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2017
At TOPAS Advanced Polymers, our goal is to anticipate and meet the needs of our customers and mankind for better and more useful materials. TOPAS Advanced Polymers manufactures and markets TOPAS® COC (cyclic olefin copolymer), a family of plastic resins used in advanced packaging, medical, optical and other applications worldwide. TOPAS Advanced Polymers GmbH is a subsidiary of Polyplastics Co., Ltd. TOPAS COC is sold by Polyplastics in the Americas and Asia, and by TOPAS Advanced Polymers in EMEA. TOPAS Advanced Polymers is the world’s leading maker of COC (cyclic olefin copolymer), a glass-clear and incredibly pure plastic for healthcare, packaging, and electronics applications. TOPAS COC is sold in Asia and the Americas by Polyplastics, and in EMEA by TOPAS Advanced Polymers GmbH. Our TOPAS® COC resins are a chemical relative of polyethylene and other polyolefin plastics. TOPAS Advanced Polymers is the world’s largest producer of the monomer and chemical intermediate norbornene (2-norbornene, norbornen, or norbornylene).
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SPC & How2Recycle Welcome TOPAS Advanced Polymers
... SPC & How2Recycle Welcome TOPAS Advanced Polymers | ...
San Carlos, United States
1-10 Employees
2019
TactileMS has also leveraged a diverse background in polymers, chemistry, and advanced materials to perform technical analysis in support of litigation matters and communicate our findings in a personable, easily understood, and competent manner. As the world continues to face unprecedented hurdles, one thing is certain – advanced materials and polymers will continue to play a vital role in current generation products and next-generation technology. Leveraging our background in materials science, chemistry, and business, Tactile Materials Solution’s mission is to provide well-informed insight and sharp technical analysis to empower innovators to meet these challenges head-on. Providing a new perspective on technical challenges - in product development or a specific production process. Supporting litigation or matters where there is a dispute by performing investigation, research, and technical analysis rooted in expert knowledge, and communicating our findings in a personable and competent manner. Tactile Materials Solutions was founded in 2019 to meet the growing demand for expert consultation within the rapidly evolving polymers, additive manufacturing, and advanced materials spaces. As your “ear to the ground”, we can provide valuable insights into the market landscape as well as identify ways to optimize your business strategy, production processes, and marketing materials. Find out more about the services we offer.
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Polymers and Advanced Materials Consulting
... Polymers and Advanced Materials ...
Melbourne, Australia
101-250 Employees
We are a leading manufacturer of polyurethane-based materials, acrylic coatings and synthetic turf products. Our ISO-certified manufacturing facilities create protective coatings for concrete and asphalt; recreational coatings for sport courts, tracks, and playgrounds; and a line of customizable specialty coatings to suit more particular needs. As we continue to expand globally delivering high-quality, lasting, and eco-friendly products to communities remains one of our core tenets. To reduce negative impacts on the environment, APT products are made with renewable resources and our systems are comprised of both renewable and recycled materials.
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About Advanced Polymer Technology
... Advanced Polymer Technology is a GLOBAL MANUFACTURER of chemical products, industrial / recreational coatings and specialty ...
London, United Kingdom
2005
Nanoforce Technology Limited was established in 2005; it is an open-door industry-facing research and development company committed to delivering state of the art material solutions based on advanced processing technologies. Nanoforce aims to enhance the quality and performance of customers’ products by providing technical solutions in competitive timescales. Nanoforce consists of a team of experienced professionals specialising in high performance ceramics, advanced polymer composites, process modelling and materials characterisation. Over the years, Nanoforce has created a strong strategic partnership with governments, industry and other research organisations to identify market requirement and to transform scientific expertise into diverse industrial applications in Aerospace, Creative industry, Environmental sustainable materials, Healthcare, Renewable energy, Energy storage and Biotechnology. It is driving innovation in the advanced materials sector through continuous development of industry-leading expertise, high value added products and integrated services. Each customer’s particular application is supported by our well-equipped facilities and we provide unique solutions for a wide range of topics including:.
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Advanced Polymer Processing
... Advanced Polymer Processing: Nanoforce Technology ...
East Staffordshire, United Kingdom
11-50 Employees
1948
Following this, in 1941 Dellner Brakes, a family-owned business, was founded in Sweden by Master of Science Jan Dellner. With our combined experience and production capabilities, we create industry leading solutions for all of your polymer requirements, no matter what your location. Our success has been built upon providing innovative solutions to our global customers' complex requirements, and building confidence that the products we manufacture and fabricate will perform, endure and exceed expectations.
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Products : Dellner Polymer Solutions, - advanced vibration control, rubber fabrication and bonding solutions for a global market.
... Products : Dellner Polymer Solutions, - advanced vibration control, rubber fabrication and bonding solutions for a global market. ...
