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DWA Aluminum Composites USA
Los Angeles, United States
B
11-50 Employees
1977
Key takeaway
DWA-USA specializes in Aluminum Matrix Composites (MMCs) and has extensive experience in developing advanced aluminum alloys, including nano-crystalline aluminum products. Their proprietary production processes and large-scale production capabilities highlight their commitment to improving the performance and cost-effectiveness of aluminum materials for aerospace and defense applications.
Reference
Core business
Aluminum Matrix Composites | DWA Aluminum Composites USA, Inc
CONSTELLIUM NEUF BRISACH
Biesheim, France
A
1001-5000 Employees
2014
Key takeaway
Constellium is a leading developer and manufacturer of high value-added aluminum products, including advanced Aluminum-Lithium alloys, which are particularly relevant for aerospace applications.
Reference
Product
AIRWARE® | Aluminium-Lithium Alloys-Aerospace | Constellium
AMG Aluminum
United States
B
251-500 Employees
1938
Key takeaway
AMG Aluminum specializes in providing master alloys and grain refiners used during the melting and casting of aluminum and its alloys. Their products play a crucial role in controlling grain size, which is essential for maintaining product consistency and quality in aluminum production.
Reference
Product
Master Alloys – AMG Aluminum
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ACP 5052 — alimex Americas
Budapest, Hungary
B
11-50 Employees
-
Key takeaway
The company, alimex, specializes in high-quality aluminum alloys and has expanded its product portfolio to include various semi-finished aluminum products known for their low micro-porosity and excellent machining properties. This expertise in aluminum materials positions alimex as a key player in meeting stringent customer demands in the industry.
Reference
Core business
alimex Americas — Precision in Aluminum Alloys and Cast Plates
Alimex develops world-class aluminum alloys and produce from them high-quality aluminum-cast plates to meet the most stringent customer demands.
WixSteel Industrial International Trading Co.LTD
Qingdao, China
D
1-10 Employees
2016
Key takeaway
WixSteel Industrials offers 2195 aluminum-lithium alloy, a high-strength material used in aerospace applications, known for its low temperature performance and corrosion resistance. This alloy, derived from the WeldaliteTM 049 series, is enhanced through a specific composition of copper and lithium, making it a valuable solution for specialized projects.
Reference
Product
2195 Aluminum Alloy Bar | WixSteel Industrial
2195 aluminum-lithium alloy is an Al-Li-Cu precipitation-strengthened aluminum alloy. It is a new type of aluminum alloy derived from the WeldaliteTM 049 series of aluminum-lithium alloys by Renault in the United States by adjusting the content of Cu and Li elements. The content of Cu element is higher and the content of lithium is lower. In addition, there are a small amount of Mg, Mn, Zn, Ag, Zr and other microalloying elements. The precipitation order and strengthening phase types of Al-Li-Cu alloys are largely The above depends on the Cu/Li ratio. The main strengthening phase in the T8 state is the T1 (Al2LiCu) phase. The alloy has the advantages of ultra-high strength, low temperature performance, high corrosion resistance, and good forgeability. It is a new generation of aerospace in China Alternative materials for the structure of the propellant tank.
Light Metals Corporation
Wyoming, United States
B
101-250 Employees
1947
Key takeaway
Light Metals Corporation is a specialized manufacturer with a strong focus on aluminum engineering and production, ensuring high-quality aluminum parts for various industries. Their commitment to quality and experienced staff positions them as a reliable partner for aluminum-related projects.
Reference
Core business
Light Metals Corp - Home
NanoAl LLC
Skokie, United States
B
1-10 Employees
2013
Key takeaway
NanoAl is at the forefront of developing next-generation aluminum alloys, including its innovative Addalloy®, specifically designed for additive manufacturing. This high-performance aluminum alloy offers an exceptional combination of strength and ductility, making it ideal for applications that require enhanced material properties.
Reference
Core business
About NanoAL — NanoAL
Inventing and marketing the highest performing aluminum alloys - no matter the application.
Aero-Magnesium Limited (A.C.S)
Gilboa Regional Council, Israel
B
11-50 Employees
2010
Key takeaway
Aero-Magnesium specializes in providing advanced technological solutions and high-end magnesium parts for aeronautics and space applications. Their expertise in material investigation and processing may indicate a strong foundation in lightweight metal applications, relevant to the development of aluminum-lithium alloys.
Reference
Product
Technology Request - Aero MagnesiumAero Magnesium
Superior Aluminum Alloys
New Haven, United States
B
51-100 Employees
1996
Key takeaway
Superior Aluminum Alloys is a prominent secondary aluminum smelter, indicating its expertise in aluminum production and processing.
Reference
Core business
eee - Superior Aluminum Alloys
Falcon Aerospace, Inc.
