Processing of Machinable Ceramics

Machinable ceramics is a new type of ceramic material that can be processed into products with precise tolerances using the commonly used metal processing tools and devices. Their processing techniques are briefly described as follows:

Turning

The key to turning is to use a low cutting speed, preferably greater than 100 rpm, because the lower speed can cool the workpiece, preventing the formation of small cracks on the ceramic surface. The cutting speed is 0.05-0.13mm/r. Once proficient, cutting 3 mm at a time with a 45-degree turning tool is not a problem for the turning tool.

Low-speed operation should also be employed while turning machinable ceramic threads, and the cutting quantity can range from 0.03 to 0.05mm per cut. Both high-speed steel and carbide steel cutter heads can be utilized when the feed rate and speed are appropriate, although carbide steel cutter heads are preferable. Geometric parameters of the tool are as follows:

• Main declination f=80°
• Offset angle f1=5°-6°
• Knife inclination l=-2°
• Rear angle a=10°-12°
• Front angle g=15°-25°

Milling

Milling is comparable to turning. It uses carbide tools, takes a modest speed of 50 to 60 rpm, feed rate of 0.03-0.4 mm per revolution, and a maximum cutting depth of 3 mm. For milling planes, end faces, and spherical surfaces, the number of flutes makes no difference, but for smaller milling parts, a milling cutter with two flutes is superior to one with four.

Drilling

Drilling holes of various dimensions, the relationship between speed and feed rate is shown on the table below:

If you want to drill a larger hole, it is recommended to drill a small hole of about 1.5 mm first and a tapered surface of the same size as the hole on its bottom surface . This will prevent the surrounding material from collapsing during the drilling process, thereby improving the drilling effect. If not take above methods, fight on both sides or make a jigsawIt is feasible. Additionally, it is advisable to use 6, 8, and 10 drills in sequence when drilling larger holes.

When processing thin walls, start with the inner circle and support it with tools before processing the outer circle. High-speed steel, carbide drills, or carbide twist drills are all allowable. Flat drills (group drills) outperform pointed drills, and tungsten steel drills can be employed when considering efficiency.

The tapping of machinable ceramics differs from the tapping of metallic materials. The gap between the drilled and tapped holes of machinable ceramics should be bigger than that of metals. When tapping, the two sides of the thread in the hole are slopes, and tapping should always be performed in a single direction, never in reverse. After tapping, the workpiece should be rinsed in water and then the tap is reversed. A tap with four flutes performs better than that with two flutes. It is recommended that the tapping is carried out with water rush or even directly perform in water.

Sawing

A variety of saws can be used to process machinable ceramics. A hacksaw is a frequently used tool, and diamond and carbide saws are also available. Compared to other glass or ceramics, this machinable ceramic material is more than ten times easier to process. When using saw blades made of silicon carbide, the speed should be reduced.

Grinding

To avoid clamping too tightly and breaking during non-batch processing, cushion with kraft paper or sandpaper when clamping. The quickest and most cost-effective processing method of machinable ceramics is grinding, particularly when using diamond grinding wheels, which can keep the precise shape of the product and have a longer service life. Silicon carbide or aluminium oxide grinding wheels can also be utilized.

If a grinding wheel with a diameter of around 200 mm is employed, the speed can range from 300 to 2400 mm per minute, with 1800 mm per minute being preferred. The grinding wheel speed is 3600 rpm. It is recommended to use cooling water while grinding.

Finishing

To eradicate scratches on the machined surface, aluminium oxide or cerium oxide polishing powder can be used after washing for finishing on a thin, sticky cloth with a thickness of 6mm for approximately 15 minutes, and the surface roughness can reach 0.5. Round rod finishing can be wrapped with 0.05-0.10mm thin brass sheet, and the workpiece surface can be coated with 400-mesh silicon carbide paste.

Coolant

It is important to add an adequate amount of coolant to cool the material, such as saponified liquid, water, in order to achieve processed products with accurate tolerance. Use of specialized moulds is recommended for workpieces with intricate profiles and challenging processing. Drilling, turning, and milling can be done using high-speed steel tools without the need for water cooling. Turning, milling, and drilling using carbide-tipped tools are typically cooled with water or emulsion.