US Department of Energy

Manufacturing Sciences offers services such as design, metal casting, metal rolling, fabrication, welding, and precision machining. They provide services in the following areas: casting, laboratory analysis, materials inventory acquisition, CNC machining, laser engraving, rapid prototyping, research and development, roll engineering, value engineering, and welding. Manufacturing Sciences Corporation is a pioneer in metal fabrication, developing processes to roll and cast depleted uranium for defense and energy purposes.

Robot Nose is dedicated to rethinking sensors and detectors from the ground up. Laboratory instruments excel at measuring what is in the air, but are bulky and hard to use. Portable instruments typically are just badly compromised versions of laboratory instruments. Our approach is to use a newly developed additive manufacturing approach to create very sensitive and selective detectors of toxic gasses. This additive approach has an unparalleled combination of speed and resolution, making it interesting for many other applications as well.

Materic is a company that specializes in the design and manufacture of advanced materials. It offers a range of services, including custom manufacturing and joint development programs tailored to meet specific client needs. Materic's expertise encompasses electrospinning, nanoparticle separation, textile treatments, 3D printing materials, specialty inks, and microencapsulation. By focusing on innovative material solutions, the company enables clients across various disciplines to access custom equipment and products that enhance their operations and applications.

UHV3D automates the design of metal additive manufacturing components for extreme conditions.

Sciaky, Inc. is a leading provider of metal 3D printing and Additive Manufacturing (AM) solutions.

PolarOnyx is a provider of laser 3D manufacturing, laser additive and subtractive manufacturing and solutions.

VRC Metal Systems, founded in 2013 and headquartered in Rapid City, South Dakota, specializes in the manufacture of advanced metal working equipment and automation systems. Its core product, the VRC Gen III, is a high-pressure cold spray system that accelerates metal powders to supersonic speeds for applications such as part repair, advanced coatings, and additive manufacturing. The company also offers automated additive and subtractive systems, portable dust collectors, spray coating systems, consumables, and related services like integrated installations and on-site support.

Robot Nose is dedicated to rethinking sensors and detectors from the ground up. Laboratory instruments excel at measuring what is in the air, but are bulky and hard to use. Portable instruments typically are just badly compromised versions of laboratory instruments. Our approach is to use a newly developed additive manufacturing approach to create very sensitive and selective detectors of toxic gasses. This additive approach has an unparalleled combination of speed and resolution, making it interesting for many other applications as well.

Manufacturing Sciences offers services such as design, metal casting, metal rolling, fabrication, welding, and precision machining. They provide services in the following areas: casting, laboratory analysis, materials inventory acquisition, CNC machining, laser engraving, rapid prototyping, research and development, roll engineering, value engineering, and welding. Manufacturing Sciences Corporation is a pioneer in metal fabrication, developing processes to roll and cast depleted uranium for defense and energy purposes.

Orbital Composites specializes in the fields of 3D printing, Composites, robotics automation, and carbon fiber. Their Robotic automation offers tremendous advantages at the fraction of the cost of traditional manufacturing systems, including scalability, and complex 3D printing on curves.

Robot Nose is dedicated to rethinking sensors and detectors from the ground up. Laboratory instruments excel at measuring what is in the air, but are bulky and hard to use. Portable instruments typically are just badly compromised versions of laboratory instruments. Our approach is to use a newly developed additive manufacturing approach to create very sensitive and selective detectors of toxic gasses. This additive approach has an unparalleled combination of speed and resolution, making it interesting for many other applications as well.

PolySpectra, Inc. is a Berkeley, California-based company founded in 2016 that specializes in the development of computer-guided 3-D printing resins. The company focuses on transforming 3D printing from a prototyping tool into a viable production manufacturing solution. PolySpectra manufactures functional materials for advanced additive manufacturing, utilizing light-activated catalysts to create durable plastic parts suitable for consumer use. Its modular platform allows for the delivery of materials with a wide range of tailored properties derived from a single chemical system. This innovative approach supports inventors, designers, and engineers in bringing their concepts to life.

Synteris is a manufacturer focused on developing advanced precursor powders for the 3D printing of high-temperature ceramics. The company specializes in producing non-oxide ceramic parts, including carbides, nitrides, and borides, utilizing a technique known as selective laser reaction sintering (SLRS). This innovative approach allows for the rapid production of prototypes and components that are essential for applications such as heat sinks and cooling architectures in electronics. By addressing the growing demand for electrical efficiency, Synteris aims to provide industries with cutting-edge solutions that enhance performance and reliability.

Robot Nose is dedicated to rethinking sensors and detectors from the ground up. Laboratory instruments excel at measuring what is in the air, but are bulky and hard to use. Portable instruments typically are just badly compromised versions of laboratory instruments. Our approach is to use a newly developed additive manufacturing approach to create very sensitive and selective detectors of toxic gasses. This additive approach has an unparalleled combination of speed and resolution, making it interesting for many other applications as well.

Robot Nose is dedicated to rethinking sensors and detectors from the ground up. Laboratory instruments excel at measuring what is in the air, but are bulky and hard to use. Portable instruments typically are just badly compromised versions of laboratory instruments. Our approach is to use a newly developed additive manufacturing approach to create very sensitive and selective detectors of toxic gasses. This additive approach has an unparalleled combination of speed and resolution, making it interesting for many other applications as well.

Robot Nose is dedicated to rethinking sensors and detectors from the ground up. Laboratory instruments excel at measuring what is in the air, but are bulky and hard to use. Portable instruments typically are just badly compromised versions of laboratory instruments. Our approach is to use a newly developed additive manufacturing approach to create very sensitive and selective detectors of toxic gasses. This additive approach has an unparalleled combination of speed and resolution, making it interesting for many other applications as well.

Robot Nose is dedicated to rethinking sensors and detectors from the ground up. Laboratory instruments excel at measuring what is in the air, but are bulky and hard to use. Portable instruments typically are just badly compromised versions of laboratory instruments. Our approach is to use a newly developed additive manufacturing approach to create very sensitive and selective detectors of toxic gasses. This additive approach has an unparalleled combination of speed and resolution, making it interesting for many other applications as well.

Robot Nose is dedicated to rethinking sensors and detectors from the ground up. Laboratory instruments excel at measuring what is in the air, but are bulky and hard to use. Portable instruments typically are just badly compromised versions of laboratory instruments. Our approach is to use a newly developed additive manufacturing approach to create very sensitive and selective detectors of toxic gasses. This additive approach has an unparalleled combination of speed and resolution, making it interesting for many other applications as well.