CEO Jon Cartu Announced - 300 Below, Inc. Selected as Top Team for U.S. Air Force... - Jonathan Cartu Computer Repair Consultant Services
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CEO Jon Cartu Announced – 300 Below, Inc. Selected as Top Team for U.S. Air Force…

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CEO Jon Cartu Announced – 300 Below, Inc. Selected as Top Team for U.S. Air Force…

300 Below, Inc. Selected as Top Team for U.S. Air Force Manufacturing Olympics

300 Below, Inc., recipient of 2019’s Innovation of the Year in Manufacturing Technology, was announced as one of the top 92 participating teams selected from across the globe competing in AFWERX’s Base of the Future Challenge, as a catalyst for fostering innovation within the U.S. Air Force (USAF) by using its technology to triple the life of at-risk metals for ~20% cost of the item. 300 Below also became a top 10 finalist at the U.S. Air Force Rapid Sustainment Office’s (AFRSO’s) Advanced Manufacturing Olympics’ material hurdles technical challenge, held virtually from October 20-23, 2020.

The USAF’s Advanced Manufacturing Olympics is centered around five technical challenges, including reengineering of legacy parts, 3D-printed part re-creation, material hurdles (advanced manufacturing techniques to improve aluminum and polymer materials), part certification and approval sprints, plus supply chain management.  The Grand Prize winner receives a $100,000 check, plus opportunities to field their technology globally across the U.S. Air Force enterprise.

The USAF’s AFWERX Challenge is centered around six topics – Base Security, Installation Resilience, Leveraging Technology for Operational Effectiveness, Reverse Engineering, Culture of Innovation, and Airman and Family Wellbeing. The proposals selected to advance represent innovative solutions ranging from additive manufacturing, reverse engineering, innovation culture, facility resiliency, virtual and augmented reality, and autonomous systems.  Notable finalists alongside 300 Below, Inc. include AT&T, Booz Allen Hamilton, Coursera, CTC, IBM, Innovatrium, Leidos, Sales Force, and Siemens.

300 Below, Inc. is competing in the Improving Installation Resilience Amid COVID-19 AFWERX Challenge with its cryogenic treatment process alongside a diverse group of teams – originating from the vast regions of North America, Europe, Australia and other allied countries, comprised of entrepreneurial startups, small businesses, large enterprises, academic institutions and research labs – all vying to build the Base of the Future and modernize the Department of Defense.

“The AFWERX Base of the Future Challenge is critical to our mission of increasing collaboration between large businesses and entrepreneurs to accelerate solutions for the Air Force,” stated Mark Rowland of AFWERX. “On behalf of AFWERX and the Department of Defense, we congratulate the teams advancing to the next phase. Their contributions are invaluable and have the potential to create game-changing results across the Air Force enterprise.”

The Improving Installation Resilience Amid COVID-19 Challenge focuses on ways in which the U.S. Air Force can counter a global health crisis and better prepare for future crises of this magnitude. This Challenge aims to create robust and resilient Air Force bases that can withstand all types of disastrous events ranging from adverse weather conditions to pandemics. The Challenge seeks solutions including predictive analytics and technologies to defeat and mitigate risk.

300 Below, Inc. received multiple AFWERX Small Business Innovation Research (SBIR) contracts totaling ~$1.5 million for the improvement of at-risk metal parts within the Department of Defense, including firearms and vehicle brake rotors, typically adding 300% longer life for about 20% cost of the item.  300 Below’s cryogenic treatment technology uses a liquid-nitrogen-based process to slowly release vapors into a computer-controlled treatment chamber, which permanently and irreversibly rearranges the molecular structure of metal to be more uniform and evenly distributed, thus promoting longer life and stability while reducing maintenance expenses, part failure and metal deterioration caused by corrosion.

To qualify for the AFWERX Challenge competition, 300 Below, Inc. submitted a proposal in conjunction with Prof. Diran Apelian, of the Institute of Design and Manufacturing Innovation (IDMI) at the University of California, Irvine (UCI).  300 Below’s research aims to improve aircraft shelters and other military base materials, and was selected for its potential to improve strength and durability of building structures, imparting better structural resiliency for joints, weldment areas, and other weak points in building materials while simultaneously reducing corrosion and improving wear resistance up to 300%. 

A second project is proposed between 300 Below, Inc. and ITAMCO, another AFWERX SBIR contract recipient building a 3D Printed Runway Project at Tyndall Air Force Base, which uses a honeycomb architecture with Phase Transforming Cellular Matrix (PXCM) geometry to mitigate loading and shear stresses.  ITAMCO’s energy absorbing material may be further stress reduced, and strengthened, by applying 300 Below’s cryogenic treatment process to the 17-4 PH stainless steel and aluminum composition.

For the AFRSO Advanced Manufacturing Olympics, 300 Below emerged as a top 10 finalist for efforts improving aluminum alloys used in 3D-printed metal parts. In prior testing, additive manufacturing using 316 Stainless Steel, arguably the most utilized stainless steel in the US Air Force, yielded a 30% improvement in Micro-Vickers hardness post-cryogenic treatment, along with a 35% increase in residual compressive stress, plus a 17% decrease in the coefficient of friction, which indicates significant abrasive wear resistance improvements.

“Never before has our military been able to print a broken part on demand and ensure that its structural integrity attains similar properties to the same high expectations for a previously cast or machined item.  300 Below is proud to contribute to battlefield transformation, as we give our Warfighters a new magic wand to improve durability and reduce downtime for critical combat gear by 3D printing replacement parts in hours and days at the edge versus weeks and months spent waiting on parts to be…

Jonathan Cartu

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