Modumetal's alternatives and competitors
Top 5 Modumetal competitors
Compare Modumetal to Competitors
Xtalic is a company focused on the development of advanced material technologies, specifically nanostructured metal alloys, within the materials science industry. The company's main offerings include the design and production of sustainable, high-performance nanostructured metal alloys that enhance the performance of various products, from waterproof smartphones to electric vehicles. Xtalic primarily serves sectors such as the electronics industry, the automotive industry, and the data communications industry. It was founded in 2005 and is based in Marlborough, Massachusetts.
ADA Technologies is a manufacturing company focused on the development and production of innovative products in the advanced materials sector. The company's main offerings include advanced energy storage solutions, electro-mechanical solutions, and high-performance materials. ADA Technologies primarily serves advanced market customers requiring customized product solutions. It is based in Englewood, Colorado.
Hans Tech is a company that received a STTR PHASE I grant for a project entitled: Fabrication of Aluminum Matrix Nanocomposites. Their project will develop a reliable and effective processing technique to produce a next-generation metal matrix composite comprised of aluminum oxide or silicon carbide nanoparticles dispersed in an aluminum alloy metal matrix. The proposed technology combines the merits of the traditional stirring method and the latest high-intensity ultrasonic processing technology. The use of an impeller stirrer creates a vortex to efficiently pull the lighter nanoparticles into the melt. The use of high-intensity ultrasonic vibration breaks up the nanoparticles clusters and disperses the nanoparticles into the melt. The successful completion of the Phase I project will lead to a breakthrough technology for the processing of metal matrix nanocomposite materials and for the utilization of lightweight materials for applications at elevated temperatures and critical conditions. The technology can be used to reinforce aluminum, magnesium, or other lightweight materials for replacing iron, steel, or titanium components for automotive, power transmission, aviation, and defense applications, leading to significant energy savings, cost savings, and environmental benefits. The U.S. transportation industry continues to focus on the increased use of lightweight alloys for weight and energy savings. Hans Tech is a company that received a SBIR Phase I grant for a project entitled: Reinforcement of Lightweight Material Castings with Dissimilar Metals. Their project aims to advance the cast-on technology for the metal casting industry to produce lightweight metal composite castings. Cast-on method is a cost effective method for the reinforcement of casting with dissimilar metals but suffers from defect formation such as de-bond, oxidation, and porosity at the casting/reinforcement interface. The project combines the merits of the cast-on method and the latest high-intensity ultrasonic processing. The use of high-intensity ultrasonic vibration technique in the cast-on process detaches oxides and bubbles at the surfaces of the insert, drives them away from the reinforcement/casting interface, and enhances the metallurgical interaction of the castings with the reinforcement metal. Furthermore, the grain size in the casting adjacent to the bond is reduced significantly. As a result, a strong and defect-free metallurgical bond is produced between the reinforcement insert and the casting. The boarder impact/commercial potential of this project will be a breakthrough technology for the cast-on process and will increase the competitiveness of the U.S. metal casting, automotive, and defense industries in the global market, retaining or creating new jobs. This technology can be used to reinforce aluminum castings, magnesium castings, or castings of other lightweight materials for replacing heavy metal components for automotive, aviation, and defense applications, leading to significant energy savings, cost savings, and improved emission control. The U.S. transportation industry continues to focus on the increased use of lightweight alloys for weight reduction and energy savings. According to the data from the United States Automotive Materials Partnership (USAMP), a 15% weight reduction due to the use of lightweight components improves fuel efficiency by at least 10%. Decreasing fuel consumption by 10% reduces gasoline consumption in the United States by 10 billion gallons per year. This would translate into energy savings of 1,150 trillion Btu/year, a reduction of CO2 emissions by 200 billion lbs/year, and cost savings of $25 billion/year at current pump prices of $2.50/gallon. Hans Tech is a company that received a STTR Phase I grant for a project entitled: Reinforcement of Lightweight Material Castings with Dissimilar Metals. Their project will utlize ultrasonic vibrations during pouring of molten metal around a reinforcement insert placed in a mold and during solidification of the composite casting. The proposed processing route will help develop a defect-free metallurgical bond between two dissimilar metals. The proposed technology can be applied to reinforcing lightweight castings including aluminum and magnesium; thereby replacing iron and steel components for automotive, aviation, and defense applications. The use of this technology, therefore, has the potential to contribute to significant energy savings, cost savings, and emission control.
Q-Flo Limited is a company focused on the development and manufacturing of advanced carbon-based materials within the materials science sector. Their products include carbon nanotube mats and other carbon-based solutions designed for a variety of civil applications, aiming to contribute to a greener and safer environment. The company primarily serves sectors that require innovative material solutions, such as civil engineering and environmental technology. It is based in United Kingdom.
Soluterials focuses on material innovation in the manufacturing industry. The company offers a unique, sustainable, and high-performance aluminium material that is designed to increase efficiency, reduce production waste, and comply with environmental regulations. It was founded in 2020 and is based in Beelitz-Heilstatten, Germany.
NEI Corporation is a specialty materials company operating in the advanced materials and nanotechnology industry. The company's main offerings include the development and production of functional and protective coatings, lithium-ion battery materials, and specialty nanoparticle-based products, all designed to meet specific application needs. NEI Corporation primarily serves a broad range of industrial customers worldwide. It was founded in 1997 and is based in Somerset, New Jersey.