textile identification are active areas for innovation. Additionally, the presence of other non-fibrous components like buttons, zippers or elastics requires textile recycling facilities to have advanced sorting equipment. Market Growth in Developing Economies Going forward, the recycled textile market is expected to witness faster growth in developing countries compared to traditional markets in North America and Europe. Rapid industrialization and population growth in countries like India, Indonesia and Brazil will drive both textile consumption as well as the need for sustainable solutions. Social enterprises focused on recycling textiles can create jobs and economic development opportunities in these regions. Challenges in Quality and Purity While recycled textiles address waste generation concerns, producing recycled textiles that match the quality expected by brands and consumers poses technical challenges. Issues around strength, color fastness and purity levels remain areas where virgin synthetic or natural textiles currently have an advantage. Significant R&D is devoted to developing advanced recycling processes that better preserve textile length, purity and other attributes. Investment and policy landscape Driven by growing profit opportunities as well as sustainability goals, companies across fashion, textiles and waste management sectors have been investing heavily into textile recycling infrastructure and innovation worldwide. Strategic collaborations between brands, material manufacturers, technology firms and recyclers aim to accelerate industry transformations. In conclusion, recycled textiles have gained prominence as a viable alternative material stream for the global textile industry seeking to transition to more sustainable production practices. Considerable advances have been witnessed in collection infrastructure and textile reprocessing technologies. Key challenges around quality, supply chain management and consumer behavior still remain. Continuous innovation supported through industry partnerships and strategic policy pushes can help recycled textiles emerge as the new normal, driving the circular economy vision.
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Exploring Emerging Trends in FR Clothing: Sustainable Materials, Smart Textiles, and Beyond

Flame-resistant (FR) clothing has long been a cornerstone of safety in industries where workers face potential exposure to fire hazards. However, as technology advances and societal priorities shift towards sustainability and innovation, the landscape of FR clothing is undergoing a significant transformation. This article delves into the emerging trends in FR clothing, highlighting new developments, innovations, and trends such as sustainable materials, smart textiles, and beyond.
Sustainable Materials in FR Clothing
One of the most notable trends in the FR clothing industry is the growing emphasis on sustainable materials. Traditionally, FR clothing has been manufactured using synthetic fibers such as aramids (e.g., Nomex®) and modacrylics, which offer excellent flame resistance but may not be environmentally friendly. However, manufacturers are increasingly turning towards sustainable alternatives to reduce their carbon footprint and meet consumer demand for eco-friendly products.
One such alternative is recycled FR fabrics, which are made from post-consumer or post-industrial waste materials. These fabrics undergo a process of recycling and reprocessing to create new FR clothing without compromising on flame resistance or performance. Additionally, bio-based materials derived from renewable sources, such as soybean oil, corn starch, and bamboo, are gaining traction in the FR clothing market due to their biodegradability and reduced environmental impact.
Furthermore, advancements in textile engineering have led to the development of innovative plant-based fibers with inherent flame-resistant properties. For example, fabrics made from hemp, a rapidly renewable resource, have shown promise as sustainable alternatives to traditional FR materials. By embracing sustainable materials, the FR clothing industry is not only reducing its environmental footprint but also addressing the growing demand for eco-conscious products.
Smart Textiles and Functional Integration
In addition to sustainability, another key trend in FR clothing is the integration of smart textiles and functional features. Smart textiles, also known as e-textiles or wearable technology, incorporate electronic components and sensors into fabric structures to enhance performance and functionality.
For instance, smart FR clothing may feature built-in sensors that continuously monitor environmental conditions such as temperature, humidity, and exposure to heat or flames. These sensors provide real-time data to the wearer and safety personnel, enabling proactive measures to mitigate risks and prevent accidents. Moreover, smart FR garments can be equipped with communication modules for seamless integration with wearable devices and safety systems, enhancing connectivity and situational awareness in hazardous environments.
