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Digital Engineering Technology & Innovation (DETI)
Bristol, United Kingdom
A
1-10 Employees
2020
Key takeaway
The National Composites Centre (NCC) is a key player in the development and research of Ceramic Matrix Composites, leveraging over £300m in state-of-the-art capabilities and a team of 450 composites experts to drive innovation and industrial application in this advanced material field.
Highlighted product
Product
Ceramic Matrix Composites | National Composites Centre
Advanced Ceramics Manufacturing
Tucson, United States
B
- Employees
-
Key takeaway
Advanced Ceramics Manufacturing (ACM) specializes in advanced ceramics for applications in aerospace and defense, highlighting their expertise in developing innovative products and processes. Their focus on technological innovation and high-quality manufacturing solutions positions them as leaders in the field, particularly in aerospace ceramic applications.
Highlighted product
Product
Aerospace Ceramic Applications - Advanced Ceramics Manufacturing
Innerco Sp. z o.o.
Krakow, Poland
B
11-50 Employees
2012
Key takeaway
The company specializes in Metal Matrix Composites (MMC) technologies, which may be relevant to the production of advanced ceramic matrix composites. Their focus on high-functionality cast structural elements reinforced with composite layers indicates expertise that could extend to related composite technologies.
Highlighted product
Core business
Innerco - Metal Matrix Composite Castings
Metal Matrix Composites Technologies
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Matrix Composites
Rockledge, United States
B
101-250 Employees
1993
Key takeaway
Matrix Composites is a trusted source for critical composite fabrication, specializing in the design and manufacturing of high-quality ceramic matrix composites for military, aerospace, and commercial aviation sectors. Their advanced composite products are integral to various aerospace applications, ensuring outstanding results in quality and performance.
Highlighted product
Core business
Precision Aerospace Component Manufacturer | Matrix Composites
Carbon Composites Inc.
Leominster, United States
B
11-50 Employees
1985
Key takeaway
Carbon Composites Inc. (CCI) manufactures a unique portfolio of composite materials suitable for high temperature applications, which may include ceramic matrix composites. Their commitment to quality and understanding customer needs underpins their tradition of excellence in this field.
Highlighted product
Product
carbon | Carbon Composites Inc
High Tech Material Solutions
Auburn, United States
B
11-50 Employees
2018
Key takeaway
HTMS is a supplier of advanced ceramic materials and machined components, including alumina, zirconia, and silicon carbide, which are relevant to the field of ceramic matrix composites. Their expertise in custom fabrication and high-quality materials positions them as a key player in this industry.
Highlighted product
Core business
High Tech Material Solutions buy Refractory Metals, Tungsten, Ceramics, Crystals
HTMS offers custom fabricated components and semi-finished stock from tungsten, refractory metals, ceramics, sapphire, heat sinks, crystals
Metal Matrix Innovations
Cleveland, United States
B
11-50 Employees
2013
Key takeaway
Metal Matrix Innovations (MMI) specializes in designing and manufacturing lightweight metal matrix composites, including innovative aluminum brake discs enhanced with ceramic materials. This focus on advanced composite technology highlights MMI's expertise in creating high-performance automotive components.
Highlighted product
Core business
Home - Metal Matrix
The future is here. New lightweight aluminum brake discs with selectively placed ceramic enhancement. our product Alumatrix Brakes Lightweight metal matrix composite brake discs that provide a highly uniform, aluminum silicon carbide composite located only on the friction surface. Learn…
CeraMaterials
Delaware Township, United States
B
1-10 Employees
2006
Key takeaway
CeraMaterials specializes in high-temperature refractory materials, including sintered ceramics and ceramic fiber insulation, making it a relevant resource for those interested in ceramic matrix composites. With a strong sales team and a network of warehouses, they ensure quick delivery and great value for these specialized materials.
Highlighted product
Core business
CeraMaterials - "Your One-Stop-Shop for Thermal Processing"
Your One-Stop-Shop For Thermal Processing Materials Shop Now RFQ
Advanced Ceramic Fibers, L.L.C.
Idaho Falls, United States
B
11-50 Employees
2012
Key takeaway
ACF is actively researching its Fi-Bar™ fibers as a key component in ceramic matrix composites for applications in turbine engines and space travel. These fibers offer exceptional strength and high-temperature resistance, making them ideal for advanced materials in extreme environments.
Highlighted product
Core business
About Us – Advanced Ceramic Fibers
Advanced Ceramic Materials (ACM) Corporation
Lake Forest, United States
B
11-50 Employees
1996
Key takeaway
Advanced Ceramic Materials (ACM) Corporation specializes in supplying high-quality advanced ceramic products, including materials like boron nitride and silicon carbide, that are essential for various applications in industries such as aerospace and automotive. Their commitment to stringent quality control and understanding of production processes ensures that they meet the R&D and production needs of their customers effectively.
