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Lebanon, United States
51-100 Employees
2002
IBC is an innovative surface engineering company that brings exceptional value to our customers and offers a great workplace for our employees. Stay up to date with new product releases and all the events IBC Materials will be attending in the future by following our social media outlets. IBC Materials & Technologies has built its capabilities on a strong foundation of research & development focused on surface engineering technologies and manufacturing for aerospace. IBC Materials & Technologies, LLC has manufactured several components for the US Air Force’s aircraft weapons systems.
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Featured
Low Friction Coatings (DLC, Ti-MoS2)
... Low friction coatings (DLC, TiMoS2) are amorphous nano-composite coatings with high hardness, for resistance to fretting, galling, and sliding wear. ...
Irvine, United States
101-250 Employees
1961
EDRO offers a wide range of specialized materials and machining services for requirements in hot work, cold work, and plastic tooling applications. EDRO provides thin film PVD/DLC coatings to improve quality, functionality, efficiency and the durability of tools, specialized parts, mold components, and firearms. From powder to parts, EDRO offers high quality BÖHLER powders for your 3D metal printing needs, as well as complete additive manufacturing solutions. EDRO can cut down time consuming coordination and offer one stop shop solutions around your tooling needs. EDRO RoyAlloy is a pre-hardened free machining 400 series stainless steel, developed specifically for improved plastics mold base tooling. Complete manufacture of high precision custom mold bases, designed to demonstrate precision alignment and long lasting performance. AS9100D certified facility ready to manufacture precision aerospace components using flexible state of the art machining capabilities to address your toughest demands. Submit your inquiry and an EDRO representative will assist you.
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Featured
DLC Coatings
... DLC Coatings – ...
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Featured
Group No.8 DLC Coating (Diamond-Like-Carbon)
... Group No.8 DLC Coating (Diamond-Like-Carbon) ...
Hingham, United States
51-100 Employees
1982
Since 1982 Dynavac has specialized in the application of high-vacuum technology in thin film deposition and space simulation. Dynavac designs and manufactures systems in Hingham MA, USA and Paris, France. At Dynavac, we design and manufacture our systems to the highest standards. Dynavac continues to make substantial investments in capital equipment to expand capacity and streamline business processes. Dynavac is committed to providing the very best design, manufacturing, test, and support capabilities in our industry to meet customers’ increasingly sophisticated needs. We are highly experienced in the role of prime- or sub-contractor when building a new facility or upgrading existing chambers. Dynavac, a leading supplier of thin film deposition and space simulation systems, is pleased to announce a major expansion of facilities, capital investment, and workforce. Learn more about Dynavac’s latest partnership with Matrix Service to commission Ball Aerospace’s next-generation Thermal Vacuum Test Facility.
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Featured
Diamond Like Carbon (DLC) coating systems for extreme applications
... Dynavac's DLC Coating Series enables reliable production of high-performance optical coatings that stand up to extreme environments. ...
Livermore, United States
1-10 Employees
2010
We are a trusted supplier of vacuum coating deposition systems and coatings. We provide anti-wear, low-friction, and durable products which may be customized to enhance flexibility, hydrophobic and high-temperature resistant (to 1200°C) qualities. We provide hard coatings on a variety of substrates, which are innovative, flexible, and cost-effective. Our customized services ensure easy production, reduced downtime and waste for firms of all sizes. At Thin Film Service, we deliver consulting, designing, developing, and manufacturing turnkey systems with cutting-edge data logging capabilities. This helps us provide excellent customer support and offer our clients a competitive edge. All products leave the factory either with an UL label and/or a CE label. At Thin Film service we design, manufacture a variety of thin film deposition systems and etchers.
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Featured
Thin Film Service | DLC coating and system experts since 2002
... Thin Film Service | DLC coating and system experts since ...
East Petersburg, United States
51-100 Employees
1978
Initially, the focus of RPI was carbide insert manufacturing and refurbishment. For this reason, we design, manufacture and maintain most of our own CVD and PVD coating units. Advanced technology means nothing unless you have a group of qualified people to operate this technology. We view this training program as the improvement of our company’s most important resource: our people. We offer a wide range of thin-film processes because we know that there is no “one size fits all” coating. Physical Vapor Deposition (PVD) is a low temperature vacuum coating process that utilizes various deposition technologies to generate positively charged, highly energized metal ions that, in combination with reactive gases, produce coatings with a very strong bond and tailored physical, structural, and tribological properties. Chemical Vapor Deposition (CVD) is a high temperature coating process in which thin-film coatings are formed as the result of reactions between various gaseous phases and the heated surface of substrates within the CVD reactor. The final product of these reactions is a hard, wear-resistant coating that exhibits a chemical and metallurgical bond to the substrate.