Furthermore, functional integration extends beyond electronics to include innovative design elements and performance-enhancing features. For example, FR clothing may incorporate ergonomic seams, stretch panels, and ventilation zones to improve comfort, mobility, and breathability. Additionally, modular designs and customizable components allow for greater adaptability and versatility in various work settings.
Innovations in Fabric Technology
Alongside sustainable materials and smart textiles, ongoing innovations in fabric technology are driving advancements in FR clothing. New fabric treatments and finishing techniques are enhancing flame resistance, durability, and comfort without compromising on performance.
One notable innovation is the development of self-extinguishing fabrics that suppress flames upon exposure to heat or flames, reducing the risk of injury and damage. These fabrics contain additives or coatings that react to heat by forming a protective char layer, thereby limiting the spread of flames and preventing ignition.
Moreover, advancements in nanotechnology have enabled the creation of ultra-thin coatings and nanoparticle additives that impart flame resistance to conventional textiles without altering their appearance or feel. These nanocomposite materials provide an additional layer of protection against heat and flames while maintaining the softness and flexibility of the fabric.
Furthermore, research into phase change materials (PCMs) has led to the integration of thermal regulation properties into FR clothing. PCMs absorb, store, and release heat energy to maintain a comfortable microclimate around the wearer, reducing the risk of heat stress and improving overall thermal comfort.
In conclusion, the FR clothing industry is undergoing a period of rapid evolution driven by emerging trends in sustainable materials, smart textiles, and fabric technology. Manufacturers are embracing eco-friendly alternatives, integrating electronic components, and innovating new fabric technologies to enhance flame resistance, functionality, and comfort in FR clothing. As these trends continue to unfold, the future of FR clothing holds promise for safer, more sustainable, and technologically advanced solutions to protect workers in hazardous environments.
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What Is Recycling? Top Reasons Why It Is Important

Introduction
Today, everyone, mainly the government, and industries, is feeling the pressure to recycle more and more material due to the increase in pollution and shortage of resources. But they often struggle to recycle accurately due to the use of ineffective technologies.
Given these challenges, industries always look out for the best ways and equipment to make their recycling process easier while being able to recycle all valuable materials from recyclable materials.
Fortunately, Jaykrishna Magnetics Pvt. Ltd. is here to take some of the weight off your shoulders by offering you the best recycling equipment for your recycling needs.
However, before we look into the best magnetic separation technology for recycling industries, let’s delve into the concept of recycling, explore the top reasons why it is important, and later discuss the role of magnetic separators in recycling applications, outlining the benefits it can bring to your business.
What Is Recycling?
Recycling is the process of converting waste or used materials into new products and objects. Reprocessing waste materials divert them from disposal and landfill sites and reduces the production of harmful materials and extra energy usage.
Collecting and sorting recyclable materials can benefit the environment by generating less waste and using fewer raw materials for manufacturing new products.
According to statistical data, approximately 75% of waste materials are recyclable, which can be repurposed and transformed into new products. Some of the most common materials that can be recycled include plastics, paper, cardboard, cans, batteries, wood, biodegradable waste, clothing, electronics, garments, glass, metals, and a lot more.
Top Reasons Why Recycling Is Important
Below are some of the top benefits of recycling:
1. Conserves Natural Resources:
World natural resources are getting short in supply, but when we do recycle, these used materials can be converted into new things, which reduces the need for these natural resources.
For instance, by recycling metals it reduces the need to extract new metal ore, same way by recycling glass it reduces the need for raw materials like sand. Similarly, recycling materials like paper, cardboard, plastics, and more help not only conserve natural resources but also protect natural habitats for the future.
To Read Full Blog : What Is Recycling
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The Role of Grey Fabrics Testing in Garment Manufacturing
In the competitive garment manufacturing industry, quality assurance is crucial to delivering products that meet consumer expectations and regulatory standards. One of the foundational steps in this quality assurance process is grey fabrics testing. This specialized testing plays a pivotal role in ensuring that the raw fabrics used in garment production meet stringent quality and performance criteria before they are dyed, finished, or sewn into garments.