Melbourne, Australia
51-100 Employees
We are proud to lead the way in innovative technology and deliver a sustainable solution to the global plastics crisis by removing plastics waste from the environment. With a $20 million dollar state-of-the-art facility and processing capability of 70,000 tonnes a year – equivalent to almost half of all plastics currently recovered across Victoria – ACP is a passionate driver of a circular economy.
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Products - Advanced Circular Polymers
... Products - Advanced Circular Polymers ...
Woburn, United States
11-50 Employees
2012
There’s intense pressure for OEMs and manufacturers to innovate and deliver capabilities that just aren’t possible with today’s materials solutions. Manufacturers understand the answer is developing new underlying technology to meet and exceed market demands.
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Advanced Polymers
... Advanced Polymers ...
Phoenix, United States
101-250 Employees
2005
We are affiliated with many nationally recognized organizations and associations. We have over 40 individual and unique products ranging from simple latex sealants to ultra-modern hybrid polyurethane sealant adhesives to expanding foam sealants. These products are ideal for sealing standing seam roofs and side walls. They provide excellent adhesion to metal, asphalt, wood and masonry substrates. XtraBond®9714 Liquid Applied Flashing is a liquid-applied flashing material certified to AAMA 714-19.
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XtraBond®9500UC – Ultra-Clear Advanced Polymer Sealant
... XtraBond®9500UC – Ultra-Clear Advanced Polymer Sealant – Premier Building ...
Carlstadt, United States
11-50 Employees
1989
The company started as a division distributing chemical products from Japanese manufacturers in the 1980’s. The business has evolved from a distributor to a formulator to a semi-manufacturer through the decades and became privately and independently owned in 2004. Advanced Polymer works closely with customers to develop environmentally compliant products for a range of applications in industries including: architectural, industrial and specialty coatings; release coatings, textiles, inks, adhesives, lubricants and personal care. Our PSA’s provide thermal resistance and electrical insulation properties. A range of products which can be used in a variety of industrial applications including crosslinkers, coupling agents, adhesion promoters, surface treatment for fillers, and moisture scavengers. Provide various properties including resistance to heat, cold, and water as well as lubrication, anti-foaming, adhesive release, and electrical insulation. A range of fluorine-free products designed to impart water resistance and stain resistance/release on various hard surfaces and textiles. Take a closer look at our products and testing equipment.
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Products & Markets – Advanced Polymer
... Products & Markets – Advanced Polymer ...
Waterford, Ireland
11-50 Employees
2017
FormaHoof can provide a solution to help support rehabilitation of the most common hoof problems such as laminitis, white line disease and more. Furthermore, FormaHoof can provide a sufficient solution to prevent several hoof related pathologies such as bruising, cracking, thrush and more. FormaHoof is easy to use and provides a solution for everyone with trimming skills.
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Advanced Polymer (AP)
... FormaHoof Advanced Polymer - Non Invasive 3D Hoof ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Advanced Polymer
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 273 |
| Amount of suitable service providers | 141 |
| Average amount of employees | 51-100 |
| Oldest suiting company | 1948 |
| Youngest suiting company | 2019 |
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Advanced polymers refer to a class of polymers characterized by their superior properties and performance compared to conventional polymers. These materials are engineered through sophisticated chemical synthesis or processing techniques, enabling enhanced functionality, durability, and adaptability. Advanced polymers are distinguished by their exceptional mechanical, thermal, and chemical resistance properties, which make them indispensable in various high-demand applications across multiple industries. In the aerospace sector, for instance, they are used to create lightweight, high-strength components that significantly reduce aircraft weight, thereby improving fuel efficiency and performance. In the medical field, advanced polymers are employed in the development of biocompatible devices and implants, offering improved patient outcomes through enhanced durability and reduced rejection rates. Furthermore, their application in the electronics industry as insulators and conductors facilitates the miniaturization of devices while maintaining or even enhancing performance. The environmental sector also benefits from advanced polymers through the development of materials that contribute to sustainable practices, such as biodegradable plastics and water purification systems. Overall, the role of advanced polymers is pivotal in driving innovation and efficiency across a broad spectrum of industries, signifying their critical impact on modern technology and sustainability efforts.
1. Enhanced Durability
Advanced polymers are renowned for their superior strength and resistance to wear and tear compared to traditional materials. This makes them ideal for applications where longevity and resilience are critical, significantly reducing the need for frequent replacements and maintenance.
2. Improved Performance
These polymers offer exceptional performance under extreme conditions, including high temperatures, corrosive environments, and high pressure. Their ability to maintain structural integrity and functionality in such conditions surpasses that of many conventional materials, ensuring reliability in critical applications.
3. Lightweight Nature
One of the most significant advantages of advanced polymers is their lightweight property. This quality is particularly beneficial in industries such as automotive and aerospace, where reducing weight can significantly enhance fuel efficiency and overall performance.
4. Eco-Friendly Options
With growing environmental concerns, advanced polymers offer more sustainable options. Many of these materials are designed to be recyclable or biodegradable, contributing to a reduction in environmental impact compared to alternatives that are less eco-friendly.
