Two of our most popular services are boring and turning. Both processes cut material away from a workpiece to create a new shape, but they do so in different ways. To select the right method for your application, learn more about each process here.

It is a physical process that typically occurs in a vacuum chamber at high temperatures, using techniques like sputtering or evaporation.

May be preferred for its speed and versatility in depositing a wide range of materials, making it suitable for various industrial applications including cutting tools.

Learn about Cylindrical Resonator MPCVD Machine, the microwave plasma chemical vapor deposition method used for growing diamond gemstones and films in the jewelry and semi-conductor industries. Discover its cost-effective advantages over traditional HPHT methods.

CVD Diamond Coating: Superior Thermal Conductivity, Crystal Quality, and Adhesion for Cutting Tools, Friction, and Acoustic Applications

RF-PECVD is an acronym for "Radio Frequency Plasma-Enhanced Chemical Vapor Deposition." It deposits DLC (Diamond-like carbon film) on germanium and silicon substrates. It is utilized in the 3-12um infrared wavelength range.

Like boring, turning uses a stationary, non-rotating cutting tool. However, instead of removing internal material and increasing inner diameter, turning removes external material from the workpiece, thereby reducing the outer diameter.

When it comes to coating inserts, two main methods stand out: CVD (Chemical Vapor Deposition) and PVD (Physical Vapor Deposition).

In boring, a non-rotating cutting tool—like a drill—removes internal material from a workpiece to create or enlarge holes. Boring must achieve tight tolerances and precise results, requiring the expertise of a skilled technician. The process is performed on a lathe, boring miller, or conventional milling machine.

These methods differ significantly in how they apply coatings, the materials they use, the conditions they operate under, and the properties of the coatings they produce.

Learn about Cylindrical Resonator MPCVD Machine, the microwave plasma chemical vapor deposition method used for growing diamond gemstones and films in the jewelry and semi-conductor industries. Discover its cost-effective advantages over traditional HPHT methods.

Discover the precision difference that KINTEK SOLUTION brings to your lab with our cutting-edge CVD and PVD coating inserts.

Through stringent testing and inspecting during all phases of production, Technox consistently demonstrates a commitment to high quality with every project. We work closely with our clients to deliver complete metal fabrication solutions and finishing services, which include painting, powder coating, plating, and more. From prototypes to high-volume production runs, we manage everything in-house to keep your costs low and ensure quick delivery. Contact us to learn more about our services, or request a quote to start your project today.

Whether you require the speed and versatility of PVD or the dense, uniform coatings of CVD, our expertly engineered inserts deliver superior performance for your application needs.

CNC turning centers are available in 3-, 4-, and 5-axis varieties. The more axes, the more complex geometries the machine can produce. All turning subtypes—tapered, hard, and spherical—require a cutting tool to remove material. Lathes are best for simple turning projects, while CNC turning centers are ideal for more complex capabilities that require multiple tool changers and chip conveyors.

Introducing our inclined rotary PECVD furnace for precise thin film deposition. Enjoy automatic matching source, PID programmable temperature control, and high accuracy MFC mass flowmeter control. Built-in safety features for peace of mind.

The nano-diamond composite coating drawing die uses cemented carbide (WC-Co) as the substrate, and uses the chemical vapor phase method ( CVD method for short ) to coat the conventional diamond and nano-diamond composite coating on the surface of the inner hole of the mold.

In summary, the choice between PVD and CVD coating inserts depends on the specific requirements of the application, such as the need for speed, material versatility, coating uniformity, and environmental considerations.

CVD PVD

This method transforms a coating substance from a condensed form into a vapor and then back to a condensed form as a thin film on the surface of items.

CVD Diamond Cutting Tools: Superior Wear Resistance, Low Friction, High Thermal Conductivity for Non-Ferrous Materials, Ceramics, Composites Machining

Upgrade your coating process with PECVD coating equipment. Ideal for LED, power semiconductors, MEMS and more. Deposits high-quality solid films at low temps.

Since our humble beginnings in 1976 as a job shop and repair company, Technox Machine & Manufacturing has grown into one of the largest complete metal fabrication operations in Chicago. As a one-stop shop, we offer machining, fabricating, grinding, and welding services for a wide range of industries, including steel, food, oil and gas, plastics, paper, textiles, and recycling.

pvdcvd比较

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While it requires more space and longer processing times, CVD is capable of producing coatings that are highly dense and uniform, which is beneficial for certain applications.

CVD diamond for thermal management: High-quality diamond with thermal conductivity up to 2000 W/mK, ideal for heat spreaders, laser diodes, and GaN on Diamond (GOD) applications.

Our horizontal, vertical, and CNC turning capabilities include 3- and 4-axis equipment that can produce parts with diameters up to 152” and lengths up to 240”, with tolerances of ± 0.001”.

At Technox Machine & Manufacturing, we provide many types of boring and turning services. Our state-of-the-art facility houses cutting-edge machinery and technology, including 15-ton lifting cranes to manage especially large parts. Our horizontal boring and CNC horizontal boring machines offer 5-axis capacity and a maximum work envelope of 120” x 152” x 70”, allowing us to produce complex parts with tolerances of ± 0.0005”. We work with a vast array of materials, including:

PVD coatings are generally less dense and less uniform than CVD coatings but can be applied quickly to a wide variety of materials.

Experience the Unbeatable Performance of CVD Diamond Dresser Blanks: High Thermal Conductivity, Exceptional Wear Resistance, and Orientation Independence.

CVD boron-doped diamond: A versatile material enabling tailored electrical conductivity, optical transparency, and exceptional thermal properties for applications in electronics, optics, sensing, and quantum technologies.

There are horizontal and vertical boring processes, but horizontal boring is generally more versatile. Vertical boring requires the workpiece to move while the tool is held in place, which translates to limitations in workpiece size. In horizontal boring, the workpiece is kept stationary, enabling larger part sizes, increased production speed, reduced tool deflection, and compatibility with CNC machining. With complex projects, these benefits add up to faster turnaround times and lower price points.

CVD diamond wire drawing die blanks: superior hardness, abrasion resistance, and applicability in wire drawing various materials. Ideal for abrasive wear machining applications like graphite processing.

Upgrade your coating process with PECVD coating equipment. Ideal for LED, power semiconductors, MEMS and more. Deposits high-quality solid films at low temps.