In this comprehensive article, we will explore the critical role of grey fabrics testing in garment manufacturing, why it is indispensable for quality control, and how it contributes to the overall success of the apparel production process.
What Is Grey Fabrics Testing?
Before garments reach the final stage of production, manufacturers work with grey fabrics—textile materials in their raw, unfinished state. These fabrics have not yet undergone processes such as bleaching, dyeing, or finishing. Grey fabrics testing involves evaluating these raw textiles for various quality parameters to ensure they are suitable for garment manufacturing.
Testing grey fabrics helps identify defects, weaknesses, and inconsistencies early, preventing the use of substandard fabric that could jeopardize garment quality, durability, or appearance.
Why Is Grey Fabrics Testing Essential in Garment Manufacturing?
1. Ensures Fabric Quality and Consistency
Garment manufacturers depend heavily on consistent fabric quality to maintain uniformity across production batches. Variability in raw fabric can lead to issues like uneven dyeing, poor texture, or reduced strength, ultimately impacting garment quality.
Grey fabrics testing checks critical parameters such as fabric weight, thickness, tensile strength, and dimensional stability to confirm consistency. This ensures every batch meets the manufacturer’s specifications, reducing defects downstream.
2. Detects Fabric Defects Early
Defects like weaving faults, holes, weak yarns, or contamination are often invisible to the naked eye at the grey fabric stage. Testing identifies these defects using advanced inspection techniques.
Early detection allows manufacturers to reject or reprocess faulty fabric before costly dyeing or garment production begins. This reduces material waste, lowers production costs, and improves the final product’s quality.
3. Supports Process Optimization
Understanding the raw fabric’s properties helps manufacturers optimize subsequent processes such as dyeing, printing, and finishing. For example, knowledge of fabric pH, moisture content, and chemical composition guides the choice of chemicals and treatments to avoid damage or uneven results.
Grey fabrics testing data thus enables better process control and improved garment appearance and performance.
Key Tests Conducted in Grey Fabrics Testing for Garment Manufacturing
1. Tensile Strength Test
This test measures the force required to break the fabric. It’s vital for garments that must endure stress during wear or manufacturing. Fabrics with inadequate tensile strength may tear during cutting or sewing, leading to defects.
2. Tear Strength Test
While tensile strength measures fabric breaking, tear strength assesses resistance to propagation of existing tears. This is crucial for garments exposed to friction or snagging.
3. Dimensional Stability and Shrinkage Test
Shrinkage can cause garments to lose shape or size after washing. Testing grey fabrics for dimensional stability ensures the fabric will retain its measurements, leading to better fitting garments.
4. Fabric Weight and Thickness Measurement
Fabric weight (measured in grams per square meter, GSM) and thickness affect the garment’s feel and drape. Consistency in these parameters ensures the final garments meet design expectations.
5. Chemical and pH Testing
Grey fabrics are tested for residual chemicals and surface pH levels to avoid fabric damage or skin irritation after dyeing and finishing.
6. Color Fastness Prediction
Although color fastness is mainly tested post-dyeing, some grey fabric properties influence dye uptake and fastness. Testing can provide early insights to select appropriate dyeing methods.
Benefits of Grey Fabrics Testing in Garment Manufacturing
1. Reduces Production Costs
By ensuring fabric quality before production, manufacturers avoid costly rework, waste, and rejected garments. Early identification of defects allows for timely corrections.
2. Improves Garment Durability and Performance
Testing guarantees that the fabric can withstand wear, tear, and washing, resulting in garments that satisfy consumer durability expectations.
3. Enhances Customer Satisfaction
High-quality fabrics translate into better-fitting, longer-lasting garments, improving brand reputation and customer loyalty.
4. Ensures Compliance with Industry Standards
Many international garment brands require compliance with standards such as ISO, OEKO-TEX, and ASTM. Grey fabrics testing helps meet these standards by validating fabric quality before production.
5. Supports Sustainable Manufacturing
By reducing fabric waste and improving product lifespan, grey fabrics testing contributes to sustainability goals in garment manufacturing.