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Featured
DLC Coatings | Diamond-Like Carbon Coatings | Titankote | HIPIMS technology
... DLC Coatings | Diamond-Like Carbon Coatings | Titankote | HIPIMS ...
Dongguan, China
11-50 Employees
2009
CRONAMETAL is your Cutting Tool Specialist for today's manufacturing demands. CRONAMETAL is committed to the standardized manufacturing of standard carbide tools and special cutting tools. CRONAMETAL is committed to providing our customers with high-performance carbide thread mills and cutting tools that can increase productivity, reduce costs and improve supply chain management. CRONAMETAL Drilling and Milling Thread Milling Cutter Multifunctional Threadmill Drilling and Chamfering In One Step. CRO Precision Tools is an engineering company that has been collectively manufacturing high-quality threading tools for the industry since 2009. We will strive to offer you world-class cutting tools and extensive process and application knowledge. The main production equipments are imported from abroad. Building an advanced production line that integrates intelligence and automation.
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Featured
29ºACME Single Profile Thread Mills - CRONAMETAL
... Carbide ACME Single flute thread mills TIALN/TISIN/DLC coating ...
Whitchurch-Stouffville, Canada
1-10 Employees
G Firearms Group 🇨🇦 was started in 2018 with the goal of manufacturing firearms accessories and upgrades in Canada for professionals, enthusiasts, and competition shooters. Our current products are top grade GFG® Optic Mounts for Benelli® shotguns and Ruger® rifles.
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Featured
GFG Brute Glock 17 Gen3 DLC slide
... Glock 17 Gen3 slide made from hardened 15-5 PH Stainless Steel, industrial grade dark grey Diamond Like Carbon (DLC) coating, matte finish. ...
Maidstone, United Kingdom
11-50 Employees
1987
BREXIT UPDATE: Knight Optical will continue to provide quality assured service for all your optical requirements both custom & stock. We will handle all requirements caused by the new regulations. The best quality service from start to finish. Quality is the one thing you can be sure of with Knight Optical. We hold a large inventory of components for use in ultra-violet, visible, near infrared and far-infrared applications.
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Featured
DLC coatings
... DLC coatings - Knight ...
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 DLC Coating
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 77 |
| Amount of suitable service providers | 45 |
| Average amount of employees | 51-100 |
| Oldest suiting company | 1961 |
| Youngest suiting company | 2012 |
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DLC coating, standing for Diamond-Like Carbon Coating, refers to a class of nanocomposite materials that exhibit some of the unique properties of diamond, including high hardness, low friction, and high resistance to wear and corrosion. These coatings are typically applied through physical vapor deposition (PVD) or chemical vapor deposition (CVD) processes, which allow for the thin layers of carbon, structured similarly to diamond, to adhere to various substrates. The application of DLC coatings spans across numerous industries, prominently in automotive, aerospace, medical devices, and cutting tools. In the automotive industry, for instance, DLC coatings are applied to engine components to reduce friction and increase fuel efficiency while in medical applications, they are used on surgical instruments and implants to prevent wear and reduce the risk of rejection by the body. The unique combination of hardness, wear resistance, and biocompatibility makes DLC coatings highly valuable in extending the lifespan and enhancing the performance of components in environments where durability and reliability are crucial. The adaptation of DLC coatings has led to significant advancements in material science, contributing to the development of more efficient, durable, and reliable products across various technological and industrial sectors.
1. Enhanced Durability
DLC (Diamond-Like Carbon) coating significantly increases the wear resistance of surfaces. This results in a longer lifespan for parts in demanding environments, such as automotive engines or cutting tools, reducing the need for frequent replacements or maintenance.
2. Low Friction Coefficient
One of the standout advantages of DLC coating is its ability to minimize friction. This quality is particularly beneficial in applications where reducing friction can lead to improved efficiency and performance, such as in high-precision machinery and automotive components.
3. Chemical Resistance
DLC coatings offer superior protection against a wide range of chemicals, making them ideal for use in harsh chemical environments. This resistance helps prevent corrosion and material degradation, ensuring the longevity and reliability of the coated components.
4. Compatibility with Various Substrates
The versatility of DLC coating allows it to be applied to a broad spectrum of materials, including metals, plastics, and ceramics. This adaptability makes it an excellent choice for a wide array of applications, from medical devices to aerospace components, broadening its utility across different industries.
While evaluating the different suppliers make sure to check the following criteria:
1. Experience and Reputation
Ensure the supplier has a solid track record of delivering high-quality DLC coatings. Experience in the industry is an indicator of reliability and expertise.
2. Technology and Equipment
The supplier should use the latest technology and state-of-the-art equipment for DLC coating to ensure high precision and quality.
