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Featured
ANTIMICROBIAL PROPERTIES OF TiO2 NANOCOMPOSITE COATING - Projekt
... causes increase of the colour change, only the one with the highest concentration (2%) proved to be unacceptable. On the other hand, as the beneficial effects of nanocomposites increase with increase of the TiO2 concentration, the nanocomposite with 1% of TiO2 should be the choice. ...
Edmonton, Canada
1-10 Employees
2014
Direct-C’s breakthrough technology consists of highly-sensitive Nanocomposite technology and other sensors that have the ability to detect small droplets of product leaks including liquid hydrocarbons, produced water and other various elements. Direct-C’s IoT devices and monitoring systems are fully integrated with the Nektar portal, allowing us to monitor your assets 24/7 and enabling you to get instant alerts from anywhere. Direct-C’s monitoring systems now offer produced water leak detection and low-temperature alerts. Learn more about how multifunctional sensors can provide critical field data to automate your asset monitoring process.
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Featured
Liquid Hydrocarbon Leak Detection | Direct-C
... Direct-C's nanocomposite technology was developed to provide rapid liquid hydrocarbon leak detection and other critical leak data. ...
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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Featured
Advanced Polymer Processing: Nanoforce Technology Limited
... Applications of Polymer Nanocomposites produced at Nanoforce: ...
Agia Paraskevi, Greece
1-10 Employees
2018
We develop multi-functional mortars and grouts for restoration, structural strengthening and health monitoring of architectural monuments, critical infrastructure and traditional buildings. AKEISTHAI develops a new category of "smart" multi-functional materials that perceive their deterioration and repair it by themselves as "living organisms", triggering the healing mechanisms. These innovative materials will ensure self-healing ability of conservation mortars, extending their service life and durability, as well as the self-diagnosis of (micro-)structural damage of mortars due to external loads.
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Featured
AKEISTHAI - Nanocomposite Conservation Mortars | Research Project
... AKEISTHAI - Nanocomposite Conservation Mortars | Research ...
Tamworth, United Kingdom
11-50 Employees
1991
Find out how our services can support your budget, project and sustainability goals. At PI-KEM, we're more than just suppliers, we're partners. We are here to make your commercial work happen. We supply standard and niche materials for your innovative research or production requirements. We have an extensive range of specialist equipment and experts on hand for advice.
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Featured
Graphene – Copper Oxide Nanocomposite - 1g
... Graphene – Copper Oxide Nanocomposite 1g - PI- ...
Our mission is to change the way that advanced materials are designed and manufactured, worldwide. Powdermet is a nationally recognized nanotechnology and advanced materials research and development organization. This 20+ person firm was founded by Andrew Sherman, who started Powdermet as a spin-out of Ultramet, Inc., in 1996. Powdermet has primarily financed their development and manufacturing operations by winning over 80 government sponsored grants, as well as manufacturing and selling nanoengineered products to multinational companies that white label Powdermet’s manufactured powders. Powdermet currently operates commercially as a toll manufacturer/service provider, carrying their research for hire and toll manufacturing for clients, but is transitioning from a toll nano-powder producer business model to a value-added materials solutions provider, focused on “clean, green, sustainable material solutions.” The company’s continuing mission is to mature and transition clean, sustainable, energy and life-saving advanced materials solutions to the marketplace. Using primarily the SBIR program, the company is developing breakthrough metallic nanocomposite products. To enable focused commercialization of development results, the company operates as a technology incubator, and partners with financial partners or larger institutions (primes, Fortune 500 companies) to address the full value chain with core competencies outside Powdermet’s advanced materials and processing competencies. Powdermet, founded in 1996, acquired an operating unit and exclusive worldwide rights to our processing technology from Ultramet in 1997.
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Featured
Hybrid Materials LLC – Extreme Coatings. Superior Performance.
... Hybrid Materials has developed a family of nanocomposite materials to address critical wear, corrosion and friction concerns in multiple industries. These nanocomposite materials demonstrate the longest-life and lowest-life-cycle-cost solution ...
East Hertfordshire, United Kingdom
11-50 Employees
1978
We have two manufacturing sites in the UK, one in Asia and distribution centres in the USA and China. Our global reach allows us to export to more than 100 countries all over the world. Our distribution centres also source and supply a range of specialty chemicals for a wide range of industries. Our clients range from start-up distributors to large multinationals. Each client benefits from Makevale’s superior products and our team’s technical know-how, while enjoying extremely competitive prices.