The Grey Fabrics Testing Process in Garment Manufacturing
The testing process typically follows these steps:
Sample Collection: Representative fabric samples are collected from the bulk lot.
Laboratory Testing: Samples undergo physical, chemical, and mechanical tests in accredited labs.
Analysis and Reporting: Test results are analyzed and documented with clear pass/fail criteria.
Decision Making: Based on results, manufacturers decide whether to accept, reject, or reprocess the fabric.
Feedback for Suppliers: Testing outcomes guide fabric suppliers to improve quality control.
This process ensures fabric quality control is embedded early in the garment manufacturing supply chain.
Choosing the Right Grey Fabrics Testing Lab
Partnering with a reliable and accredited testing lab is essential for accurate results and industry compliance. Key factors to consider include:
Accreditation: Ensure labs hold ISO/IEC 17025 accreditation.
Experience: Labs familiar with textile and garment industry standards provide more reliable insights.
Equipment: Advanced and regularly calibrated testing equipment guarantees precise measurements.
Comprehensive Services: Labs offering a wide range of tests streamline quality control processes.
Conclusion
Grey fabrics testing plays a critical role in garment manufacturing by ensuring that raw fabrics meet required quality and performance standards before production begins. This early-stage quality assurance helps manufacturers detect defects, optimize processing, reduce costs, and ultimately deliver durable, high-quality garments.
In an industry where fabric quality directly impacts the final product’s success, investing in rigorous grey fabrics testing is not optional but essential. By collaborating with accredited testing labs and embedding grey fabric testing in the production workflow, garment manufacturers can uphold brand reputation, comply with international standards, and meet growing consumer demands for quality and sustainability.
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Cygnus Resupply Ship Attached to Unity for Cargo Operations
ISS - Expedition 61 Mission patch / NASA & Northrop Grumman - NG-CRS-12 S.S. Alan Bean Cygnus Mission patch. November 4, 2019 After its capture this morning at 4:10 a.m. EST, the Northrop Grumman Cygnus spacecraft was bolted into place on the International Space Station’s Earth-facing port of the Unity module at 6:21 a.m. At the time of installation, Cygnus was flying over the south Pacific.
Image above: Nov. 4, 2019: International Space Station Configuration. Four spaceships are attached to the space station including the Northrop Grumman Cygnus resupply ship and Russia’s Progress 73 resupply ship and Soyuz MS-13 and MS-15 crew ships. Image Credit: NASA. This mission, designated NG CRS-12, will be in orbit at the same time as its predecessor, the NG CRS-11 Cygnus spacecraft, which launched in April on an extended duration flight. The NG CRS-12 Cygnus spacecraft will remain at the space station until January before it disposes of several thousand pounds of trash through its fiery reentry into Earth’s atmosphere. The ability to fly two vehicles at once further demonstrates the robustness of Cygnus to support the goals of NASA’s ambitious missions.
NG-12: S.S. Alan Bean Cygnus berthing
The spacecraft’s arrival brings close to 8,200 pounds of research and supplies to space station. Here are some of the scientific investigations: More Probing of Mysteries of the Universe This mission carries components needed to prolong the operational life of Alpha Magnetic Spectrometer-02 (AMS-02). In a series of spacewalks planned in the coming weeks, astronauts will cut and reconnect fluid lines on the instrument, a feat not done before in space, which could prove valuable for future missions at NASA’s upcoming lunar Gateway for the Artemis program or missions to Mars. Testing Personal Protective Equipment for Astronauts The AstroRad Vest tests a special garment designed to protect astronauts from radiation caused by unpredictable solar particle events. Astronauts will provide input on the garment as they wear it while performing daily tasks. Use of the vest could protect crew members on missions to the Moon and Mars. Food Fresh from the Oven The Zero-G Oven examines heat transfer properties and the process of baking food in microgravity. It uses an oven designed specifically for use aboard the space station, and may have application on future long-duration missions by offering a way to increase variety in flavor and nutrition of food for crew members. 3D Printing with Recycled Materials The Made in Space Recycler will test systems needed to reprocess plastic into 3D printing filament that can then be transferred for use to the Made in Space Manufacturing Device, a 3D printer that has operated on the orbiting laboratory since 2016. This has implications for space conservation and deep space missions. Astronaut Jessica Meir and Christina Koch Capture Cygnus with Station’s Robotic Arm
Image above: The Canadarm2 operated by astronauts Jessica Meir and Christina Koch moves toward the Cygnus resupply ship for its capture. Image Credit: NASA TV. At 4:10 a.m. EST, Expedition 61 NASA astronauts Jessica Meir and Christina Koch of NASA used the International Space Station’s robotic Canadarm2 to grapple the Northrop Grumman Cygnus spacecraft as NASA astronaut Andrew Morgan monitored Cygnus systems during its approach. Next, ground controllers will command the station’s arm to rotate and install Cygnus, dubbed the S.S. Alan Bean, on the bottom of the station’s Unity module.
