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FormAlloy
Spring Valley, United States
B
1-10 Employees
2016
Key takeaway
FormAlloy's DEDSmart® Directed Energy Deposition (DED) process offers advanced manufacturing capabilities, enabling the creation of high-quality parts significantly faster than traditional methods. This innovative approach not only enhances mechanical properties but also allows for the addition of features and materials, making it ideal for 3D metal printing, repair, and surface cladding applications.
Reference
Service
DED Products and Services for 3D Metal Printing - FormAlloy
FormAlloy provides cost-effective, Directed Energy Deposition (DED) / Laser Metal Deposition (LMD) machines, as an economic solution for 3D metal part production, repair and cladding to a diverse set of industries.
Hybrid Manufacturing Technologies
McKinney, United States
B
1-10 Employees
2012
Key takeaway
Hybrid Manufacturing Technologies specializes in Directed Energy Deposition (DED), offering an innovative series of laser metal deposition heads through their AMBIT™ system. This technology seamlessly integrates additive manufacturing and machining, enhancing capabilities like in-process finishing and inspection.
Reference
Service
DED/LMD | Directed Energy Deposition | Hybrid Manufacturing Tech.
Directed Energy Deposition is where it all began for us! Directed Energy Deposition or DED covers a range of terminology.
EWI
Columbus, United States
B
101-250 Employees
1984
Key takeaway
EWI specializes in engineering services and advanced manufacturing technology, including Direct Energy Deposition (DED), a form of additive manufacturing that utilizes a robotic arm and various energy sources like lasers and electron beams. Their expertise in DED positions them as a valuable resource for companies looking to implement innovative manufacturing processes.
Reference
Service
Direct Energy Deposition - Laser vs. Arc vs. Electron Beam DED
Direct energy deposition (DED) is a form of additive manufacturing, or AM, that uses a robotic arm, an arc, and an electron beam or laser beam process.
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EB Industries
Village of Farmingdale, United States
B
11-50 Employees
1965
Key takeaway
EB Industries specializes in Electron Beam and Laser Beam welding, making it a key player in the field relevant to Directed Energy Deposition. With over fifty years of experience and certifications that ensure high quality, they serve various industries including Aerospace, Defense, and Medical Devices.
Reference
Core business
Electron Beam Welding | Laser Welding | EB Industries
We are the preeminent supplier of Electron Beam Welding, Laser Beam Welding, and Laser Hermetic Sealing in North America. All industries served, NADCAP, AS9100, aerospace, medical, battery
Evobeam GmbH
Nieder-Olm, Germany
A
11-50 Employees
2011
Key takeaway
The company offers a range of systems and services for beam processing, emphasizing their expertise in metallurgy and welding. Notably, they provide Additive Manufacturing Wire-feed, utilizing electron beam or laser technology for Direct Energy Deposition (DED), which is relevant to the query.
Reference
Product
Additive Manufacturing Wire-feed | Rapid Beam Processing in Vacuum
Additive Manufacturing Wire-feed: For medium to large structures with electron beam or laser as source for Direct Energy Deposition (DED)
Electro Discharge Ltd
Sandwell, United Kingdom
A
11-50 Employees
1980
Key takeaway
Electro-Discharge Ltd specializes in precision engineering services, including wire erosion and laser cutting, which are essential for applications like directed energy deposition in aerospace and motorsports. With a fleet of over 30 EDM machines and a commitment to 24/7 production, the company ensures timely and cost-effective delivery of high-quality components.
Reference
Core business
Electro Discharge |
Uk leading electro discharge providing sub-contract Wire and Spark erosion, laser cutting & profiling service to the engineering industry.
EMD TECHNOLOGIES LTD
United Kingdom
A
11-50 Employees
-
Key takeaway
EMD Technologies specializes in high-voltage advanced power electronics, particularly for the medical X-ray market. Their products, ranging from 30 kW to 100 kW and 20 kV to 150 kV, showcase their commitment to innovative and efficient power solutions.
Reference
Core business
EMD Technologies – EMD Technologies is a leading designer, manufacturer and marketer of High-Voltage Advanced Power Electronics products since 1982.
EMD Technologies is a leading designer, manufacturer and marketer of High-Voltage Advanced Power Electronics products targeted at the medical X-ray field. Our customers are integrators of radiography, mammography, fluoroscopy, cardiology and CT systems. They are small, medium-sized and Tier 1 leaders of the X-ray medical
TP Engineering
Poway, United States
B
1-10 Employees
2017
Key takeaway
TP Engineering Services, LLC specializes in the development of advanced diode-pumped solid-state laser systems, offering high beam quality and a range of pulse durations and repetition frequencies. Their focus on research and development of peak and average power laser systems aligns with the interests of those exploring directed energy deposition technologies.
Reference
Core business
TP Engineering | Laser Technologies | San Diego
~NEW High Average Power Water Cooled Mounts Made in USA ~ TP Engineering Focuses on Research and Development of Peak and Average Power Laser Systems and Components.
