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D250mm 고속 강철용 樹脂 결합 CBN 바퀴
Product Description: Resin bond diamond grinding wheel is a high-efficiency precision grinding tool that combines the superhard properties of diamond and the elasticity of resin and is widely used in the field of high-precision machining. Generally consists of a matrix, a binder and an abrasive layer. The substrate is usually made of aluminum alloy or steel to ensure structural strength and facilitate installation; the binder is usually phenolic resin, epoxy resin or
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검은 바켈라이트 판 다이아몬드 맷 및 선도 휠 CNC 기계
Black Bakelite Plate Diamond Grinding And Sharpening Wheel For CNC Machine "Black bakelite" grinding wheels refer to grinding wheels that use Bakelite (phenolic resin) as the binding agent. This material is the industry standard for producing high-performance, reinforced grinding and cutting wheels . Size Diameter Thickness Inner hole Grit Size 125mm 13mm 32mm D46 Advantages 1. High stability. The company is engaged in the production of diamond grinding wheel for a long time,
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12A2 樹脂 다이아몬드 바퀴 젖은 작업 磨削 및 날카로운 디스크 125mm
12A2 Resin Diamond Wheel Wet Work Grinding And Sharpening Disc 125mm Resin Bond is the most common choice in Diamond and CBN super-abrasive wheels. It forms a bond structure that keep the wheel sharp cutting, super surface finish, efficient grinding and less heat generating. The most important is that it is very cost effective. It is more competitive than Vitrified bond and Metal Bond. So it is broadly applied in the grinding industries. Grit size incl. Mesh 80/100#(D181),
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레지노이드 리그 밀링 휠 11A2 다이아몬드 디스크 125mm 휠 건조 작업
Resinoid League Grinding Wheel 11A2 Diamond Disc 125mm Wheel Dry Work 11A2 resin bond diamond grinding wheel is a specialized abrasive tool designed for precision grinding of hard, non-ferrous materials, ceramics, and composites. Grit size incl. Mesh 80/100#(D181), 100/120#(D151), 120/140#(D126), 140/170#(D107), 170/200#(D91), 200/230#(D76), 230/270#(D64), 270/325#(D54), 325/400#(D46) Diamond** is the hardest known abrasive, ideal for grinding: - **Carbide tools** (tungsten
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1A1 125*10T*32*10mm D126 건식 레진 본드 다이아몬드 연삭 휠 (초경합금용)
Product Description: Resin-bonded diamond grinding wheels are precision diamond tools specifically designed for dry grinding processes. They are made from diamond abrasive particles and a resin binder, and feature high efficiency, self-sharpening properties, and excellent elasticity. These grinding wheels offer high grinding efficiency, low heat generation, and resistance to clogging, and are capable of processing workpieces with complex shapes. They are widely used in the
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14F1 200*10T*32*6*4*R2 D181 레진 본드 다이아몬드 연삭 휠
Product Description: Resin-bonded diamond grinding wheels are precision diamond tools specifically designed for wet grinding processes. They are made from diamond abrasive particles and a resin binder, and feature high efficiency, self-sharpening properties, and excellent elasticity. These grinding wheels offer high grinding efficiency, low heat generation, and resistance to clogging, and are capable of processing workpieces with complex shapes. They are widely used in the
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12A2 樹脂 결합 다이아몬드 밀링 휠 125*25T*31.75*6*12mm D91 젖은 밀링
Product Description: Resin-bonded diamond grinding wheels are superhard abrasive tools made by firmly bonding synthetic diamond abrasives with a high-strength organic resin (such as phenolic resin or polyimide resin). Known for their exceptional self-sharpening properties, excellent polishing performance, and high surface finish quality, they are ideal for precision grinding and superfinishing a variety of hard, brittle, and high-hardness materials. This product is designed
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6A9 樹脂 결합 CBN 밀링 휠 100*30T*20*3*10mm 젖은 밀링 B126
Product Description: Resin-bonded CBN grinding wheels are grinding tools made with cubic boron nitride (CBN) as the abrasive material and a resin binder. They are specifically designed for the precision machining of ferrous metals and high-hardness materials (such as hardened steel, alloy steel, and heat-resistant steel), covering fields such as automotive parts, bearings, molds, and aerospace. Their processing efficiency and surface quality are significantly superior to