NG-12: S.S. Alan Bean Cygnus capture
The station was flying over Madagascar when it was captured. Related links: Expedition 61: https://www.nasa.gov/mission_pages/station/expeditions/expedition61/index.html Alpha Magnetic Spectrometer-02 (AMS-02): https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=729 Gateway: https://www.nasa.gov/topics/moon-to-mars/lunar-gateway AstroRad Vest: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=7803 Zero-G Oven: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=7993 Made in Space Recycler: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=7745 Space Station Research and Technology: https://www.nasa.gov/mission_pages/station/research/index.html International Space Station (ISS): https://www.nasa.gov/mission_pages/station/main/index.html Images (mentioned), Videos, Text, Credits: NASA/Mark Garcia/NASA TV/SciNews. Best regards, Orbiter.ch Full article
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The Sustainable Angle at DesignerShowrooms, LFW AW18. Intersting new materials. Garments from Pinatex, leather like material, created from reprocessed pineapple husks. Biogedradable sequins, still in development.
Pics: Magda Durka Style
#sustainable fashion#sustainable angle#pinatex#biodegradable sequins#new materials#magda durka#magdadurkastyle#LFW#lfwaw18
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This plant grows very quickly, so they are very easy to sustain
Nowadays everyone is looking for ways to help the environment. Well, one thing you can do to help is to start buying organic clothing. You may be wondering how can an organic garment help the environment? Continue on to find out how.Most farmers use synthetic fertilizers and pesticides to keep their plants safe. However, the materials used to make an organic tshirt cannot be treated with these potentially hazardous chemicals. If birds and other small animals ingest the chemicals somewhere in the environment, then they will get sick.In order to be called organic, the piece of clothing cannot be yuyao lotion pump colored using harmful inks and dyes.
Their use can be harmful to the environment especially since they can contain heavy metals and other toxic substances.The problem with these inks and dyes occurs when they have to be thrown away. They often are not biodegradable and the toxic substances obviously are not good for the environment. Also, during the actual coloring process, the excess water can cause problems with our ground water supply.If a company wants to create an organic tshirt, it will need to find a safer way to color it. This can be achieved using natural dyes. Although they can be less effective than their synthetic counterparts, metallic salts can be added to them so which they do not fade as easily.You can find organic apparel made from various materials. Organic cotton is the most commonly used material. The cotton plants are protected using natural means instead of synthetic fertilizers and pesticides.Bamboo can also be used to make an organic apparel.
This plant grows very quickly, so they are very easy to sustain. The resulting tshirt will be very lightweight and an excellent option for summer wear. Reprocessed fleece can also be used and is a good choice during the winter.The workers responsible for making organic apparel also have to be protected. The company which employs them will need to pay them fair wages and provide them with a working environment which is clean and safe.In order to help the environment even further, these companies will usually try to find greener powering options. If their location is suitable, they can get power from wind or water. Solar panels are also being used more frequently too.There are certainly plenty of ways that buying an organic tshirt can help protect the environment. The next time you are looking to buy new clothes, consider buying one.