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Featured
High-performance polymers manufacturer and developer - Makevale
... Speciality acrylic bead polymers & formulated liquids used in 3D printing resins, dental acrylic powder, biopolymers & polymer nanocomposites ...
Lancaster, United Kingdom
11-50 Employees
1987
We are in essence a ‘One Stop Shop.’ As well as warehousing your books in our secure facility, our marketing team produce subject targeted sales material and apply social media as a tool to promote our publishers’ titles. Gazelle Book Services is a book distribution company that offers publishers the opportunity to increase their sales in the UK and throughout Europe. In recent times Lancaster is also well-known for its University, founded in 1964 and one of the top Universities in the country with students attending from around the world. The book distribution business is constantly changing and we are well positioned to adapt to these changes. Continued focus on sourcing personnel that will both compliment and add further value to the Gazelle brand, to actively look to extend our network of sales and to invest in additional channels and new ideas that would benefit us, our publishers and our clients. Receive information on our latest titles and offers.
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Featured
Nanocomposites — Gazelle Book Services Ltd
... updated view of the synthesis, characterisation and applications of different kinds of nanocomposites. It includes 9 review chapters and 8 research chapters. The review articles introduce various nanocomposites like polymer-based nanocomposite (polymer-based carbonaceous ...
Jerez, Spain
11-50 Employees
2007
NANOTURES is a composite company located in Jerez de la Frontera in southern Spain. We are an engineering and manufacturing company with large experience in design, CAE analysis,manufacturing and quality control. Nanotures develops complete solutions around material and process requirements, including design, prototyping, industrialization and transfer. Nanotures wants to be a benchmark company in conductive (nano)composites. The quality and environment management system of the company NANOTURES has been certified according to UNE EN ISO 9001:2015 and UNE EN ISO 14001:2015 for their activities. We have a team of highly qualified professionals, unique and facilities and state-of-the-art equipment to offer a service with maximum guarantees.
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Featured
Composites y diseño estructural | Internacional | Nanotures
... Nanotures es una empresa de origen español especializada en nanomateriales, nanocomposites y composites a nivel internacional. Pídanos más información. ...
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 Nanocomposite
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 53 |
| Amount of suitable service providers | 44 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1978 |
| Youngest suiting company | 2021 |
A nanocomposite is a multiphase solid material where at least one of the phases has one, two, or three dimensions of less than 100 nanometers (nm), or structures having nano-scale repeat distances between the different phases that make up the material. The use of nanoscale reinforcements leads to enhancements in the physical, chemical, and mechanical properties of the composite material without significant increases in weight. These improvements can include increased tensile strength, chemical resistance, and thermal stability, among others. Nanocomposites are a noteworthy advancement in the field of materials science, finding applications across a broad spectrum of industries, including aerospace, automotive, electronics, and biomedicine. For instance, in the aerospace industry, the integration of nanocomposites has led to the development of materials that are not only lighter, thereby reducing fuel consumption, but also more durable and resistant to extreme environmental conditions. Similarly, in the realm of electronics, nanocomposites contribute to the creation of smaller, more efficient devices with enhanced performance characteristics. The versatility and superior properties of nanocomposites mark a significant leap forward, offering promising solutions to many contemporary engineering and technological challenges.
1. Enhanced Mechanical Properties
Nanocomposites offer a significant improvement in strength, durability, and stiffness compared to traditional composite materials. By incorporating nanoparticles into their structure, these advanced materials achieve superior mechanical performance, making them ideal for applications requiring high levels of reliability and resilience.
2. Improved Thermal Stability
Nanocomposites exhibit enhanced thermal stability, withstanding higher temperatures without degrading. This characteristic is particularly beneficial in industries such as aerospace and automotive, where materials are exposed to extreme conditions. The improved thermal resistance of nanocomposites extends their lifespan and reduces the need for frequent replacements.
3. Lightweight Nature
One of the most appealing advantages of nanocomposites is their lightweight nature. Despite their robustness, these materials are significantly lighter than their conventional counterparts. This reduction in weight contributes to energy efficiency, particularly in transportation applications, leading to lower fuel consumption and reduced emissions.
4. Increased Electrical Conductivity
Nanocomposites also offer enhanced electrical conductivity, making them useful in various electronic and electrical applications. This property is achieved by the uniform dispersion of conductive nanoparticles within the composite material, providing a pathway for electrical charge and thus expanding their utility in the electronics industry.
