On this episode, Tom Barnes joins me to discuss how their company is redefining the way the world views pickleball. Selkirk Sport was founded in 2014 and is the leading manufacturer of pickleball paddles and equipment.
To help drive innovation, Selkirk Sport created Selkirk Labs, a first-of-its-kind program, that invites players to be part of the innovation process. Members of Selkirk Labs get first access to test paddle prototypes. Using their feedback and A.I. programming, their engineers tweak the prototypes to better suit players' needs before adding the paddles to their main line, which is made entirely in the U.S.
Tom is a co-owner and the director of research and development for Selkirk Sport. The company was founded while Tom was serving in the Marine Corps and after transitioning into the USMC Reserves, Tom was excited to join his brothers.
Now, Tom infuses his passion for technology and advanced manufacturing into developing new materials, equipment and manufacturing approaches for pickleball. Tom is dedicated to developing a world-class R&D ecosystem,coupled with a lean manufacturing approach to elevate Selkirk's innovation and production standards.
You can learn more about their company by visiting https://www.selkirk.com.
On this episode, John Schweitzer and Kyle Jordan of the ACMA join me to discuss a couple of topics. John will be discussing the ACMA’s Composites Sustainability Conference coming up June 4-6 in Denver, CO.
You can learn more about this event by visiting https://acma-org.my.site.com/csft24.
Kyle Jordan will be giving an update on the CCT Instructor Course that took place earlier this month in Kansas City, and explain what new instructors can do with the designation.
On this episode, Markus Beuler, McAfee Professor of Engineering at MIT joins me to discuss how they are using machine learning to create stronger materials.
For engineers developing new materials, there are billions of different possibilities to sort through. Lab tests & detailed computer simulations to determine their exact properties can take hours, and even days for each variation. Now, a new artificial intelligence-based approach developed at MIT could reduce that to a matter of milliseconds.
Markus discusses their new course on Predictive Multiscale Materials Design. In this course, you will enhance your ability to leverage materials design, machine learning, and additive manufacturing to create better materials.
You can register at: https://professional.mit.edu/course-catalog/predictive-multiscale-materials-design
On this episode, Mark Scott and Jake Rowen of Resodyn join me to discuss their RAM acoustic mixing technology. They are a global leader in mixing and processing solutions.
Mixing is a key processing step in nearly every industry from lubricants to ceramics.
Traditionally, mixing has been accomplished using motor-driven impellers, blades and other engineered devices that rotate or agitate the ingredients. These methods, however, present several challenges including degradation of particles during mixing, non-uniform and inconsistent mix quality, and extended mixing times.
Fortunately, a new and innovative technology solves many of the problems that plague traditional mixers.
RAM combines the efficient power generation of resonance and the effects of sound energy to facilitate mixing – without the use of mechanical means within a mixing vessel.
Since 1994, Resodyn Corporation has built a legacy of facing down tough global problems with disciplined science and engineering, spanning numerous fields of study.
Their innovative process and product design approach have turned many of those discoveries into commercial product successes.
You can learn more about their technology by visiting https://resodynmixers.com.
This week Sebastian Pohlmann of UP Catalyst joins the podcast to discuss the world's first scalable technology for utilizing industrial CO₂ emissions. Their Carbon Nanotubes are directly produced from CO₂ emissions via molten-salt carbon capture and electrochemical transformation.
Carbon Nanotubes (CNTs) can enhance the mechanical properties of composite materials - improving the tensile strength, modulus of elasticity, and impact resistance.
You can learn more about UP Catalyst by visiting https://upcatalyst.com.