Highlighted product
Core business
High Quality Ceramic Material Supplier | Advanced Ceramic Materials
We are Advanced Ceramic Materials and we supply people and companies with advanced ceramic materials all over the world. We help and provide advice on what precise ceramics are best to suit any specific application.
Technologies which have been searched by others and may be interesting for you:
Ceramic Matrix Composites (CMCs) are advanced materials that combine ceramic fibers with a ceramic matrix. This synergy enhances the material's mechanical properties, allowing for improved toughness and resistance to thermal shock. CMCs are known for their lightweight characteristics and high-temperature stability, making them ideal for applications in aerospace, automotive, and industrial environments. The unique structure of CMCs enables them to withstand extreme conditions where traditional materials might fail. They exhibit excellent wear resistance and can function effectively in corrosive environments, contributing to their growing popularity in demanding sectors. The integration of these materials into various applications is driven by the need for improved performance and durability.
1. High Temperature Resistance
Ceramic Matrix Composites (CMCs) are known for their exceptional ability to withstand high temperatures, making them ideal for applications in environments where metals may fail. This property is particularly beneficial in industries such as aerospace and automotive, where components are subjected to extreme thermal conditions.
2. Lightweight
CMCs are significantly lighter than traditional metal counterparts. This reduction in weight can lead to improved fuel efficiency in vehicles and aircraft, as well as enhanced performance in various applications. The lightweight nature of CMCs allows for innovative designs that can enhance overall functionality.
3. Corrosion Resistance
These composites exhibit excellent resistance to environmental degradation, including oxidation and corrosion. This durability extends the lifespan of components and reduces maintenance costs in industrial settings, making CMCs a cost-effective solution for long-term applications.
4. Enhanced Mechanical Properties
Ceramic Matrix Composites offer superior mechanical strength and stiffness compared to conventional materials. This strength allows for greater design freedom in manufacturing components that can endure significant stress and strain, thus improving reliability and safety in various applications.
Ceramic Matrix Composites (CMCs) offer several advantages over metal alloys in terms of performance. They exhibit superior thermal resistance, allowing them to function effectively at higher temperatures without losing structural integrity. This characteristic makes CMCs particularly suitable for aerospace and automotive applications where heat management is critical. Another significant benefit is their lower density compared to metal alloys, leading to weight savings in applications where reducing mass is essential for efficiency. Furthermore, CMCs have excellent wear resistance and corrosion resistance, making them more durable in harsh environments. In contrast, metal alloys may suffer from oxidation and degradation over time, limiting their lifespan and reliability in similar conditions. Thus, while both materials have their unique strengths, CMCs often outperform metal alloys in demanding applications.
Ceramic Matrix Composites (CMCs) are increasingly utilized in aerospace due to their exceptional properties. One primary application is in turbine engines, where they are used for components like combustion liners and turbine blades. CMCs can withstand higher temperatures than traditional materials, leading to improved engine efficiency and performance. Another significant application is in thermal protection systems for spacecraft. CMCs provide excellent heat resistance and lightweight characteristics, making them ideal for protecting vehicles during re-entry into the Earth's atmosphere. Their capability to maintain structural integrity under extreme conditions enhances the safety and reliability of aerospace missions.
The durability of Ceramic Matrix Composites (CMCs) is influenced by several critical factors. Material composition plays a significant role; the choice of ceramic and reinforcement materials can determine how well the composite withstands high temperatures and mechanical stress. Another important factor is processing methods, which include the techniques used to create the CMCs. These methods can affect the microstructure, porosity, and overall integrity of the composite. Additionally, environmental conditions such as exposure to thermal cycling, oxidation, and humidity can impact the long-term performance of CMCs. Understanding these factors is essential for optimizing the durability of Ceramic Matrix Composites in various applications.
Some interesting numbers and facts about your company results for Ceramic Matrix Composites
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 7263 |
| Amount of suitable service providers | 6347 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1985 |
| Youngest suiting company | 2020 |
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Some interesting questions that has been asked about the results you have just received for Ceramic Matrix Composites
What are related technologies to Ceramic Matrix Composites?
Based on our calculations related technologies to Ceramic Matrix Composites are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials
Who are Start-Ups in the field of Ceramic Matrix Composites?
Start-Ups who are working in Ceramic Matrix Composites are Digital Engineering Technology & Innovation (DETI)
Which industries are mostly working on Ceramic Matrix Composites?
The most represented industries which are working in Ceramic Matrix Composites are Other, Manufacturing, Machinery Manufacturing, Electronics and Electrical engineering, Mining
How does ensun find these Ceramic Matrix Composites 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.
