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금속 보세 다이아몬드 도구

금속 본드 및 소결 다이아몬드 휠은 수직 캐빙 머신 용 전문가 급 휠로, 휠을 사용할 때 새로운 절단 지점을 노출하는 전체 mm 깊이의 다이아몬드 매트릭스를 가지고 있습니다. 소결 된 휠은 더 공격적인 절단을 위해 추가 크리스탈을 노출하도록 옷을 입힐 수 있지만 균등 한 마모를 보장하기 위해 연마 할 때 "좌우"패턴을 따르는 경우 드레싱이 항상 필요한 것은 아닙니다. 공장에서의 동적 밸런싱은 부드럽고 조용한 연삭을 위해 동심도를 보장합니다. 일반적으로 도금 또는 납땜 부품에 비해 소결 다이아몬드 공구의 경우 입자 크기를 한 개 더 크게 주문하십시오.

고강도 및 수명을 위해 개발 된 당사의 독점적 인 메탈 본드로 만든 메탈 본드 다이아몬드 코어 드릴, 메탈 본드 다이아몬드 코어 드릴은 세계에서 제조 된 최고급 코어 드릴입니다. 코어 드릴링 유리, 알루미나 석영, 루비 야그, 실리콘 및 기타 경질 연마 성 비금속 세라믹을 위해 금속 매트릭스 본드에 고정 된 다이아몬드 소결 다이아몬드 드릴 비트는 긴 수명을 위해 설계된 헤비 듀티 비트입니다. 일반적으로 소결 비트는 적절하게 사용할 경우 본딩 된 다이아몬드 드릴 비트의 수명보다 20 ~ 30 배 이상 긴 수명을 갖습니다. 견고한 디자인은 도자기 타일, 화강암 및 단단한 돌과 같은 매우 단단한 재료를 드릴링 할 때 긴 수명을 제공합니다.

Metal Bonded Diamond Saw Blades는 전문가 용으로 매끄러운 표면 마감을 제공하며 폐기물을 최소화해야하고 절단 속도가 필수적인 경우 모든 유형의 금석 (귀금속 및 준 보석)을 절단하도록 설계되었습니다. 다이아몬드 톱날에는 다이아몬드가 포함되어 있습니다. 유리, Lapidary, 세라믹 타일, 콘크리트, 벽돌 및 기타 단단한 재료를 통해 빠르고 깨끗한 절단을 할 수 있도록 블레이드 가장자리에 절단하십시오. 다이아몬드 블레이드에는 많은 유형이 있으며 돌, 콘크리트, 아스팔트 절단을 포함한 많은 용도가 있습니다. , 벽돌, 석탄 공, 유리 및 건설 산업의 세라믹; IT 산업에서 반도체 재료 절단; 보석 산업에서 다이아몬드를 포함한 보석 절단.

Performance

Metal-bonded diamond tools are widely used in various industries for cutting, grinding, and shaping hard and abrasive materials. Their performance is characterized by several key factors that make them suitable for specific applications. The performance aspects of metal-bonded diamond tools:

  1. High Hardness and Abrasion Resistance: Metal-bonded diamond tools are designed to withstand the extreme hardness and abrasiveness of materials such as concrete, stone, ceramics, and glass. The metal bond holds the diamond particles securely, ensuring they maintain their cutting or grinding edges for extended periods.

  2. Longevity: Metal-bonded diamond tools typically have a longer lifespan compared to other types of bonded diamond tools, such as resin-bonded tools. This extended lifespan reduces the frequency of tool replacement, leading to cost savings and increased productivity.

  3. Precision and Accuracy: These tools offer exceptional precision and accuracy in cutting and grinding tasks. They can achieve tight tolerances and fine surface finishes, making them suitable for applications where precision is critical.

  4. High Material Removal Rate: Metal-bonded diamond tools are known for their high material removal rates, making them efficient in removing large volumes of material quickly. This is especially important in applications like concrete grinding and stone cutting.

  5. Versatility: Metal-bonded diamond tools are versatile and can be used on a wide range of materials, including concrete, granite, marble, ceramics, and even some metals. They are suitable for various industries, including construction, stone fabrication, aerospace, and automotive.

  6. Heat Resistance: The metal bond provides good heat resistance, allowing the tools to operate at high speeds without overheating. This is essential for preventing tool wear and maintaining cutting or grinding performance.

  7. Reduced Clogging: Metal-bonded tools are less prone to clogging compared to resin-bonded counterparts, particularly when working with materials like concrete. This feature ensures continuous and efficient material removal.