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From Runway to Warehouse: The Secrets Behind Garment Warehousing Storage
Garment warehousing storage is a crucial part of the fashion industry that often goes unnoticed. The secrets behind this process unravel the intricate details and measures taken to preserve garments from the runway to the warehouse. By understanding and appreciating the role of garment warehousing storage, we can better grasp the efforts that go into delivering fashion to our wardrobes, ensuring that every piece we wear is of the highest quality.
#Garment Processing Services in the UK#UK Garment Processors#Garment Finishing in the UK#Clothing Processing Companies UK#Expert Garment Processors#Local Garment Processing UK#Garment Reprocessing#Garment Treatment Specialists UK#Textile Processing in the UK#Sustainable Garment Processing UK#Garment Warehousing Storage#Premium Garment Finishing#Garment Cleaning Services UK
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The Role of Colorfastness to Perspiration Testing in International Trade
Colorfastness to perspiration is a crucial quality parameter in the textile industry. As global trade expands, manufacturers, retailers, and regulatory bodies emphasize the importance of maintaining high-quality standards in clothing and textiles. This article explores how colorfastness to perspiration testing plays a vital role in international trade, ensuring compliance with industry standards, protecting brand reputation, and meeting consumer expectations.
What is Colorfastness to Perspiration?
Colorfastness to perspiration measures a fabric’s resistance to color changes or staining when exposed to human sweat. This testing evaluates how dyes react to acidic and alkaline perspiration conditions, which is particularly important for garments worn in warm and humid climates or activewear that frequently comes into contact with sweat.
Why is Colorfastness to Perspiration Important in International Trade?
Compliance with Global Standards
International textile trade is governed by standards such as ISO 105-E04, AATCC 15, and JIS L0848.
Countries impose strict import regulations to ensure product safety and durability.
Testing ensures compliance with specific market requirements, preventing shipment rejections.
Consumer Satisfaction and Trust
Poor colorfastness can lead to customer complaints and product returns.
High-quality, tested fabrics enhance brand reputation and customer loyalty.
Avoiding Financial Losses
Failure to meet colorfastness standards can result in rejected shipments, penalties, or recalls.
Non-compliance leads to additional costs for reprocessing or re-dyeing textiles.
Competitive Advantage
Textile exporters that adhere to high-quality standards gain preference from global buyers.
Brands that emphasize quality assurance can expand into premium international markets.
Testing Methods for Colorfastness to Perspiration
ISO 105-E04 (International Standard)
Evaluates the resistance of textiles to acidic and alkaline perspiration conditions.
Used by global manufacturers to ensure standardization across international markets.
AATCC 15 (American Standard)
Measures the effect of human sweat on textiles under controlled laboratory conditions.
Frequently used for garments intended for North American markets.
JIS L0848 (Japanese Standard)
Follows testing protocols required for the Japanese textile industry.
Ensures compliance with stringent quality regulations in Asian markets.
Steps Involved in Colorfastness to Perspiration Testing
Sample Preparation
Fabric or garment samples are selected based on trade requirements.
Samples undergo conditioning to maintain uniform moisture content.
Testing Procedure
Fabric samples are soaked in artificial sweat solutions (acidic and alkaline).
Samples are placed between reference fabrics and subjected to pressure and heat.
Testing simulates real-life perspiration exposure to determine dye stability.
Evaluation and Grading
Color changes are assessed using a gray scale (1-5 rating, where 5 is best resistance).
Staining on adjacent fabrics is analyzed to detect potential dye transfer issues.
Industries That Rely on Colorfastness to Perspiration Testing
Sportswear and Activewear
Sweat-resistant clothing must maintain color integrity despite frequent exposure to moisture.
International brands focus on rigorous colorfastness testing to maintain quality.
Workwear and Uniforms
Industrial and corporate uniforms require long-lasting color durability.
Ensuring color stability prevents professional attire from fading prematurely.
Luxury and Designer Apparel
Premium clothing brands prioritize superior dye retention to maintain their reputation.
Compliance with international trade regulations protects brand value.
Children’s and Baby Clothing
Safety regulations mandate non-toxic, colorfast fabrics for children’s garments.
