“There is this inclination for shops to buy a standard tool and modify it themselves or send it out to a grind shop for modification,” said Damon Wherry, technical design supervisor, Horn USA, Franklin, Tenn. “A lot of the time, this is more hectic than helpful, especially because this modification process essentially grinds all the coating away and reduces tool life. Instead, a special tool should extend tool life and better perform operations.”

Reducing cycle time, handling, scrap, and everything else that goes along with a special tool translates into huge cost savings.

While many operations can be combined in one tool—for example, drilling, interpolation, back chamfering, front chamfering, and boring— it’s important that those operations makes sense together. Kyocera SGS Precision Tools

“It is not coming off the shelf, so there is a lead time associated with it,” said Bruhis. “Some Tier 1 and OEM users may not want to deal with them because of this longer process. They prefer to open the website or catalogue, choose a tool, and have it within a certain timeframe. If that works, that’s the best option, but that’s not ideal for everyone.”

Exploring a special tool is not always front of mind for shop owners, especially if there isn’t an immediate need for one. And while there is absolutely a time and place for special tools, there are some things to consider that may come into play when looking to invest.

“If one feature is wearing faster than another, there is the option to re-engineer the geometry, whether that’s adding a rake angle or putting in an edge prep, to extend tool life of the feature that is prematurely wearing,” said Wells. “It could even be adding an optimized coating. There are a lot of optimizations that have to happen to finally get the tool exactly where you want it.”

“There is tooling designed to both profile and reverse profile,” he said. “This is known as multidirectional profiling. If this method is employed, cutting cycle times can be reduced.”

In many cases, the part itself will determine if reverse profiling makes sense. If it’s a simple cylindrical workpiece that requires the removal of 0.05 in. of material, then it doesn’t make sense to profile.

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.

“In drilling, it’s easy to do with a tool combining drilling and chamfering, or drilling, counterboring, and chamfering,” said Vetrecin. “In milling, for a slotting application, you can do multiple different steps in one operation instead of a doing each one by themselves.”

“A special tool has already been proven out,” said Lee Goad, technical supervisor, Horn. “It can be a plug-and-play option where a shop doesn’t have to do a lot of programming, offsets, or manipulations to get it to where it will finally cut a good part. There isn’t a need for trial and error with special tools because all of that is built into the design and build process of it.”

Goad uses the example of broaching and gear hobbing. Many years ago, shops would’ve machined all the part features on one machine except simple keyways, internal forms with square corners, or gear/spline forms, then move the part for secondary operation on a pull broach or gear hobbing machine where they would finish the component. This required some shops to send out these parts to shops that could cut these features.

Shops working with very expensive castings or high-value materials like in the aerospace sector, where scrapping parts is not an option, may find that a special tool is a great way to reduce or eliminate the errors.

“Turning (OD) and boring (ID) are terms used to change the diameter of a plain cylinder (OD) or hole (ID),” said Ken King, chief operating officer, THINBIT, Fort Wayne, Ind. “In profiling operations, the cutting tool is used to create shapes and complex grooves in a workpiece. Profiling and turning/boring operations are similar operations. Generally, we define reverse profiling as moving the cutting tool away from the chuck or collet while cutting.”

Higher Upfront Cost. There is a lot of research and information that goes into the design and development process, often making these tools more expensive than their standard counterparts.

“That upfront cost can be off-putting at first, and some may not immediately see the value in paying that higher price,” said Bruhis. “But there is a convenience and benefit to using them, and it’s important to not let that initial cost get in the way.”

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.

In traditional turning operations, the cuttings tool moves towards the chuck and spindle rather than away from it. This is because, typically, the cut should always travel in the strongest direction. A typical setup will feature a chuck, which is where the workpiece is held tightly, which is the strongest part of the machine tool. All of the cutting forces are absorbed in the axial direction into the chuck and spindle of the machine.

The challenge with using reverse profiling is ensuring that the workpiece doesn’t get pulled out of the chuck from the axial forces. Part geometry and setup play significant roles in determining if reverse profiling makes sense.