  8. Consistency: Metal-bonded diamond tools deliver consistent performance throughout their lifespan. This consistency is essential for achieving uniform results in manufacturing and construction applications.

  9. Enhanced Productivity: Due to their high material removal rates and longevity, metal-bonded diamond tools contribute to increased productivity, reduced downtime, and lower labor costs.

  10. Variety of Shapes and Sizes: These tools are available in various shapes and sizes, including grinding wheels, saw blades, core drills, and more. This versatility allows users to select the right tool for their specific application.

  11. Environmental Considerations: Metal-bonded diamond tools are generally considered environmentally friendly because they produce minimal waste during operation and do not release harmful substances into the environment.

Grit Range

Cerium oxide polishing compounds are available in a range of particle sizes, typically measured in micrometers (µm) or nanometers (nm). The particle size you choose depends on the specific polishing application and the level of surface finish and precision required. Here's an overview of cerium oxide polishing compounds with particle size ranges:

  1. 0.01 µm to 0.1 µm (10 nm to 100 nm):

    • Cerium oxide polishing compounds in this ultra-fine particle size range are used for achieving exceptional levels of surface clarity and smoothness.

    • Ideal for polishing optical components, precision lenses, and glass substrates where a near-mirror finish is required.

  2. 0.1 µm to 0.5 µm (100 nm to 500 nm):

    • Polishing compounds with particle sizes in this range are suitable for high-precision polishing tasks.

    • Commonly used in the optics industry for producing lenses, prisms, and mirrors with superior surface quality.

  3. 0.5 µm to 1 µm (500 nm to 1,000 nm):

    • These cerium oxide compounds offer excellent surface finish capabilities and are used for a wide range of precision polishing applications.

    • Suitable for polishing glass, ceramics, and various optical elements.

  4. 1 µm to 3 µm (1,000 nm to 3,000 nm):

    • Polishing compounds in this range are considered fine abrasives and are used for achieving smooth and uniform surface finishes.

    • Applied in the final stages of polishing for optical, glass, and semiconductor components.

Application

Metal-bonded diamond tools find a wide range of applications across various industries due to their exceptional hardness and abrasion resistance. These tools are designed to cut, grind, and shape hard and abrasive materials.Applications for metal-bonded diamond tools:

  1. Stone Cutting and Profiling: Metal-bonded diamond saw blades are extensively used in the stone industry for cutting and shaping natural and engineered stones such as granite, marble, quartz, and slate. They are employed in the fabrication of countertops, tiles, monuments, and sculptures.

  2. Concrete Grinding and Polishing: Diamond grinding discs with metal bonds are essential in the construction and concrete polishing industries. They are used to grind and polish concrete floors, producing a smooth and glossy finish. Metal-bonded tools can also remove coatings and adhesives from concrete surfaces.

  3. Glass and Ceramic Processing: Diamond wheels and drill bits with metal bonds are employed for precision cutting, drilling, and profiling of glass and ceramic materials. These tools are used in the production of glass panels, mirrors, tiles, and electronic components.

  4. Stone Quarrying: Metal-bonded diamond wire saws are used in stone quarrying operations to extract large stone blocks. They offer high cutting efficiency and minimize waste during the extraction process.

  5. Aerospace Industry: Diamond tools with metal bonds are used to machine and shape hard and abrasive materials in the aerospace sector. This includes cutting and drilling operations on composite materials, ceramics, and advanced alloys.

  6. Metalworking: Metal-bonded diamond grinding wheels are used for precision grinding and sharpening of hard metals, carbide tools, and high-speed steel. They are common in the manufacturing of cutting tools and precision parts.

  7. Electronic and Semiconductor Industry: Diamond blades and drills with metal bonds are used to cut and shape silicon wafers and other semiconductor materials with precision. These tools play a crucial role in semiconductor device fabrication.

  8. Automotive Industry: Metal-bonded diamond tools are used for machining and profiling hard and abrasive materials in the automotive sector. This includes applications such as grinding engine components and cutting glass.

  9. Oil and Gas Drilling: Diamond drill bits with metal bonds are employed in the oil and gas industry for drilling through hard rock formations during exploration and drilling operations.

  10. Jewelry and Gem Cutting: Metal-bonded diamond saw blades and wheels are used for cutting, shaping, and faceting precious gemstones and jewelry materials like diamonds, sapphires, and rubies.

  11. Construction and Masonry: Diamond blades with metal bonds are used in construction and masonry applications for cutting concrete, asphalt, bricks, and other building materials.

