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Surat, India
11-50 Employees
1996
HOME ABOUT US SERVICES PRODUCTS APPLICATIONS CONTACT US. 7/3964, A/B, Satimata Ni Sheri, Rughnathpura Road, Lal Darwaja, Surat-395003, Gujarat, India.
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Featured
MCS-300 - Sai Impex
... CERAMIC MATRIX COMPOSITES (CMCS) ...
Dover, United States
1-10 Employees
2016
Applying the spectrum of materials science principles to helping clients build better products.
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Home | Spectrum Materials Engineering l Dover l Massachusetts
... This includes related areas of expertise and capabilities; Steels, Aluminums, Heat Treating, Corrosion Engineering, Materials Specification Writing, Polymer Composites, Ceramic Matrix Composites, Failure Analysis, Design of Materials, Metallurgy ...
San Diego, United States
11-50 Employees
1999
Delivering the most robust high temperature technology solutions at the lowest production cost with certainty, speed and commitment. Years of Experience Building Some of the World’s Most Advanced Exhaust Components for Commercial and Military Use. We Offer an Array of Advanced Ceramic Products & Solutions.
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Featured
COI Ceramics
... Ceramic Matrix Composites ...
Heilbronn, Germany
1-10 Employees
2018
A twenty years long lasting development of innovative ceramic high performance rocket thrust chamber technology.
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Featured
ABOUT US - bea-spaces Webseite!
... Based initially on transpiration cooled high enthalpy CMC (Ceramic Matrix Composites) space structures. Flew in 2018 into the DLR Spin-Off Black Engine Aerospace, aiming on the industrial technology transfer into the ‚New Space‘ Data foundation 26.01.2018. ...
Imola, Italy
1-10 Employees
2020
Our products have been invented for thermal protection systems of the next generation of hypersonic vehicles and rocket motor inserts (nozzle, chamber etc) of satellite launchers, demonstrating to perform much better than conventional ones and showing superior durability. With its innovative products, K3RX is well on its way to becoming a worldwide leader in extremely hot and harsh environment applications. K3RX manufactures tiles in UHTCMC material, e.g tiles forming the Thermal Protection System (TPS) of hypersonic vehicles that should resist the stresses during launch and re-entry into Earth’s atmosphere. K3RX is manufacturer of erosion resistant rocket nozzles for the aerospace industry (hybrid and solid propellant propulsion). K3RX products originate their amazing properties from carbon fiber reinforced ultra high temperature ceramic matrix composites (UHTCMCs) – an innovative class of materials which combine the superior erosion/ablation resistance of Ultra-high temperature ceramics (UHTCs) at extreme hot and harsh environments and advantages of current ceramic matrix composites (CMCs) such as toughness, thermal shock resistance and damage tolerance. In the space sector K3RX offers products with enhanced properties without production of pollutant particulate during manufacturing and serving, as required for the next generation re-suable space vehicles. K3RX is able to produce an innovative class of materials which combine the superior erosion/ablation resistance of ultra-refractory ceramics in extremely hot and harsh environments with thermal shock resistance and damage tolerance typical of C/C. K3RX process is fast thanks to the innovative process of manufacturing.
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Featured
K3RX – High Tech Materials & Components
... Carbon fiber reinforced Ultra-High Temperature Ceramic Matrix Composites (UHTCMCs) ...
Annapolis, United States
11-50 Employees
1991
Primary technologies include Additive Manufacturing (3D Printing) of ceramics and metals, low cost fabrication of fiber reinforced ceramic matrix composites (CMCs) and refractory chemical vapor deposited (CVD) coatings, transparent ceramics for ballistic armor and optical applications, and magnetron sputtered (PVD) coatings for lubrication, wear resistance and environmental barrier coatings for CMCs. TA&T also provides a host of services that include 3D printing, PVD-CVD coatings, material processing-CMCs, CIP, PS, HP, HIP, and material characterization for powders and finished parts-TGA/DSC, PSD. SA, Dilatometry, UV-VIS and FTIR transmission, haze and clarity. Technology Assessment & Transfer specializes in high technology, developing and commercializing advanced materials for defense, bio-medical and industrial applications. © 2023 Technology Assessment & Transfer, Inc | All Rights Reserved | Privacy Policy.
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Advanced Ceramic Composites & Coatings | Tech Assess
... Ceramic Matrix Composite ...