“This tilts the cutting edge quite a bit, which means that chips become very thin using that same feed rate,” said Garud. “To make up for that chip thinning, the feed rate needs to be increased, almost sometimes 50 to 60 per cent higher than traditional profiling. This can be an advantage because you are taking out material that much faster and potentially expanding the tool life using both sides of the insert.”

“A special can make it possible to have all operations done on a single machine, where before, the operation may have needed to be outsourced or moved throughout the shop,” said Goad. “While it may add a little more cycle time, the benefits of having a completed part done on one machine are huge. This also adds to part quality, as you can control all the quality aspects in-house rather than relying on other companies or the challenge of setting up correctly on multiple machines.”

Another challenge could be issues with rigidity where a special tool can be designed with this obstacle in mind and make up for the machine limitations.

“The shop may be awarded a job and realized that it doesn’t have a machine to run the specific part or feature,” said Wells. “It may have a 3-axis, but really needs a 5-axis machine. A special tool can be cleverly designed, for example, with an undersized shank with a larger cutting head to reach down into a bore on a 3-axis, where a 5-axis would be able to pivot to fit into that hole.”

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According to Yair Bruhis of YG-1, tailored or special tools are more high-performance tools and are not designed for general purpose. Instead, they are based on the application and can include special carbides, geometries, or coatings, like the DLC coating on the ALU-POWER HPC solid-carbide end mill. YG-1

May Require Extra Optimization. With special tools, it’s important to know that it isn’t always correct right off the bat. There are some tweaks and adjustments that need to be made either to the tool or the process for it to be effective.

Another example of where a special tool would make sense is in a job shop environment where aggressive work quoting takes place.

“Tailored or special tools are more high-performance tools,” said Yair Bruhis, global product and application manager, YG-1 USA, Vernon Hills, Ill. “These tools are no longer for general purpose. Instead, they are based on the application and can include special carbides, geometries, or coatings depending on if the application warrants it.”

The experts agree that reverse profiling is often associated with ID work. Part of the reason for this is because chip evacuation can be challenging in a bore. Birdnesting that occurs on the OD is manageable. However, with birdnesting that occurs with ID work, chips don’t easily come out and you risk damaging the insert because it will recut the chips.

“For example, a milling machine may have a limited number of toolholders available so operations may need to be combined in a special tool to maximize the machine’s existing toolholding capacity,” said Vetrecin.

Another area where specials make sense is when working with workpieces with complex forms that cannot be accomplished with a standard tool. In these instances, shops may look for a number of different standard tools, but nothing may meet the necessary requirements.

“Many shops like to use standards because they don’t want to wait or rely on a tooling supplier,” said David Vetrecin, product manager, holemaking, ISCAR, Oakville, Ont. “However, once a shop has implemented one, it often finds that the special tool opens up lots of possibilities. In today’s manufacturing environment, shops increasingly need to think out of the box to compete. If shops aren’t open to new ways of doing things, they may lose out on some opportunities.”

“If it's a complicated profile with varying features, like a chamfer, undercut, taper, or curves, all of these features on a workpiece typically suggested that you will need multiple axes of motions,” said Sarang Garud, product manager, turning/drilling/boring, Walter Tools, Waukesha, Wis. “This is where reverse profiling makes sense. It’s also very common for ID boring to have internal profiles, so we see reverse profiling in those applications too.”

Combining operations in one tool is one of the most common ways for shops to reduce cycle time and produce parts faster.

However, not all applications make sense for a special tool. Most shops are happy with a standard tool as long as it performs how it needs to.

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There are some applications that demand a special tool, and others where a special may be preferrable. There are many ways these tools can enhance machining operations.

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“When we take three tools and combine them into one, that means only one toolholder is needed,” said Wells. “You only need to purchase and keep one in inventory. That also means one tool setting, one tool change, it eliminates all of this. It may be a more expensive tool on the onset, but overall, there can be ancillary cost savings.”

A special tool can be used to broach a gear form or keyway inside one machine while it’s still chucked up from the previous operation. Horn provides standard and made-to-order tools for a variety of broaching applications. Horn

Longer Lead Times. Similar to a varying price point, the lead times from inquiry to putting the tool on the machine can be longer than ordering a standard out of a catalogue.