Weston, United States
B
11-50 Employees
1994
Key takeaway
Falcon Aerospace is a leading supplier and distributor of metals used in the aerospace and defense industries, emphasizing their capability to provide high-quality materials that meet stringent OEM requirements. Their extensive experience and commitment to quality make them a reliable source for standard and non-standard metals, including aluminum.
Reference
Core business
Aerospace Metals Supplier Distributor Titanium Stainless Alloy High Temp Steel Aluminum
Technologies which have been searched by others and may be interesting for you:
Aluminum-lithium alloy is a type of lightweight metal alloy that combines aluminum with lithium to enhance its mechanical properties. The addition of lithium reduces the density of aluminum, making it significantly lighter than traditional aluminum alloys. This feature is particularly valuable in industries such as aerospace, where weight reduction is crucial for efficiency and performance. Furthermore, aluminum-lithium alloys exhibit improved strength and stiffness, along with enhanced resistance to fatigue and corrosion. This combination of properties makes them ideal for structural applications, including aircraft components and high-performance vehicles. As a result, these alloys are increasingly sought after by manufacturers looking to optimize performance while minimizing weight.
1. Lightweight Properties
Aluminum-lithium alloys are significantly lighter than traditional aluminum alloys, which makes them ideal for applications in aerospace and automotive industries, where reducing weight can lead to improved fuel efficiency and performance.
2. Enhanced Strength
These alloys exhibit superior strength-to-weight ratios, allowing manufacturers to create structures that maintain high strength while minimizing mass. This property is particularly advantageous in high-performance applications.
3. Improved Fatigue Resistance
Aluminum-lithium alloys offer better fatigue resistance compared to conventional aluminum. This characteristic is crucial for components subjected to repeated stress, enhancing the longevity and reliability of the final product.
4. Corrosion Resistance
The addition of lithium improves the overall corrosion resistance of the alloy, making it suitable for use in harsh environments. This property extends the life of components and reduces maintenance costs.
5. High Thermal Conductivity
These alloys have excellent thermal conductivity, which is beneficial in applications requiring efficient heat dissipation, such as aerospace components and electronic housings.
6. Versatility in Applications
Aluminum-lithium alloys can be tailored for various applications, from military to commercial aviation, thanks to their adaptable properties, making them a popular choice among manufacturers.
Aluminum-Lithium Alloy is manufactured through several key processes that ensure the desired properties and performance. Initially, the primary aluminum is melted in a furnace, where lithium is introduced in precise amounts to create a homogeneous melt. This process often involves the use of protective atmospheres or fluxes to prevent oxidation and contamination. Once the alloy is fully melted, it is cast into ingots or other forms through casting techniques such as continuous casting or ingot casting. These forms are then subjected to various mechanical processes, including rolling and extrusion, to achieve the final shape and dimensions. Heat treatment may also be applied to enhance mechanical properties, ensuring the alloy meets specific performance standards for applications in aerospace and other industries.
Aluminum-Lithium alloys are widely utilized in various high-performance applications due to their lightweight and strong properties. In the aerospace industry, these alloys are critical for constructing aircraft structures, as they significantly reduce weight while maintaining structural integrity. Another prominent application is in the automotive sector, where manufacturers leverage Aluminum-Lithium alloys to enhance fuel efficiency and performance in vehicles. Additionally, these alloys find use in military applications, including the production of lightweight armor and components for defense systems, where strength and weight reduction are paramount.
Aluminum-Lithium alloys are known for their unique combination of properties that make them suitable for various applications, particularly in the aerospace sector. These alloys exhibit a significant reduction in density due to the presence of lithium, resulting in a lighter material without compromising strength. Furthermore, they demonstrate improved stiffness and fatigue resistance compared to traditional aluminum alloys, making them highly desirable for structural components. Additionally, Aluminum-Lithium alloys possess excellent corrosion resistance and can be easily processed, allowing for efficient fabrication. Their ability to maintain structural integrity at elevated temperatures further enhances their performance in demanding environments. Overall, the integration of lithium into aluminum significantly enhances its properties, making these alloys an ideal choice for lightweight and high-strength applications.
Some interesting numbers and facts about your company results for Aluminum-Lithium Alloy
Country with most fitting companies | United States |
Amount of fitting manufacturers | 4853 |
Amount of suitable service providers | 4185 |
Average amount of employees | 11-50 |
Oldest suiting company | 1938 |
Youngest suiting company | 2016 |
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Some interesting questions that has been asked about the results you have just received for Aluminum-Lithium Alloy
What are related technologies to Aluminum-Lithium Alloy?
Based on our calculations related technologies to Aluminum-Lithium Alloy are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials
Which industries are mostly working on Aluminum-Lithium Alloy?
The most represented industries which are working in Aluminum-Lithium Alloy are Other, Mining, Manufacturing, Aviation and Aerospace, Construction
How does ensun find these Aluminum-Lithium Alloy 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.