"We have seen that many shops are unwilling to change from their current processes, even if it means better finishes," said Kevin Burton, turning product and application specialist, Sandvik Coromant, Mississauga, Ont. "If the certified process uses an uncoated carbide insert, shops may not want to change to a coated or diamond insert because of the extra cost both from a time and financial standpoint. It’s the same with grades. With the new generation of grades out, some look different with different colours even though they typically have the same elements, just different percentages. Yet shops tend to be concerned about the coating being left behind on the surface of the part."

Burton noted that although current processes may be working, upgrading to newer cutting tools with different coatings or grades can provide significant productivity gains and better surface finishes.

"One misconception is that turning almost no material on the last pass will improve surface finish," said Tonne. "In most cases, the finishing pass depth should be equal to the radius of the tool used for turning. Using zero-depth passes will often fail."

Feel free to contact our friendly staff with any questions in regards to shipping costs. Email info@wallersindustrial.com.au or give us a call on (07) 4633 3774.

Upgrading to newer cutting tools with different coatings or grades can provide significant productivity gains and better surface finishes. Photo courtesy of Sandvik Coromant.

Your payment information is processed securely. We do not store credit card details nor have access to your credit card information.

The experts recommend using a physical vapour deposition- (PVD-) coated insert because it is thinner. With titanium, it’s not advisable to use a thick coating because of the chemical reaction that can occur. Many of today’s coatings have titanium in them, like TiCN, which is used in chemical vapour deposition (CVD). This is why PVD is more commonly recommended.

All shipping costs are calculated at checkout, depending on weight starting from $9.95 and increasing depending on the weight of your order.

For example, Ti-5553 requires a very hard surface coating to basically get through it. This material can run at only around 50 per cent of the speed of Ti6Al4V.

Wipers are considered primarily as high-feed-rate machining inserts. Using them shops can increase the feed rate, which translates into less time in the cut, effectively increasing tool life. But if wipers are used at a normal feed rate, shops can gain measurable improvements in surface quality.

"Speed is the killer in all materials but very much so in titanium," said Burton. "If you go from uncoated to coated, then your speed can go up. Speed is productivity because your feed per revolution stays the same, but the speed goes up. This allows the feed per minute to increase, which is an advantage. Typically, this can be around a 20 per cent gain in productivity. If a shop goes to, say, a PCD insert for finish turning, there will be an even bigger productivity gain. With coated carbide you can expect 150 to180 SFM but up to 600 with PCD. The gain in productivity is huge."

Similar to PCD inserts, wipers are the first choice in stable conditions and it’s recommended to use wipers whenever it is possible.

Image

Having the ability to direct the coolant to the cutting zone is particularly important with titanium. It’s also recommended that shops use both over- and under-coolant for finishing operations and depth of cuts below the nose radius. This allows for the full effect of the high-precision coolant for better chip control, surface finish, and tool life.

Carmex Precision Tools Ltd. is a leading manufacturer of high quality cutting tools. Carmex specializes in the production of threading tools for turning and milling. The product lines here at Wallers Industrial Hardware include Thread Turning inserts and toolholders, Mill Thread inserts and tool holders, Mill-Thread Solid Carbide and Spiral Mill Thread.

The low modulus of elasticity causes greater workpiece springback in these materials. This modularity is one of the material’s strengths, particularly when it comes to structural aerospace components that require that movability quality. However, this makes it a challenge to machine, often resulting in tool vibration, chatter, and poor surface finish.

Tonne noted that there is a misconception that shops can use a roughing insert for finishing. Geometries and edge preparations are specifically designed for an application, so he recommends inquiring with the tooling vendor on the best insert, not a universal insert.

A wiper insert is built up through a number of extra radii. This makes the engagement surface longer, which also affects the surface in a positive way. A long engagement surface also affects the cutting force and the vibration sensitivity.

Tonne added that titanium is much more sensitive to small changes in speed due to its heat-resistant nature. Speed should only be bumped up in 5-m/min. (15-SFM) steps. It’s also important not to run too slowly, because running below the recommended speed for a given tooling system will cause material to build up on the cutting edge, which effectively dulls the edge.

