Send us a text This podcast episode explores the fascinating world of tribology as it applies to everyday fasteners. Tribology, the science of friction, wear, and lubrication, is the unsung hero behind the function of countless devices we use to hold things together or secure them. From the thousands of tiny hooks and loops that make up Velcro to the teeth and locking mechanism of a zip tie, and the knots in shoelaces or the mechanics of snaps, these seemingly simple devices rely fundamentall...
All content for Perfecting Motion® is the property of STLE Podcast and is served directly from their servers
with no modification, redirects, or rehosting. The podcast is not affiliated with or endorsed by Podjoint in any way.
Send us a text This podcast episode explores the fascinating world of tribology as it applies to everyday fasteners. Tribology, the science of friction, wear, and lubrication, is the unsung hero behind the function of countless devices we use to hold things together or secure them. From the thousands of tiny hooks and loops that make up Velcro to the teeth and locking mechanism of a zip tie, and the knots in shoelaces or the mechanics of snaps, these seemingly simple devices rely fundamentall...
Send us a text In this month's episode I sit down with Anurag Warhadpande from Bridgestone Americas. This podcast explores the critical role of tribology in tire performance, highlighting how factors like traction, wear, and noise are influenced by the tire-road interaction. Anurag discusses the science behind tire friction, including the mu-slip curve and road texture effects, as well as how wear mechanisms align with Archard’s Wear Law. The conversation also delves into the evo...
Perfecting Motion®
Send us a text This podcast episode explores the fascinating world of tribology as it applies to everyday fasteners. Tribology, the science of friction, wear, and lubrication, is the unsung hero behind the function of countless devices we use to hold things together or secure them. From the thousands of tiny hooks and loops that make up Velcro to the teeth and locking mechanism of a zip tie, and the knots in shoelaces or the mechanics of snaps, these seemingly simple devices rely fundamentall...