Oswestry, United Kingdom
11-50 Employees
2000
For over 20 years, Acota has been the specialty materials distributor of choice for industry throughout the UK and Europe. We deliver products to you for testing or we offer the facility to evaluate your product at our premises where we analyse the efficiency of a process at a molecular level. We are the preferred UK authorised channel for 3M Novec Engineered Fluids. Acota is a BS EN ISO9001:2015 registered company for quality systems. Acota supplies a wide range of fluorochemical and speciality materials to industry. We bring together chemical and engineering disciplines to provide cleaning, coating and fluorochemical fluids for a wide range of applications. With an experienced technical team, including chemists, we facilitate and deliver resolutions for our customers. Our customers often take the opportunity to test products before purchase.
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Featured
3M Nextel Composites | Specialty Material Suppliers - Acota
... Ceramic Matrix Composite (CMC) ...
Bristol, United Kingdom
1-10 Employees
2020
The National Composites Centre was created as the UK’s Centre of Excellence for Composites Research and Development following the inclusion of this disruptive technology into government industrial strategy. A vibrant and cultural city, Bristol is a was selected due to the dual pull of the world-ranked research excellence of the University of Bristol and proximity to many of the NCC’s founding members who are based in the technology rich, south-west region of the UK. In the intervening 10+ years, the National Composites Centre has become a true Strategic National Asset that holds the IP of the nation, having grown both its team and the size of its facility. The NCC is currently home to over 450 composites experts with an additional 200 at the University of Bristol. Over £300m has been invested in state-of-the-art capabilities and knowledge that allows the NCC to convene innovators, provide expertise to deliver R&D; and to pull technology through from fundamental research to industrial application. The NCC operates in sectors as diverse as transport, defence, space, construction, infrastructure, leisure, energy and medical. We do this by digitally optimising composites design and manufacturing to create sustainable products; by building UK supply chains to deliver productivity and growth for the UK; and by developing the workforce of today and tomorrow to allow the UK to hold a global position in composites R&D. The National Composites Centre is a pivotal member of the UK’s Composite Leadership Forum which works to influence the Government and other bodies to bring together support for composites and ensure growth and industrial success for the UK.
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Featured
Ceramic Matrix Composites | National Composites Centre
... Ceramic Matrix Composites | National Composites ...
Dallas, United States
11-50 Employees
2006
Pyromeral Systems develops and manufactures advanced materials and composite parts for applications requiring resistance to high temperatures or fire barrier. Pyromeral Systems brings a smart alternative when conventional composites, metals or ceramics fail to deliver the desired performance. Our unique technologies based on innovative inorganic polymers and glass-ceramic matrices are designed for continuous exposure to temperatures as high as 1000°C (1800°F). They provide convenient, lightweight and durable solutions for industrial processes, motorsports and aerospace applications.
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Featured
Technology - Pyromeral
... Structural Composites Bridging the Gap between Carbon Fiber Reinforced Plastics (CFRP) and Ceramic Matrix Composites (CMC) ...
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 Ceramic Matrix Composites
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 16 |
| Amount of suitable service providers | 13 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1991 |
| Youngest suiting company | 2021 |
Ceramic Matrix Composites (CMCs) are specialized materials that combine ceramic fibers embedded within a ceramic matrix. This integration results in a composite that retains the high-temperature stability and wear resistance characteristic of ceramics, while also imbuing the material with improved toughness and resilience to fracture compared to traditional ceramics. The essence of CMCs lies in their ability to withstand extreme environments, making them pivotal in industries where high temperature, corrosion, and wear are prevalent concerns. Notably, in the aerospace sector, CMCs are revolutionizing engine designs by enabling higher operating temperatures, significantly boosting efficiency and performance. Similarly, in automotive applications, their thermal resistance and lightweight nature contribute to enhanced engine efficiency and durability. The advent of CMC technology marks a significant leap forward in material science, offering a blend of properties that were previously deemed incompatible. Their growing adoption across various high-stakes fields underscores their potential to drive innovation and sustainability, by leading to more energy-efficient systems and expanding the horizons of engineering applications. As research progresses, the evolving landscape of CMCs promises even broader applicability, further cementing their role as a cornerstone material in the advancement of modern technology.
1. High Temperature Resistance
Ceramic Matrix Composites (CMCs) can withstand temperatures that would degrade most metals and polymers. This characteristic makes them ideal for applications in aerospace, automotive, and energy sectors, where high temperature performance is critical.
2. Lightweight
Despite their strength, CMCs are significantly lighter than metals, contributing to fuel efficiency in automotive and aerospace applications. Their lightweight nature does not compromise their durability or performance, making them a superior choice for weight-sensitive applications.
3. Corrosion Resistance
CMCs exhibit excellent resistance to corrosion and wear, outperforming metals in harsh environments. This resistance extends the lifespan of components made from CMCs, reducing maintenance and replacement costs over time.
