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NANOAL LLC

Company Information
Address
260 ELIOT ST
ASHLAND, MA 01721-2390
United States


https://www.nanoal.com

Information

UEI: HQNYKBGPKHS4

# of Employees: 6


Ownership Information

HUBZone Owned: No

Socially and Economically Disadvantaged: No

Woman Owned: No



Award Charts




Award Listing

  1. Ultrahigh Strength 7000 Series Aluminum Alloy for Additive Manufacturing

    Amount: $50,000.00

    Recently, NanoAl has commercialized a modified 5000-series aluminum alloy (Addalloy® 5T), specifically designed for additive manufacturing, which can produce dense (>99.5%), crack-free components whe ...

    SBIRPhase I2020Department of Defense Air Force
  2. Developing Aluminum-Based Metallic Glass Alloys for use in the Additive Manufacture of High-Toughness Aerospace Components

    Amount: $149,819.00

    The additive manufacture of metal components from powder feedstocki.e. the net-shape, three-dimensional forming of a component, layer by layer, from a computer filehas gained popularity in the last ne ...

    SBIRPhase I2018Department of Defense Air Force
  3. Designing New Economical and Scalable High Performance Aluminum Alloys for Overhead Electric Transmission Conductors

    Amount: $1,008,306.00

    Energy loss in high-voltage transmission and distribution networks currently costs U.S. economy billions of dollars annually. The development of advanced and high performance electrical conductors is ...

    SBIRPhase II2017Department of Energy
  4. SBIR Phase I: Designing High-Strength Thermally-Stable Aluminum Casting Alloys for Cylinder Head Applications

    Amount: $149,991.00

    This Small Business Innovation Research Phase I project involves development of a new family of thermally-stable, high-strength aluminum casting alloys for engine cylinder head applications. There is ...

    SBIRPhase I2016National Science Foundation
  5. Designing New Economical and Scalable High Performance Aluminum Alloys for Overhead Electric Transmission Conductors

    Amount: $155,000.00

    During high-voltage electrical power transmission, energy is lost due to the resistance of the conductors, which is converted mainly to heat. Energy loss in transmission and distribution systems curre ...

    SBIRPhase I2016Department of Energy
  6. Developing Affordable Creep-resistant Aluminum Alloys for Car Brake Rotors

    Amount: $149,705.00

    Currently, cast-iron is nearly exclusively used for car brake rotors. Replacing cast-iron by a high- temperature, creep-resistant aluminum alloy could translate into about 80 lbs (36 kg) in weight red ...

    SBIRPhase I2014Department of Energy
  7. SBIR Phase I: Designing New Economical High-Temperature Aluminum Superalloys

    Amount: $149,866.00

    This Small Business Innovation Research Phase I project involves development of a new class of lightweight aluminum superalloys to replace much heavier cast iron in automobile brake rotors. There is a ...

    SBIRPhase I2014National Science Foundation
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