We are excited to present our solventless release coating system for release liners, designed to contribute to a more sustainable future. 𝐊𝐞𝐲 𝐅𝐞𝐚𝐭𝐮𝐫𝐞𝐬: • Solvent-free: Environmentally friendly. • High-speed curing at lower temperatures: Enhances efficiency and reduces energy consumption. • Lower Pt levels: Minimizes the use of precious metals. • Easy formulations: Simplifies the production process. • Excellent long-term RF stability: Ensures consistent performance. • Strong anchorage on Glassine and SCK: Provides reliable adhesion. • Good coverage at low coating weights: Efficient material usage. 𝐏𝐫𝐨𝐝𝐮𝐜𝐭 𝐒𝐩𝐞𝐜𝐢𝐟𝐢𝐜𝐚𝐭𝐢𝐨𝐧𝐬 (𝐊𝐍𝐒-𝟒𝟏𝟎𝐌): • Viscosity: 400 mPa·s • Appearance: Transparent • Silicone content: 100% Join us in advancing sustainable solutions with SHIN-ETSU SILICONE FLASH CURE™ 𝘝𝘪𝘴𝘪𝘵 𝘶𝘴 𝘢𝘵 𝘰𝘶𝘳 𝘣𝘰𝘰𝘵𝘩 𝘢𝘵 𝘓𝘢𝘣𝘦𝘭 𝘌𝘹𝘱𝘰 𝘈𝘮𝘦𝘳𝘪𝘤𝘢𝘴 2024 𝘚𝘦𝘱𝘵𝘦𝘮𝘣𝘦𝘳 10-12𝘵𝘩 𝘣𝘰𝘰𝘵𝘩 # 134
Shin-Etsu Silicones of America’s Post
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#marketanalysis #textileindustry #technology #tech The manufacturing world is transforming, driven by a dual focus on innovation and sustainability. In this quest for a greener and more efficient future, the carbon mould market stands out as a leader. Let's explore the reasons behind this exciting growth and delve into the factors propelling this market forward. Read more : - https://lnkd.in/g7uevGca
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Engineering Antimicrobial Materials: Tailoring Properties for Diverse Applications https://lnkd.in/exqFpgZS Meeting the needs and expectations of end-users through innovative product design is more challenging than ever. Developing antimicrobial materials can be a solution to innovation but it also presents its own challenges as it requires balancing advanced technological capabilities with practical applications. By engineering antimicrobial properties into various materials, including elastomers, commodity plastics, and engineering plastics, BioCote® can transform product performance and address the diverse requirements of different applications. This process underscores the intricate balance between technology and user-centric design. David Hall, Josela R. #Antimicrobial #Additives #PlasticMaterials #AntimicrobialPlastics #PlasticsIndustry #UKmfg
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Scientists at Aarhus University in Denmark have developed a technology capable of separating elastane, an elastic material, from other fibers in clothing. The method involves heating the material to 225 degrees Celsius and adding a specific type of alcohol, which dissolves the elastane bonds. The process occurs in a large pressure cooker-like apparatus. While the technology is not yet ready for industrial implementation, researchers believe it could benefit from collaboration with the chemical industry, particularly in countries like Germany. The method is currently effective for nylon, and the team aims to make minor adjustments for compatibility with cotton. This development holds promise for enhancing the sustainability of textile manufacturing by facilitating the re-use of fibers. #textileindustry #textileinnovation #sustainablefuture #aladdin365
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Application of Silicone coating in technical textile - The market for silicone coatings in technical textiles is expected to grow significantly, with a projected compound annual growth rate (CAGR) of around 6-8% in the coming years. This growth is driven by increasing demand for high-performance materials across various industries, including automotive, aerospace, and healthcare. Emerging markets, particularly in the Asia-Pacific region, are also accelerating the adoption of technical textiles. The potential for silicone coatings in technical textiles is substantial as industries continue to require materials that provide enhanced durability, flexibility, and resistance to extreme conditions. Additionally, advancements in smart textiles and sustainable materials are opening up new opportunities for silicone coatings, positioning them as essential components in the evolving landscape of technical textile applications.