Deposition Technology Ltd
Livingston, United Kingdom
A
1-10 Employees
2004
Key takeaway
Deptec specializes in advanced manufacturing processes, including PVD (Physical Vapor Deposition) and CVD (Chemical Vapor Deposition), which are critical in the semiconductor and related industries. Their innovative technologies, such as the EVOS CVD system, are designed for efficient thin film production, enhancing precision and performance in manufacturing.
Reference
Core business
Home | Deposition Technology Ltd.
Welcome to Deposition Technology Advanced PVD and CVD Technology Discover More EVOS The EVOS PVD system utilises the latest technology to deliver the best performance, robust reliability and lowest cost of ownership in its class, all packaged into a very small footprint. The EVOS is easily configurable and changeable between 100mm, 125mm,150mm and 200mm wafer … Home Read More »
Energy Development Partners, LLC
North Smithfield, United States
B
1-10 Employees
2014
Key takeaway
Energy Development Partners is dedicated to developing renewable energy projects, emphasizing their extensive experience in project development. Their commitment to clean energy solutions aligns with the innovative approaches of directed energy deposition in sustainable practices.
Reference
Core business
EDP - Solution Provider for Energy Needs
With a combined over 20 years experience of project development, we are a committed team to develop energy infrastructure projects in the United States.
Technologies which have been searched by others and may be interesting for you:
Directed Energy Deposition (DED) is an additive manufacturing technique that uses focused thermal energy to melt and fuse materials as they are deposited. This method typically employs a laser or electron beam to heat the material, which is often in the form of powder or wire, allowing for precise control over the melting process. DED is particularly beneficial for repairing and coating existing components, as well as for producing large parts with complex geometries. The technology enables the creation of high-quality metallic parts, offering advantages such as reduced material waste and the ability to tailor material properties. Industries that benefit from DED include aerospace, automotive, and energy, where custom parts and repairs are often required.
Directed Energy Deposition (DED) is a 3D printing technique that utilizes focused thermal energy to fuse materials. In this process, a heat source such as a laser or electron beam is directed onto a substrate. Simultaneously, feedstock material in the form of powder or wire is introduced into the melt pool created by the heat source. As the material melts, it adheres to the substrate, building up layers to form the desired object. The precision of the energy source allows for intricate designs and the ability to add material to existing components, making DED suitable for repairs and creating complex geometries. This method is widely used in aerospace, automotive, and medical industries due to its efficiency and capability to use a variety of materials.
Applications of Directed Energy Deposition (DED) span across various industries, particularly in additive manufacturing and surface engineering. In aerospace, DED is utilized for repairing turbine blades and manufacturing complex components, enhancing performance while reducing waste. Additionally, in the automotive sector, DED enables the production of lightweight structures and intricate geometries. The technology is also effective in the medical field, where custom implants can be created to fit patient-specific needs. Its ability to deposit material precisely makes it ideal for prototyping and creating functional parts in diverse applications, ensuring efficiency and innovation in manufacturing processes.
Directed Energy Deposition (DED) technology allows for a variety of materials to be utilized, primarily metals and alloys. Common materials include titanium, aluminum, nickel-based alloys, and stainless steels. Additionally, ceramic materials can also be incorporated, expanding the applications in fields such as aerospace and automotive. The choice of material often depends on the specific requirements of the application, such as strength, weight, or thermal resistance. As a result, DED enables the fabrication of complex geometries and customized components, making it a versatile method in additive manufacturing.
1. Enhanced Material Properties
Directed Energy Deposition (DED) allows for the use of high-performance materials, resulting in superior mechanical properties. This process can improve the strength, toughness, and wear resistance of components, making them suitable for demanding applications.
2. Precision and Flexibility
DED offers exceptional precision in material deposition, enabling the creation of complex geometries and intricate designs. This flexibility permits manufacturers to produce customized parts tailored to specific needs, reducing material waste and optimizing production efficiency.
3. Repair Capabilities
This technology is particularly advantageous for repairing worn or damaged components. DED can restore the functionality of parts, extending their lifespan and reducing the need for complete replacements, which can be cost-effective and environmentally friendly.
4. Rapid Prototyping
DED facilitates rapid prototyping, allowing for quick iterations of designs. Manufacturers can efficiently test and refine their products, speeding up the overall development process while maintaining high quality.
Some interesting numbers and facts about your company results for Directed Energy Deposition
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 7030 |
| Amount of suitable service providers | 7907 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1965 |
| Youngest suiting company | 2017 |
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Some interesting questions that has been asked about the results you have just received for Directed Energy Deposition
What are related technologies to Directed Energy Deposition?
Based on our calculations related technologies to Directed Energy Deposition are Water/Ocean Cleaning Technologies, Waste Management, Renewable Energy, Sustainable Fashion, Smart Grid
Which industries are mostly working on Directed Energy Deposition?
The most represented industries which are working in Directed Energy Deposition are Oil, Energy and Gas, Other, IT, Software and Services, Electronics and Electrical engineering, Construction
How does ensun find these Directed Energy Deposition Companies?
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