4. Enhanced Durability
The inherent toughness of CMCs leads to enhanced durability, especially under conditions of thermal shock and mechanical stress. This durability ensures that components maintain their integrity and functionality over a longer period, even in demanding conditions.
While evaluating the different suppliers make sure to check the following criteria:
1. Quality Certifications
Ensure the supplier possesses industry-recognized certifications (e.g., ISO 9001) that validate their commitment to quality and consistency in producing Ceramic Matrix Composites.
2. Material Properties
Examine the specific properties of the ceramic matrix composites such as thermal stability, fracture toughness, and creep resistance to ensure they meet your application requirements.
3. Customization Capabilities
Assess the supplier's ability to provide customized solutions. This includes modifying the composite's composition, fiber content, and surface treatments to suit your unique needs.
4. Supply Chain Reliability
Evaluate the robustness of the supplier's supply chain to ensure timely delivery, especially considering the specialized nature of ceramic matrix composites.
5. Technical Support and Service
Consider the level of technical support and after-sales service offered. A supplier with a strong support team can provide valuable assistance in material selection and troubleshooting.
6. Cost-effectiveness
While quality is paramount, comparing cost among suppliers for the best value offer without compromising the material specifications is essential.
Ceramic Matrix Composites (CMCs) are revolutionizing the aerospace industry by offering materials that can withstand extreme temperatures without compromising structural integrity. This durability makes CMCs ideal for jet engine components, where they significantly reduce weight and improve fuel efficiency. Their resistance to high temperatures also extends the lifespan of these parts, resulting in lower maintenance costs and enhanced performance. In the automotive sector, CMCs are being utilized to create more efficient and heat-resistant brake systems. The material's ability to withstand high friction and temperatures without degrading makes it perfect for high-performance vehicles. This application not only improves safety but also elevates the driving experience by providing more responsive and durable braking systems. Within the energy sector, CMCs play a crucial role in the development of more efficient and reliable power generation equipment. Their high-temperature tolerance enables the construction of gas turbine components that can operate at higher temperatures, thus improving the efficiency of power plants. This capability is essential for meeting the growing global demand for energy while also reducing greenhouse gas emissions. The versatility and superior properties of Ceramic Matrix Composites are paving the way for innovative applications across these industries. By enhancing performance while reducing environmental impact, CMCs are at the forefront of material technology, offering sustainable solutions for the challenges faced by various sectors.
Ceramic Matrix Composites (CMCs) have reached a Technology Readiness Level (TRL) of 6 to 7 in specific applications, particularly in aerospace and defense sectors. This classification indicates that CMCs have been demonstrated in relevant environments, showcasing their potential for integration into existing systems with a significant degree of confidence. The primary factor driving this TRL is the successful demonstration of these materials' ability to withstand high temperatures and corrosive environments while maintaining structural integrity, which is critical for applications such as jet engine components and thermal protection systems. The progression to such a TRL has been facilitated by advancements in manufacturing processes, such as chemical vapor infiltration and matrix impregnation, which have improved the durability and reliability of CMCs. However, their widespread adoption across various industries is hampered by challenges related to cost, scalability of production, and the need for further validation under operational conditions. These technical hurdles underscore the importance of ongoing research and development efforts aimed at enhancing the properties of CMCs, optimizing manufacturing techniques, and demonstrating their performance in increasingly complex operational scenarios.
In the Short-Term, advancements in Ceramic Matrix Composites (CMCs) are expected to focus on improving manufacturing processes. Innovations such as additive manufacturing and advanced sintering techniques will enable more precise control over the microstructure of CMCs, leading to enhanced mechanical properties and reliability. This phase will also see the development of lower-cost production methods, making CMCs more accessible for a broader range of applications, particularly in the aerospace and automotive industries. The Mid-Term developments are poised to introduce novel CMC formulations that expand their operational temperature range and environmental resistance. Researchers are expected to discover new ceramic fibers and matrices that, when combined, offer superior thermal stability and resistance to oxidation and corrosion. This period will also witness the integration of CMCs with smart sensors to monitor structural health in real-time, significantly enhancing the safety and longevity of components in high-stress environments. Looking into the Long-Term, the horizon of CMC technology will be marked by the advent of self-healing and shape-memory ceramics. These materials will have the capability to repair minor cracks and damages autonomously, drastically extending their service life. Furthermore, the exploration of CMCs in space exploration and energy applications will be a significant focus, with materials designed to withstand the harsh conditions of outer space and the extreme environments of next-generation nuclear reactors.