Ensuring dye stability reduces potential skin irritation risks.
Challenges in Global Compliance and Trade
Varying Regional Regulations
Different countries enforce different textile safety and quality standards.
Manufacturers must be aware of specific trade regulations for each target market.
Counterfeit and Substandard Products
Non-compliant fabrics often infiltrate global markets, affecting industry credibility.
Authenticity verification through certified testing labs ensures quality assurance.
Sustainability Considerations
Eco-conscious consumers demand sustainable, non-toxic dyes that meet colorfastness requirements.
Green certifications and compliance with eco-labels enhance global trade opportunities.
Conclusion
Colorfastness to perspiration testing is a fundamental quality control measure for textiles in international trade. Ensuring compliance with global standards enhances brand reputation, consumer satisfaction, and market expansion. By implementing rigorous testing protocols, manufacturers can secure their position in competitive global markets while delivering durable, high-quality products to consumers worldwide.
#colorfastness to perspiration#colorfastness test#testing lab near me#testing lab delhi#textile testing#textile testing lab
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Research launching to the space station ranges from radiation protection to rover control
ISS - International Space Station logo. Oct. 17, 2019 Supplies and scientific experiments ride to the International Space Station on a Northrop Grumman Cygnus spacecraft (NG-12) scheduled for launch on Nov. 2. The investigations making the trip range from research into human control of robotics in space to reprocessing fibers for 3D printing. Cygnus lifts off on the Antares rocket from pad 0A at NASA’s Wallops Flight Facility on Wallops Island in Virginia. Resupply missions from U.S. companies ensure NASA’s capability to deliver critical science research to the space station and significantly increase its ability to conduct new investigations in the only laboratory in space. This is the first mission under Northrop’s Commercial Resupply Services-2 contract with NASA. Here are some of the scientific investigations NG-12 delivers to the space station: More Probing of Mysteries of the Universe Stars, planets and the molecules of which they are made represent only about 15 percent of the mass content of the universe. The rest is dark matter. However, no one has ever seen this material or been able to study it directly. The Alpha Magnetic Spectrometer - 02 (AMS-02) has been looking for evidence of this mysterious substance from the vantage point of the International Space Station since 2011. AMS consists of an international team from 16 countries under the sponsorship of the U.S. Department of Energy's Office of Science.
Image above: View of the Alpha Magnetic Spectrometer - 02 (AMS-02) on the outside of the space station, taken during an Expedition 50 extravehicular activity (EVA). Image Credit: NASA. NG-12 carries components needed for prolonging the operational life of AMS-02. In a series of spacewalks planned for later this year, astronauts will update the instrument, including cutting and reconnecting fluid lines in space for the first time. Driving a Rover on the Ground from Space Future missions to the Moon, Mars and other celestial bodies are likely to involve landing robotic explorers to “test the waters” on uncharted planets before sending humans. ANALOG-1, part of a European Space Agency initiative, tests communications, operations and control strategies for robots. Previous studies have shown that humans experience degraded sensorimotor functions in microgravity that could affect their operation of a robot. The space station makes it possible to investigate these issues under true microgravity conditions by having crew members in space control a rover on Earth. Maneuvers include selection, collection and storage of geologic samples with a multi-purpose robotic arm and navigating the rover along a defined path. Testing Personal Protective Equipment for Astronauts
Image above: The AstroRad vest undergoes fit testing at the Kennedy Space Center before launching to the space station for astronaut evaluation of ease of use and comfort. Credits: Lockheed Martin Space. Image Credits: NASA. Astronauts need protection from exposure to radiation, especially as they travel to the Moon and Mars. Unpredictable solar particle events, for example, could deliver, in just a few hours, a radiation dose high enough to cause serious health problems. The AstroRad Vest investigation tests a garment that shields specific, radiation-sensitive organs, tissues and stem cell concentrations, which could reduce the risk. Astronauts wear the garment while performing daily tasks and provide feedback such as how easy it is to put on, how it fits and feels, and the range of motion it allows. 3D Printing with Recycled Materials
