Create a Honeycomb or Hexagon Pattern in Fusion 360 | Easy Beginner Tutorial

Learn how to create a honeycomb or hexagon pattern in Fusion 360 — the easy way! In this beginner-friendly Fusion 360 tutorial, we’ll walk through the exact process to design a hexagon infill pattern for projects like coasters, grids, vents, or lightweight 3D printed parts. You’ll see how to sketch, pattern, and extrude a clean honeycomb structure — without using complex math or measurements. This step-by-step guide focuses on quick and simple techniques that give professional results for 3D printing or CNC machining. What You’ll Learn: What we’re creating (honeycomb coaster) Creating the base outline for the design Sketching your first hexagon shape Setting up offsets and alignment guides Duplicating and aligning hexagons manually Creating a rectangular pattern for the honeycomb structure Adjusting spacing for perfect fit Cleaning up guide lines and sketch prep Extruding your pattern to finalize the 3D design Applying your pattern to any Fusion 360 body By the end of this video, you’ll know how to: Create a perfect hexagon or honeycomb pattern in Fusion 360 Use polygon and rectangular pattern tools effectively Build infill designs for coasters, 3D prints, or enclosures Design without needing formulas, grids, or complicated math This tutorial is ideal for Fusion 360 beginners, makers, and 3D printing enthusiasts who want to make beautiful and functional geometric designs fast. Tools Used: Sketch Polygon (Inscribe) Offset Rectangular Pattern Extrude If you found this helpful, please like 👍, comment, and subscribe for more easy Fusion 360 tutorials. Have another method for making honeycomb patterns? Drop it in the comments below — I’d love to hear it! Chapters: 0:00 – Designing a hexagon infill coaster (no math method) 0:24 – Creating the coaster base and overall dimensions 1:29 – Starting the hexagon sketch and basic sizing 2:20 – Offsetting the hexagon and creating alignment guides 3:37 – Duplicating hexagons and setting up the pattern 4:49 – Adjusting spacing and filling the coaster surface 6:51 – Extruding the pattern and final design result