3. Quality Control Processes
Check if the supplier has rigorous quality control measures in place to guarantee the consistency and durability of the DLC coating.
4. Material Compatibility
Ensure the supplier has experience with a wide range of materials that can be coated with DLC, as this will affect the coating's performance and application.
5. Customization Options
The supplier should offer customization options for the DLC coating to meet your specific requirements regarding thickness, hardness, and other properties.
6. Turnaround Time and Scalability
Consider the supplier's ability to meet your deadlines and scale production up or down according to your needs.
7. Cost-effectiveness
Compare pricing among suppliers to ensure you are getting competitive rates without compromising on quality.
DLC (Diamond-Like Carbon) coating is renowned for its exceptional hardness and low friction properties, making it an ideal choice for various B2B applications across multiple industries. In the automotive sector, DLC coating is applied to engine components such as pistons, bearings, and camshafts. This application significantly reduces wear and tear, enhances fuel efficiency, and prolongs the lifespan of these parts, offering a substantial value proposition for manufacturers and suppliers within the automotive industry. In the realm of tooling and manufacturing, DLC coating is utilized to extend the life of cutting tools, molds, and dies. By reducing friction and preventing adhesion, tools treated with DLC coating demonstrate improved performance and durability. This leads to decreased downtime and lower maintenance costs, a critical advantage for businesses in sectors where precision and reliability are paramount. The medical device industry also benefits from the adoption of DLC coating, particularly in the production of surgical tools and implants. The biocompatibility and wear resistance of DLC coatings ensure that these medical devices can withstand the rigors of repeated sterilization and use, while minimizing the risk of patient complications related to material degradation. Each of these use cases underscores the versatility and value of DLC coating in enhancing product performance, durability, and cost-efficiency across diverse B2B landscapes.
Diamond-like carbon (DLC) coating technology is broadly situated at a high Technology Readiness Level (TRL), specifically between TRL 8 to 9, indicating its maturity and widespread application in various industries. This advanced position is attributed to its successful demonstration and implementation across multiple sectors, including automotive, aerospace, medical devices, and tooling industries, where its exceptional hardness, low friction, and high corrosion resistance have been validated in operational environments. The evolution to this high TRL can be credited to extensive research and development efforts that have refined DLC coating processes, such as Chemical Vapor Deposition (CVD) and Physical Vapor Deposition (PVD), enhancing the uniformity, adherence, and performance of the coatings on a wide range of substrates. Furthermore, the ability to tailor the properties of DLC coatings by adjusting parameters like the ratio of sp3 (diamond) to sp2 (graphite) bonded carbon or incorporating elements like silicon or oxygen, has broadened its applicability and efficiency in specific use cases. The technical advancements in deposition techniques, alongside a deepened understanding of the coating's wear mechanisms and interactions with different materials, have solidified its status at the upper echelons of the TRL scale, marking it as a mature technology ready for widespread commercial application.
In the short-term, DLC (Diamond-Like Carbon) coating technology is poised for significant advancements in application techniques and formula optimization. The focus is primarily on enhancing the deposition process to make it more efficient and environmentally friendly. Researchers are working on refining PVD (Physical Vapor Deposition) and CVD (Chemical Vapor Deposition) methods to achieve coatings with higher uniformity and improved adhesion on a broader range of substrates. This phase will also see the development of hybrid coatings that combine the hardness of DLC with other desirable properties, such as corrosion resistance or lower friction. Mid-term developments are expected to revolutionize the DLC coating industry with the introduction of smart coatings. These coatings will not only serve protective and friction-reducing purposes but will also have integrated sensors to monitor wear, temperature, and other critical parameters in real-time. This innovation will be particularly beneficial in automotive, aerospace, and heavy machinery sectors, where predictive maintenance can result in significant cost savings and efficiency improvements. The integration of nanotechnology is anticipated to play a crucial role in this phase, enabling the creation of more resilient and versatile coatings. Looking into the long-term, the focus will shift towards sustainability and the circular economy. DLC coating processes will evolve to be fully sustainable, utilizing renewable energy sources and raw materials. The development of bio-based DLC coatings could emerge, minimizing the environmental impact and opening new applications in medical devices and food processing equipment. Additionally, the advancement in recycling technologies for DLC-coated products will ensure that these materials can be reused or repurposed, significantly reducing waste and promoting a greener manufacturing paradigm.
Some interesting questions that has been asked about the results you have just received for DLC Coating
What are related technologies to DLC Coating?
Based on our calculations related technologies to DLC Coating are Aromatics, Desiccants, Refrigerants, Resins, Green Chemistry
Which industries are mostly working on DLC Coating?
The most represented industries which are working in DLC Coating are Manufacturing, Commerce and Shopping, Science and Engineering, Transportation, Others
How does ensun find these DLC Coating 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.