Image above: The Made in Space Recycler hardware prepared for launch to the space station to test reprocessing plastic into 3D printing filament. Image Credit: Made In Space, Inc. Made in Space Recycler (MIS Recycler) tests systems for reprocessing plastic into 3D printing filament for creating new items in microgravity. It recycles polymers into filament for use in the Additive Manufacturing Facility, a 3D printer operating on the orbiting laboratory since 2016. The investigation looks at which materials process most effectively into 3D printing filament and which ones can be reprocessed many times without degrading. Researchers plan to analyze samples printed in space after they return to Earth and compare them to samples printed similarly on the ground. Malting Barley in Microgravity Barley contains antioxidants, vitamins and minerals. Malting converts starches from the raw grain into various sugars suitable for use in brewing, distilling and food production. Understanding how barley responds to microgravity could identify ways to adapt it for nutritional use on long-duration spaceflights. Malting ABI Voyager Barley Seeds in Microgravity tests an automated malting procedure and compares malt produced in space and on the ground for genetic and structural changes. Faster, Cheaper Access to Space NanoRacks-Craig-X FTP is a platform for several investigations, including a collaboration between Automobili Lamborghini and the Houston Methodist Research Institute that tests the performance of 3D-printed carbon fiber composites in the extreme environment of space. The materials are designed for use in aerospace applications, but results could replace lengthy and expensive carbon fiber manufacturing methods on Earth. In addition, the study may help improve the design of implantable devices for therapeutic drug delivery developed by Houston Methodist Research Institute. Dinner, Fresh from the Oven
Image above: The specially-designed Zero-G Oven, a tool for examining heat transfer properties and the process of baking food in microgravity. Testing this oven on the space station may lead to the capability of preparing fresh-baked food on spacecraft for future deep space explorers. Image Credit: Zero G Kitchen. Everyone enjoys the aroma of fresh-baked cookies, even astronauts. On future long-duration space missions, fresh-baked food could have psychological and physiological benefits for crew members, providing them with a greater variety of more nutritious meals. Zero-G Oven examines heat transfer properties and the process of baking food in microgravity. It uses a specially-designed toaster-like oven with a top temperature of 363.3 degrees Celsius or 685 degrees Fahrenheit. Studying the Effect of Dark and Light on Liver Health Microgravity as a Disruptor Of The 12-hour Circatidal Clock (Rodent Research-14) studies how disruptions to daily light cycles affect human cells and organs. Recent research shows that genes associated with 12-hour light and dark phases, or the 12-hour molecular clock, also are associated with the most common form of human liver disease. Liver disease contributes to insulin resistance and diabetes. The 12-hour clock’s role in controlling proper liver function has major implications for maintaining human health. Results could provide insights into liver disease and reveal new therapies, including pharmaceuticals.
Scientific Investigations Set for Space on Northrop Grumman CRS-12
Related links: Northrop Grumman Cygnus: https://www.nasa.gov/mission_pages/station/structure/launch/northrop-grumman.html Alpha Magnetic Spectrometer - 02 (AMS-02): https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=729 ANALOG-1: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=1863 AstroRad Vest: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=7803 Made in Space Recycler (MIS Recycler): https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=7745 Additive Manufacturing Facility: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Facility.html?#id=1934 Malting ABI Voyager Barley Seeds in Microgravity: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=7911 NanoRacks-Craig-X FTP: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=7759 Zero-G Oven: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=7993 Rodent Research-14: https://www.nasa.gov/mission_pages/station/research/experiments/explorer/Investigation.html?#id=7906 Spot the Station: https://spotthestation.nasa.gov/ Space Station Research and Technology: https://www.nasa.gov/mission_pages/station/research/index.html International Space Station (ISS): https://www.nasa.gov/mission_pages/station/main/index.html Images (mentioned), Video (NASA), Text, Credits: NASA/Michael Johnson/JSC/International Space Station Program Science Office/Melissa Gaskill. Best regards, Orbiter.ch Full article
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