Videos
What Is PI Material?-TiRapid
Polyimide (PI) is the king of high-temp plastics. It resists up to 400°C and thrives in aerospace, electronics, and medical fields. We reveal its structure, performance traits, and CNC strategies for machining this extreme polymer.
What Is TPE Material Used For?-TiRapid
TPE (thermoplastic elastomer) combines the flexibility of rubber with the processability of plastic. We explain where it’s used, from grips to seals, and how we machine it at TiRapid for consumer and industrial applications.
3 vs 5 axis CNC-TiRapid
What’s the real difference between 3-axis and 5-axis CNC machining? We compare complexity, flexibility, accuracy, and cost, and share when each type makes sense for your project—based on TiRapid’s real-world experience.
WHAT ARE X Y AND Z?-TiRapid
Every CNC machine speaks in XYZ. But what do these axes mean? We explain how linear movements define part geometry and how multi-axis systems go beyond the basics for complex shapes and surfaces.
MICRO-PART PROCESSING-TiRapid
Making micro-sized parts takes more than shrinking your design. It takes stability, sharp tooling, and flawless programming. At TiRapid, we show you how we achieve micrometer tolerances in aerospace and medical miniatures.
SOFT METAL VS HARD METAL-TiRapid
Aluminum vs. tool steel. Which is better? We explain the machinability, strength, cost, and applications of soft vs. hard metals, and how to choose the right one for your CNC project.
DOES STAINLESSSTEEL RUST?-TiRapid
Stainless steel is corrosion-resistant, not corrosion-proof. Learn what makes it resist rust, when it fails, and how we select the right grade and finishing to make it truly durable in harsh environments.
CNC ROUGH PROCESSING-TiRapid
CNC roughing removes material fast, but there’s a science to it. We show you the tools, paths, and speeds we use to balance speed, tool life, and quality—especially when preparing parts for finishing.
CNC MACHINING COST-TiRapid
What affects CNC part costs? We break down design, material, quantity, machine type, cycle time, labor, and finishing. Get a clear picture of what you’re paying for and how to optimize it.
DESIGN IMPROVEMENT FOR DFM-TiRapid
DFM (Design for Manufacturability) starts with smart design. We share common pitfalls and show how tweaking your part can reduce cost, improve strength, and speed up delivery—without compromising function.
PROTOTYPE DEVELOPMENT-TiRapid
From concept to part, TiRapid guides you through prototyping. We cover CAD review, material choice, rapid machining, and testing so you can validate your design before scaling up.
PROTOTYPE TO CUST. PROD-TiRapid
Turning prototypes into final products requires workflow, QC, and scale-readiness. We show you how we bridge this gap at TiRapid with consistent materials, batch testing, and tight tolerances.