For many years shops have been using uncoated inserts in titanium, and many still do. But now with so many different types of titanium, there are additional factors to consider for better surface finish when turning.

Tonne added that it’s important for shops to inspect tooling centre height positions frequently. Incorrect cutting heights will result in reduced surface finish quality.

Keep up to date with the latest news, events, and technology for all things metal from our pair of monthly magazines written specifically for Canadian manufacturers!

Certain applications, particularly critical components in aerospace, have stringent surface integrity requirements. Many shops have had tried-and-true certified processes in place for years. These processes may be working, but with the latest cutting tool advancements, there are often better or more production options available, particularly as they relate to finish turning.

Luminoso has a bachelor of arts from Carleton University, a bachelor of education from Ottawa University, and a graduate certificate in book, magazine, and digital publishing from Centennial College.

It’s no secret that titanium alloys are difficult to machine, particularly compared to general and stainless steels. It has poor thermal conductivity and generates high cutting forces and heat at the cutting edge. The demand this material places on cutting tools is significant and can lead to both premature tool wear and poor surface quality if not done properly.

Finish turning of titanium must be a wet process. High-precision coolant offers significant advantages, particularly as it can be directed to the cutting zone. Photo courtesy of Sandvik Coromant.

Easily access valuable industry resources now with full access to the digital edition of Canadian Fabricating & Welding.

Titanium generally is used to produce critical aerospace components and medical devices. It offers a high strength-to-weight ratio and excellent corrosion resistance, which enables it to be used for designs with thin walls.

"All titanium runs with the same general parameters is one misconception," said Tonne. "Usually the phase of the metallurgy is the best starting point. Alpha phase titanium alloys tend to run higher speeds and feeds. Alpha beta, which is the most prevalent, is well-documented, and finally beta alloys are the most difficult. The key is to research the material and understand the properties."

"We noticed this many years ago when we introduced wipers," said Burton. "Because of the refraction of light, wipers produce a different-looking surface, showing a grey scale surface appearance. But the surface quality, when measured, is still better. That’s a challenge that many shops have to understand and overcome."

"Titanium in general does not shear efficiently, so the material springs back and the size control of a component is more difficult," said Edwin Tonne, training and technical specialist, Horn USA Inc., Franklin, Tenn. "The finishing pass depth must be carefully maintained to account for this behaviour. Additionally, during finishing the forces and heat are concentrated over a small region of the cutting edge, which breaks down the edge more rapidly than in other materials."

For finish turning, Burton suggests that polycrystalline diamond (PCD) inserts are the way to go because of the much higher surface speed, which of course reduces cycle time drastically. However, he noted that some shops have a difficult time accepting a visual difference of the surface.

"When we start finish-turning with PCD, it looks totally different than with other inserts," said Burton. "The titanium will look really nicely polished and almost have a hardened steel, superfinished look."

Image

Finish turning of titanium must be a wet process. A high-precision coolant offers significant advantages, particularly as it can be directed to the cutting zone.

Lindsay Luminoso, sr. editor/digital editor, contributes to both Canadian Metalworking and Canadian Fabricating & Welding. She worked as an associate editor/web editor, at Canadian Metalworking from 2014-2016 and was most recently an associate editor at Design Engineering.

Introducing the Latest Innovation from ISCAR: Endmill Thread-Milling Cutters with Indexable Inserts, Designed for High Productivity.

Wallers Industrial Hardware dispatches same day on all orders placed before 2pm Mon-Fri for shipping within Australia. Delivery times within Australia may vary.

"The rule of thumb is the surface finish will be twice as good when a normal feed rate is maintained; doubling the feed rate will maintain normal surface finish," said Burton.

Image

"PVD coatings have high temperature resistance and lubricous surface, which reduces built-up edge and heat," said Tonne. "When it comes to inserts, the best shape is round, but it is often not practical due to part shape. C- or W-style inserts offer the best finish with clearance for part features. For negative-type inserts, make sure the top rake is positive. If tight tolerances are required, fully ground inserts can improve outcomes."