1. Product Quality
Ensure the supplier consistently delivers advanced polymers that meet industry standards for quality and performance. Look for certifications or quality assurance processes.
2. Customization Capabilities
Evaluate the supplier's ability to customize polymers according to specific applications or requirements, enhancing their suitability for your projects.
3. Supply Chain Reliability
Assess the robustness of the supplier's logistics and distribution networks. Reliable supply chains are crucial for timely deliveries and minimizing disruptions.
4. Technical Support
Check for the availability of technical support services. Expert guidance can be invaluable for troubleshooting or optimizing product use.
5. Cost-Effectiveness
Consider the overall cost-effectiveness of their offerings, including pricing, minimum order quantities, and any potential for discounts on bulk purchases.
6. Sustainability Practices
Review the supplier's commitment to sustainability, including the use of eco-friendly materials and processes. This aspect is increasingly important for meeting regulatory requirements and consumer expectations.
Advanced polymers have revolutionized the aerospace industry by providing lightweight, durable materials for aircraft components. These high-performance materials contribute to fuel efficiency and long-term endurance against extreme environmental conditions, making them invaluable for both commercial and military aviation. In the automotive sector, advanced polymers are crucial for enhancing vehicle performance and safety. These materials are used in manufacturing parts that require high strength-to-weight ratios, such as bumpers, panels, and interior features. Their versatility also supports innovation in design, allowing for more aerodynamic shapes and structures. The medical field benefits significantly from the application of advanced polymers in the creation of medical devices and equipment. These polymers are selected for their biocompatibility, flexibility, and resistance to sterilization processes. They are essential in producing a wide range of medical instruments, implants, and wearable devices, enabling advancements in patient care and treatment. In electronics, advanced polymers are key to developing smaller, more efficient, and durable devices. They are used in insulating components, connectors, and circuit boards, facilitating the miniaturization of devices without sacrificing performance. This application underscores the material's role in driving technological innovation and meeting the demand for high-performance electronic products. Overall, the versatility and advantageous properties of advanced polymers make them a cornerstone in the development and enhancement of products across these critical industries, highlighting their significance in modern technological advancements and innovation.
Advanced polymers, characterized by their superior mechanical properties, resilience, and adaptability, have ascended to various stages of the Technology Readiness Level (TRL) spectrum, largely contingent upon their specific applications and formulations. Predominantly, these innovative materials hover around TRL 4 to 6, a phase where their functionalities have been validated in a controlled environment, and prototypes are being tested in relevant contexts. This positioning is primarily due to substantial breakthroughs in polymer science, enabling the synthesis of polymers with tailored properties such as enhanced thermal stability, electrical conductivity, and biodegradability. However, the journey from laboratory synthesis to commercial application encounters hurdles, including scalability of production, consistent quality assurance across batches, and the integration of these materials into existing manufacturing processes. Furthermore, the environmental impact of their degradation products and long-term stability under operational conditions are under rigorous assessment to ensure sustainability. The specialized nature of advanced polymers necessitates extensive collaboration between researchers, industry experts, and regulatory bodies to address these challenges, thereby influencing their current TRL status. As research progresses and solutions to these technical obstacles are developed, advanced polymers are expected to advance to higher TRLs, heralding a new era of material science innovation.
In the Short-Term, advancements in advanced polymers are focusing on enhancing their sustainability and eco-friendliness. Researchers are developing bio-based polymers and improving recycling processes to reduce environmental impact. These innovations aim to replace traditional, non-degradable polymers with materials that are just as durable but significantly less harmful to the environment. This phase is characterized by incremental improvements in polymer formulation to achieve higher performance in existing applications. The Mid-Term phase sees a shift towards the development of smart polymers that can change their properties in response to external stimuli, such as temperature, pH, or light. This adaptability opens up new applications in fields like drug delivery systems, self-healing materials, and adaptive clothing. Additionally, there will be a focus on enhancing the mechanical properties of polymers, making them stronger and more resistant to wear and tear, thus broadening their applicability in construction, automotive, and aerospace industries. Looking into the Long-Term, the horizon is set on integrating advanced polymers with nanotechnology and 3D printing advancements. This integration will result in materials with unprecedented control over their microstructures, leading to custom-designed polymers for highly specific applications. These polymers could have self-assembling capabilities, enabling the creation of complex structures at the nanoscale. This phase promises revolutionary impacts across various sectors, including medicine, electronics, and energy storage, where highly specialized materials can lead to breakthroughs in performance and functionality.
Some interesting questions that has been asked about the results you have just received for Advanced Polymer
What are related technologies to Advanced Polymer?
Based on our calculations related technologies to Advanced Polymer are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials
Which industries are mostly working on Advanced Polymer?
The most represented industries which are working in Advanced Polymer are Commerce and Shopping, Manufacturing, Science and Engineering, Others, Transportation
How does ensun find these Advanced Polymer Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