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🧶Fabric | Sales Director | Extensive Market Knowledge | Leadership and Teamwork | Diverse Product Expertise | 21 years in the textile industry
Do you know fabrics that can clean themselves❓ 💡I recently noticed that self-cleaning textiles developed using nanotechnology can effectively resist dirt and bacteria, reduce the frequency of washing, and extend the service life of fabrics. ✅Self-cleaning textile technology imitates the self-cleaning principle of lotus leaves, so that textiles have a self-cleaning effect similar to lotus leaves, which can effectively prevent accidental stains in life. Its core technology is that it has "three-proof" functions without affecting the moisture absorption and breathability of the fabric itself. 🌏The development of self-cleaning functional textiles can alleviate the environmental and energy problems caused by washing. However, the current research status of self-cleaning textiles shows that there are still many key issues to be further developed. For example, the efficiency of photocatalysts is limited by light conditions, and the decomposition efficiency of different types of stains may be different. The durability and safety of some nanomaterials are still under study. #Layo #Fabric #Textile #Fashion #Clothing #Garments #Trends #manufacturing #sustainable #Feature #knitting #woven #Brand
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Category leadership | Sontara | strategic marketing | B2B | B2B2C | sustainability in nonwoven industry
In a "good enough" cleaning if the product doesn't work then nothing really happens. But if you are in a #cleanroom or in #aerospace or #refinishing a car then cleaning becomes "critical". #Sontara makes sure you do not have to worry about this when cleaning actually matters. Discover more about #Sontara
Introducing the New Sontara® Product Catalogue! Sontara® is the premier choice for nonwoven fabrics that deliver unmatched performance across industries. Our innovative solutions are designed to meet your unique needs from Aerospace to Automotive, Cleanroom to Hospitality, and Printing Industry. 🌱 Sustainability at its Finest: Our EC Green wipes are not only tough and durable but also compostable, making them the eco-conscious choice for your cleaning needs. 🛠️ Innovation in Action: TriFlo Technology presents a breakthrough in nonwoven technology. Crafted with 80% plant-based materials, these wipes offer luxurious softness and enhanced absorption, free from binders or chemical additives. 🏥 Healthcare Excellence Redefined: Mediclean wipes set a new standard for strength and absorbency in healthcare settings, ensuring the highest levels of cleanliness and hygiene. 🚗 Precision in Every Wipe: Our specialised wipes for automotive and aerospace applications guarantee a flawless finish, meeting the demanding standards of these industries. Click the link below to download our catalogue and explore the full range of Sontara® products.
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The landscape of manufacturing is constantly evolving, and innovations in materials are playing a pivotal role in this transformation. From advanced composites and lightweight alloys to smart materials and sustainable alternatives, the possibilities are endless. We'd love to hear your thoughts: What innovations in materials are shaping the future of manufacturing? Share your insights in the comments below! #TuesdayTalk #IndustrialInnovation #ManufacturingTrends
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How to Reinforce Plastics Using Polymer Additives? Due to their molecular structure, plastics are often weak, stiff, and less impact resistant. Weak intermolecular forces and molecular chain structures contribute to the low strength of plastics. This limits their load-bearing capacity and structural integrity. The flexible molecular structure of plastics allows easy deformation under load (lower stiffness or modulus of elasticity). This leads to deflection and sagging in structural applications. Now you must have the question of how to navigate these challenges. Reinforcement of plastics has emerged as a viable solution. Introducing reinforcing agents into the plastic matrix significantly enhances the material's mechanical properties. Reinforcement is crucial for unlocking the full potential of plastics in diverse industries such as: · Automotive: For improved vehicle performance, crash safety, and durability · Construction materials: For innovative architectural designs, energy efficiency, and sustainable practices · Sports goods: For enhanced player performance, responsiveness, and impact resistance · Consumer goods: For better aesthetics, intricate designs, and lightweight products In addition, new technological advancements in nanomaterials and sustainability are constantly explored. These not only address the inherent weaknesses of plastics but also broaden their utility, ensuring greater reliability and longevity.
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TYRE MANUFACTURING 1- Understanding through research We study peoples' tyre usage and driving habits to make sure our tyres meet everyone's needs. 2- Developing and mixing materials Over 200 ingredients go into a tyre. They play vital roles in safety, fuel efficiency, performance and eco-friendliness. Their percentage varies according to the type of tyre to be manufactured. These components fall into five groups: * Natural rubber: the main component of the tread layers * Synthetic rubber: part of the treads of car, van and 4x4 tyres. Research is underway to develop synthetic rubber (which is essential to achieve the targeted performance) so that it is made from more sustainable materials than oil or gas. * Carbon black and silica: used as a reinforcing agent to improve durability. These components can be recycled. They can be processed and reused at the end of a tyre's life to make new tyres. * Metallic and textile reinforcement cables: the "skeleton" of the tyre, forming the geometric shape and providing rigidity. Metal can also be recycled and research is underway to investigate the reuse of some textiles, originating from consumer products other than tyres, for the manufacture of new tyres. * Numerous chemical agents: for unique properties like low rolling resistance or ultra-high grip 3- Designing We use simulations to test and select the best tyre concepts to be developed. The difficulty lies in minimising the amount of material to meet the performance criteria. These simulations allow us to predict the performance which will then be confirmed by tests. 4- Manufacturing We manufacture and reproduce each tyre in the most optimised designs possible with an optimum level of performance for both the product and the economic aspect. 5- Quality control Quality control is not an end step. We measure quality throughout the entyre process. Quality must be respected at every stage: design, manufacturing and distribution #designthinking #snsdesignthinkers #snsinstitutions
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It's not just about filtration; it's about innovation. Our team of experts is constantly pushing the boundaries to deliver advanced solutions that exceed expectations. #industrialmachinery #industrialmachine #industrial #filtermedia #filterhousing #filterbag #industrialvacuum #machinerymanufacturing #industrialmanufacturing #metalworking #metalindustry #industrialequipment #dustcollectorfilters #industrialdust #dustcollector
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RUISIL-International Sales Manager
2mowhere should be this used for? which product?