While evaluating the different suppliers make sure to check the following criteria:
1. Material Quality
Ensure the nanocomposites meet industry standards for quality and performance. High-grade materials contribute to better durability and effectiveness in applications.
2. Customization Capabilities
Assess the supplier's ability to customize nanocomposite materials according to specific project requirements. This flexibility is crucial for tailored applications.
3. Cost Efficiency
Compare pricing to ensure you get the best value for your investment. However, consider the balance between cost and quality to avoid compromising on performance.
4. Supply Chain Reliability
Evaluate the supplier's track record for reliable delivery and their ability to maintain steady supply chains. Consistency is key to avoiding project delays.
5. Technical Support
Determine the level of technical support offered. Comprehensive support services signify a commitment to customer satisfaction and can be invaluable for troubleshooting.
6. Environmental Compliance
Check the supplier's adherence to environmental regulations and their commitment to sustainable practices. This is increasingly important for corporate responsibility and regulatory compliance.
7. Innovation and R&D
Investigate the supplier's investment in research and development. A focus on innovation can indicate a forward-thinking partner poised to offer advanced solutions.
Nanocomposites, with their superior strength and lightweight properties, are revolutionizing the automotive industry. They are primarily used to manufacture parts that are not only durable but also contribute to fuel efficiency by reducing the overall weight of vehicles. This application is particularly critical in electric vehicles, where battery weight is a significant concern, and any reduction in structural weight can extend the driving range. In the aerospace sector, nanocomposites play a pivotal role in enhancing the performance and safety of aircraft. They are used in the fabrication of components that require high strength-to-weight ratios, such as wings and fuselage parts. These materials contribute to lighter, yet stronger, aircraft structures that can withstand extreme pressures and temperatures, improving fuel efficiency and reducing emissions. The electronics industry benefits from the use of nanocomposites in developing more efficient, smaller, and robust components. Due to their excellent electrical conductivity and thermal stability, nanocomposites are ideal for manufacturing circuit boards, connectors, and encapsulation materials. This application significantly impacts the miniaturization trend in electronics, allowing for the production of compact, high-performance devices. In the realm of renewable energy, nanocomposites are instrumental in creating more efficient solar panels and wind turbine blades. Their enhanced mechanical properties and resistance to environmental degradation improve the durability and performance of these energy systems, making renewable energy sources more viable and cost-effective.
Nanocomposites, materials engineered by combining nanoparticles with bulk matrix materials to enhance or confer new properties, are at varying Technology Readiness Levels (TRLs) depending on their application and the specific nanomaterials used. Generally, many nanocomposite technologies are situated between TRL 4 and 6. This range indicates that nanocomposites have been validated in lab environments (TRL 4), with some advancing to small scale, prototype demonstrations in relevant environments (TRL 5-6). The reason for this placement stems from the complex nature of nanocomposites' development and testing. On a technical level, synthesizing nanocomposites that maintain consistent properties at a larger scale poses significant challenges, including ensuring uniform dispersion of nanoparticles within the matrix and maintaining the stability of these properties under varying operational conditions. Furthermore, comprehensive understanding and control over the interactions at the nanoscale between the matrix and the nanoparticles are crucial for predicting and achieving desired outcomes, which requires extensive experimentation and characterization. While progress in nanotechnology and material science continues to push the boundaries, transitioning from controlled environments to real-world applications necessitates overcoming these technical hurdles, thus reflecting the current TRL positioning of nanocomposites.
In the Short-Term, advancements in nanocomposite technology are expected to focus on enhancing material properties such as strength, durability, and electrical conductivity. Research will likely yield nanocomposites with improved performance in extreme conditions, making them ideal for applications in aerospace and automotive industries. The development of eco-friendly production methods will also be a priority, aiming to reduce environmental impact without compromising material quality. For the Mid-Term phase, the integration of nanocomposites into consumer electronics and medical devices will become more prevalent. Innovations may lead to the creation of lighter, more durable electronics and new drug delivery systems that leverage the unique properties of nanocomposites. Additionally, significant progress in the scalability of production processes is anticipated, making these advanced materials more accessible and cost-effective for widespread use. Looking towards the Long-Term, nanocomposite technology is set to revolutionize industries by enabling the creation of materials with previously unimaginable properties. Breakthroughs might include self-healing materials, highly efficient solar panels, and advanced nanocomposite-based sensors with applications ranging from environmental monitoring to personalized healthcare. The focus will be on harnessing the full potential of nanocomposites to address global challenges, such as sustainable energy and climate change mitigation, paving the way for a new era of technological innovation.