  12. Woodworking: In some specialized applications, metal-bonded diamond tools are used for cutting and shaping wood, especially when the wood contains embedded abrasive materials or is mixed with resin.

  13. Art and Sculpture: Metal-bonded diamond tools are employed by artists and sculptors for creating intricate sculptures and artworks from hard and abrasive materials.

Diamension

The dimensions of metal-bonded diamond tools, such as grinding wheels, saw blades, core drills, grinding discs, and burrs, can vary widely depending on the specific application and manufacturer. These tools are available in various sizes and shapes to suit different cutting and grinding requirements. Here are some typical dimensions for each type of tool:

Metal Bonded Diamond Grinding Wheels:

  • Diameter: Typically ranging from 4 inches (100 mm) to 12 inches (300 mm) or more.

  • Thickness: Varies depending on the wheel's design and intended use.

  • Arbor Hole Size: The center hole that fits onto the spindle of a grinding machine typically ranges from 0.5 inches (12.7 mm) to 2 inches (50 mm) or more.

Metal Bonded Diamond Saw Blades:

  • Diameter: Common sizes include 4 inches (100 mm), 7 inches (180 mm), 10 inches (250 mm), 14 inches (350 mm), and larger.

  • Blade Thickness: Varies based on the blade's intended use and material to be cut.

  • Arbor Hole Size: Similar to grinding wheels, the hole that fits onto the saw machine's spindle can vary in size.

Metal Bonded Diamond Core Drills:

  • Diameter: Core drill sizes can range from very small, such as 0.25 inches (6 mm), to several inches (100 mm) or more.

  • Length: The length of the core drill depends on the depth of the hole required.

  • Shank Size: The shank diameter varies and should match the chuck size of the drilling equipment.

Metal Bonded Diamond Grinding Discs:

  • Diameter: Typically available in sizes similar to grinding wheels, ranging from a few inches to larger diameters.

  • Thickness: The thickness can vary based on the design and application.

Metal Bonded Diamond Burrs:

  • Bur Diameter: The diameter of diamond burrs can range from a few millimeters to several centimeters, depending on the specific type and application.

  • Length: The length of the burr depends on the design and intended use, with lengths ranging from a few centimeters to several centimeters.

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FAQ

Q: How do you use a diamond pad?

A diamond hand pad is a handheld abrasive tool with a flexible surface coated with diamond particles. It is used for grinding, smoothing, and polishing various materials, including stone, concrete, glass, and metal.

Q: How do I choose the right grit size for my project?

Select the grit size based on the initial condition of your workpiece and the desired level of surface finish. Coarse grits are suitable for rough grinding, while finer grits are used for smoothing and polishing.

Q: What safety precautions should I take when using diamond hand pads?

Wear safety goggles, a dust mask, and gloves to protect yourself from dust and debris. Additionally, work in a well-ventilated area or wear a respirator if working with fine dust particles.

Q: How do I maintain and clean my diamond hand pad?

After use, rinse the diamond hand pad with clean water to remove debris and residues. Gently pat it dry or allow it to air dry. Proper maintenance can prolong the pad's lifespan.

Q: What are some common applications for diamond hand pads?

Wear safety goggles, a dust mask, and gloves to protect yourself from dust and debris. Additionally, work in a well-ventilated area or wear a respirator if working with fine dust particles.

Q: What are the common grit sizes for diamond hand pads?

Diamond hand pads come in a range of grit sizes, from coarse (e.g., 50 grit) to fine (e.g., 3000 grit). The choice of grit depends on the specific task, with coarser grits used for material removal and finer grits for polishing.

Q: Do I need to use water or lubricant with a diamond hand pad?

Yes, using water or a specific lubricant is often necessary. It helps keep the surface cool, prevents overheating, and improves the effectiveness of the diamond particles in grinding and polishing. Some materials require dry grinding, so it's essential to check the manufacturer's recommendations.

Q: Can I use a diamond hand pad for dry grinding and wet grinding?

The suitability of a diamond hand pad for dry or wet grinding depends on the material and the pad itself. Some diamond hand pads are designed for wet use, while others are suitable for dry grinding. Check the manufacturer's specifications for guidance.

Q: Can diamond hand pads be used on curved or irregular surfaces?

Yes, diamond hand pads are versatile and can be used on flat, curved, or irregular surfaces. Their flexibility allows for contouring and shaping of various workpieces.

Q: Can I achieve a high-polish finish with a diamond hand pad?

Yes, with the right technique and progression through finer grits, you can achieve a high-polish finish on various materials using diamond hand pads. The finest grits are typically used for the polishing stage.

Diamond Abrasive Products
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