Congratulations to Our 2024 Grand Prize and First Place Winners!

NETrolyze, a novel immunotherapy for triple-negative breast cancer (TNBC), was named the $25,000 grand prize winner at a live finalist round held November 15 in New York. The first-in-class therapeutic injectable gel prevents the spread of TNBC, one of the most aggressive cancer types, enabling patients to avoid toxic chemotherapy and expensive treatments – potentially transforming their lives. Click here for the full list of 2024 winners. Also see the Top 100 highest scoring entries.

Special thanks to our esteemed panel of judges.

Help build a better tomorrow

Since Tech Briefs magazine launched the Create the Future Design contest in 2002 to recognize and reward engineering innovation, over 15,000 design ideas have been submitted by engineers, students, and entrepreneurs in more than 100 countries. Join the innovators who dared to dream big by entering your ideas today.

Read About Past Winners’ Success Stories

Special Report spotlights the eight top entries in 2023 as well as past winners whose ideas are now in the market, making a difference in the world.

Click here to read more

A ‘Create the Future’ Winner Featured on ‘Here’s an Idea’

Spinal cord injury affects 17,000 Americans and 700,000 people worldwide each year. A research team at NeuroPair, Inc. won the Grand Prize in the 2023 Create the Future Design Contest for a revolutionary approach to spinal cord repair. In this Here’s an Idea podcast episode, Dr. Johannes Dapprich, NeuroPair’s CEO and founder, discusses their groundbreaking approach that addresses a critical need in the medical field, offering a fast and minimally invasive solution to a long-standing problem.

Listen now

Thank you from our Sponsors

“At COMSOL, we are very excited to recognize innovators and their important work this year. We are grateful for the opportunity to support the Create the Future Design Contest, which is an excellent platform for designers to showcase their ideas and products in front of a worldwide audience. Best of luck to all participants!”

— Bernt Nilsson, Senior Vice President of Marketing, COMSOL, Inc.

“From our beginnings, Mouser has supported engineers, innovators and students. We are proud of our longstanding support for the Create the Future Design Contest and the many innovations it has inspired.”

— Kevin Hess, Senior Vice President of Marketing, Mouser Electronics

Follow Create the Future

CNC Electroforming Machine

Votes: 0
Views: 7716

Classical machining operations largely fall into the "subtractive manufacturing" category - operations that remove material from a solid billet to form the desired part. In recent decades, however, new forms of "additive manufacturing" have become available. In these cases, a CNC machine is used to add material to the workpiece to build up the desired features on the part. Examples include selective laser sintering (SLS), fused depositional modeling (FDM), and stereolithography. All of these techniques are limited in that they are largely only able to form parts from thermoplastics and resins. These techniques have historically required expensive and complex equipment which make them suitable only for high-end prototyping or industrial applications.

Very recently hobby-sized CNC machines and kits for "additive manufacturing" have become available at much lower prices than their industrial cousins. Although a wide range of designs are available, they are still limited to the use of a few thermoplastics - primarily ABS and PLA.

This invention makes use of the existing open-source desktop-sized (2' cubed or less) machine architecture and a highly selective electroplating process to deposit metal from solution onto a thin foil base. As the plating builds up in successive controlled layers a complex part can be produced. This process doesn't require an extremely rigid machine since there are no cutting forces involved, is relatively quiet, and produces no cutting residue or chips. By controlling the machine speed, current density and the distance between the plating electrode and the workpiece, a highly accurate and finely finished part may be possible. The process takes advantage of a flaw in electroplating/electroforming - the fact that nonuniform electric fields (and therefore current densities) in the plating solution lead to nonuniform plating thicknesses. Ordinarily, plating baths are designed to minimize field variations, but by creating a highly concentrated field - and current - at the cathode, this can be turned to advantage by allowing the plating buildup to be very finely controlled.

The essential concept consists of a 3-axis gantry suspended over a plating tank. At the bottom of the tank is the part substrate - a thin metallic foil - connected to the anode of the plating circuit. Inside the plating tank is a solution of a suitable metallic salt dissolved in water. The plating circuit is controlled by a specialized electronics board that interfaces with the CNC controller such that as the machine runs the current is varied, varying the rate of metal ion deposition onto the substrate. An alternative configuration would make use of a solution reservoir and pump to deliver a stream of solution to the gap between the cathode and the workpiece. The solution would return through a catchment to the reservior. With this alternative any breakdown of axes between the workpiece and the gantry should be suitable. If a jet of solution is used, the machine would also be capable of removing material from a solid workpiece via electrochemical machining. This would require only that the polarity of the plating circuit be reversed.

  • Awards

  • 2012 Top 100 Entries

Voting

Voting is closed!

  • ABOUT THE ENTRANT

  • Name:
    Paul Connor
  • Type of entry:
    individual
  • Patent status:
    none