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📢 Grasshopper Workflow for Connection Details on Unrolled Mesh Strips – Zip Ties, Rivets, and More! 🔧📏 In this tutorial, I’ll walk you through a Grasshopper workflow for developing connection details on unrolled mesh pieces. Whether you're fabricating prototypes or assembling full-scale installations, having smart, parametric edge connections can save a lot of time and ensure precision in your build. I’ll demonstrate how to process all edge connections simultaneously, allowing for efficient detailing across your entire geometry. This makes it ideal for digital fabrication, especially when working with strip-based surfaces. What You’ll Learn ✅ How to identify and isolate edge curves on unrolled mesh strips. ✅ Creating two types of edge connection details: Zip tie slots for flexible, tool-free assembly. Overlapping hole patterns suitable for bolts, rivets, or nuts. ✅ Parametric control over spacing, hole size, and orientation. ✅ Processing all unrolled pieces in parallel using data structures and list operations. Bonus Tips 💡 Use colored tags or markers to identify matched edges during physical assembly. 💡 Add material thickness compensation when preparing holes and overlaps. 💡 Experiment with tolerances for different fabrication methods like laser cutting or CNC milling. This tutorial is ideal for architects, designers, and makers working with unrolled surfaces, panel systems, and digital fabrication. With this method, you’ll be able to create clean, buildable parts with embedded logic for assembly and construction. 🚀 👉 Let me know in the comments if you'd like to see more connection strategies or advanced fabrication workflows. 💬 🔥 Subscribe to the channel for more Grasshopper tutorials, fabrication workflows, and parametric design techniques. Your support keeps this content going! 📢 Let’s build smarter, more connected systems—one detail at a time! 🌍🛠️