(JDRDIATOOL@163.COM)Diamond blade,polishing pad, hole saw,drill bit, grinding wheel, cutting tools

Cutting glass demands extreme precision, smooth edges, and minimal heat buildup . Not every blade can handle the delicate nature of glass — but electroplated diamond blades are built exactly for this challenge. Here’s why they’re the go-to choice for glass manufacturers, artists, and optical industries around the world: 🔹 1. Sharp, Single-Layer Precision Electroplated diamond blades feature a single layer of diamond grits bonded with nickel electroplating . This structure ensures that each diamond crystal is fully exposed and razor-sharp , slicing through glass with clean, controlled precision . Unlike sintered or resin-bonded blades, they don’t pull, chip, or fracture the material. 🔹 2. Smooth Edges with Minimal Chipping When cutting fragile materials like glass, edge quality matters most. Electroplated blades maintain a steady, low-vibration cut , reducing the risk of micro-cracks or chipping . The result is a crystal-clear edge that requires little to no post-processi...

 In precision cutting industries, the choice of diamond blade directly affects product quality, productivity, and tool life. Two of the most commonly used types are electroplated diamond blades and resin-bonded diamond blades . While both rely on industrial diamond grit for superior hardness, their bonding methods — and therefore their cutting behavior — are fundamentally different. Let’s explore how these two technologies compare in performance, durability, and best-fit applications. 1. Bonding Technology Makes All the Difference Electroplated diamond blades feature a single, tightly controlled layer of diamond grit bonded onto a steel core using nickel electroplating . Each diamond crystal is fully exposed, delivering instant cutting sharpness and aggressive material removal. In contrast, resin-bonded diamond blades embed diamond particles throughout a resin matrix . As the resin wears away during operation, new diamond particles are gradually exposed — extending the ...