Carbide Inserts - turning insert for stainless steel
Ceramic inserts are not very versatile and need extra care when machining. Since ceramic is more brittle (than a material like carbide), choosing a thicker insert would be wiser for strength where possible. Ceramic inserts also require very high cutting speeds and with reinforced geometries, these can be used for roughing and finishing applications operations. Wedge or top clamp style holders are used to securely hold ceramic inserts. coolant can be used but is also not recommended in certain applications, please contact out expert technical team for more advice.
Our range includes everything from general purpose to high performance material specific inserts for a wide range of applications.
PCD stands for Polycrystalline Diamond and PCD turning inserts are designed for high performance turning of non-ferrous and composite materials. This includes aluminium alloys, brass, carbon fibre, glass fibre, composites and abrasive plastics. PCD is an advanced material, similar to CBN and is made by combining together selected diamond particles at high pressure and temperature. These types of inserts have extreme hardness properties due to it’s own composition containing (90-95%) diamond, the hardest material in the world. Therefore, they can retain sharp cutting edges for longer and have good thermal conductivity.
PCD is a synthetic diamond (up to 95% diamond, bonded to a tungsten carbide substrate), however, the diamond part is essentially pure carbon. Therefore, it is important that it is not used to machine ferrous materials, such as steel and cast iron, because at high temperatures the carbon atoms react with the part material to form iron carbide and can cause the diamond structures to collapse.
PCD turning inserts have been around for over 40 years now and are already commonly used across a wide range of manufacturing processes such as furniture, aerospace and to produce other special alloy components.
Ceramic turning inserts are often used in aerospace where large components are machined due to the higher cutting speeds.
CBN has boron as its primary element. These inserts are mainly suitable for for cutting hardened steel (HRc50-70) and best for light finishing. When machining CBN inserts no coolant is needed.
Please contact our expert technical team for advice on selecting the right turning insert for your job. Please call 01924 869 615 or email sales@cutwel.net
For ceramic turning inserts there are dedicated turning tools and boring bars which will allow you to achieve maximum cutting data and tool life. Due to ceramic insert geometries not utilising the standard clamping method of conventional holders, a wedge or top clamp method is used to firmly clamp the insert in place.
To summarise, Ceramic inserts are a recognised alternative to standard carbide inserts due to their high heat resistance, longevity and overall improved performance.
Ceramic turning inserts are made from either aluminium oxide or silicon nitride. They provide excellent performance when machining hardened steel, cast iron, steel and exotics materials. They are also the most popular solution for fast metal removal on nickel-based alloys. Ceramic inserts can cost up to three times more per cutting edge compared to carbide inserts. However, the dramatic increase in cutting speeds which results in quicker cycle times mean production costs are greatly reduced.
For the best results with CBN and PCD turning inserts, you can use standard Boring Bars for internal applications and double clamp, lever lock and multi lock turning tools for external applications. The double clamp system minimises vibration and maximises tool life. Through coolant can also improve chip clearance and tool life.
CBN is made by combining ceramic materials with micron-sized cubic boron nitride fragments at high pressures and temperatures. It almost matches the hardness of diamond, therefore making it the second hardest material in the world with an approx. Hardness of 70 GPa. These properties ensure a low rate of wear and its ability to maintain close tolerances during machining.
Du to technological advancements in various industries, more manufacturers are using CBN turning inserts when machining harder materials that are more heat and abrasion resistant. These include the automotive, aerospace, oil and gas and medical industries.
CBN (Cubic Boron Nitride) inserts can eliminate the need for additional grinding processes when machining high hardened steels
The UK's largest range of carbide turning inserts with a huge range of shapes and styles suitable for a variety of materials
Cutwel’s range of PCD inserts offer excellent surface finish and incredible performance. We also offer a big range of CBN inserts. These are only designed for machining high hardened steels. For ceramic inserts, we would recommend this for finishing and roughing applications. They also provide extended tool life through excellent wear resistance.
CBN inserts also eliminate the need for additional grinding processes when machining. They are a cost-effective alternative to diamond tools.
We commonly get asked why high performance turning inserts should be used over the more conventional carbide substrates. Our range includes CBN, PCD and ceramic turning inserts and in this article we will summarise what each of them are and why you should be using them.
CBN stands for Cubic Boron Nitride and CBN turning inserts are specifically designed for high performance cutting of ferrous metals. Typically, these are particularly used for hardened steel up to 70 Rockwell, but are also good for abrasive cast iron and HRSA’s (heat resistant super alloys) such as Inconel.
Ceramic inserts have longer tool life through excellent wear resistance whilst ensuring work efficiency by increased cutting speeds
As PCD is extremely hard, it is also brittle. This means it is not suitable for unstable machining conditions where vibration can occur. Also we would usually advise to use coolant when machining with PCD tools.
PCD (Polycrystalline Diamond) inserts are best used for machining non-ferrous materials. Although PCD has higher toughness than natural diamond, it’s still very brittle compared with other cutting materials. The most popular material machined with PCD is Aluminium, followed by plastics and brass.