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“It’s not necessarily about combining everything into one tool,” said Wherry. “It’s important to get all the information and quote a package of tools that suits the application needs. That could be a special, but it also could be a package of tools. This could include a special tool, but it also could include several standard tools. It’s not about pushing a special, it’s about finding the right option or options.”

Reduces Cycle Times. Any machine shop will tell you that time is money, and saving even a few seconds of cycle time can be a huge boon in production value.

While both types of profiling are equal in cutting parameters, the biggest drivers for choosing reverse profiling are chip evacuation and finished part geometry. THINBIT

“Every machine environment has different variables that come into play, such as deflection,” said Wells. “A special tool can be designed to meet tight tolerances that are unable to be achieved with a standard. With extremely tight tolerances, special tools can be designed to take into account deflection as well as coating thickness to achieve certain quality requirements.”

Lead angle plays an important role in chip development. For applications using a V-style insert with a conventional profiling lead angle is 107.5 degrees, that lead angle suddenly becomes 35 degrees with reverse profiling.

May Not Be What Was Expected. Not all special tools are designed well, which is why it is important to partner with a tool supplier that has experience with custom tooling and can make recommendations or even suggest other options when it doesn’t make sense.

Special tools can be as simple as adding an advanced coating or changing the length of the shank to one that is currently unavailable as a standard size, or as complex as a situation where standard tools, which generally have five or six flutes, can’t accommodate an application that warrants upwards of 12 flutes, requiring something custom.

“Because of this, there has been a shift to think about doing it all on one machine rather than having to send it out to someone who does gear cutting,” said Goad. “Today, a special tool can be used to broach the gear form or keyway inside the machine while it’s still chucked up from the previous operation.”

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!

The depth of cut with any type of profiling tends to be much smaller than roughing, medium, or finishing depth of cuts. However, the depth of cut should be more than the corner radius of the insert.

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King added that while both types of profiling have equal cutting parameters, the biggest drivers for choosing reverse profiling are chip evacuation and finished part geometry.

For example, many components requiring complex profiling, including contours, chamfers, and undercuts, tend to be produced at high volumes where there is a high demand for reduced cutting time.

Wells noted that standard tools are priced according to market conditions and often stay within a certain range, depending on what the market will bear. With specials, the price can fluctuate dramatically.

Decreases Part Handling. Combining operations in a single tool means that one tool on one machine can be used to perform multiple operations. This limits the potential for a part to be moved to a different machine or handled in any way.

Wells noted that while many operations can be combined in one tool—for example, drilling, interpolation, back chamfering, front chamfering, and boring— it’s important that those operations makes sense together.

Easily access valuable industry resources now with full access to the digital edition of Canadian Metalworking.

“Reverse profiling is very good for avoiding chip packing in blind bores,” said King. “It also makes chip evacuation easier as it naturally directs chips out of the bore.”

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

Leads to Overall Cost Savings. While the initial cost of the tool may seem steep, there are other cost savings associated with a special tool.

“Our workforce isn't as strong as it was back in the ‘90s,” said Goad. “For example, a general operator may not be as familiar with certain aspects of the machining trade. With a special tool, it can control all features in one tool. A standard tool can’t do that, and that means that an inexperienced operator may take time to chase down different tools and process everything individually. The special tool can provide peace of mind and consistency for all operators.”

While special tools can be more expensive, there is a break-even point. For low-volume part runs, it doesn’t necessarily make sense to invest in a special tool. But if volume warrants it or there is an ongoing job that requires it, a special tool is the way to go.

“In the long run, and sometimes even immediately, the benefits of a special tool can outweigh the cost of that tool,” he said.

“For example, an aerospace disc and blade assembly requires a very specific complex fit and root form on the parts where there is not one single standard tool available to machine that form,” said Jason Wells, president, Tech Hub, KYOCERA SGS Precision Tools, Danville, Va. “Specials can be designed based off of that form, where up to five operations can be combined to make it happen.”

“When profiling, you are using the 35-degree angle going towards the spindle, using one cutting edge,” said Garud. “When reverse profiling and moving away from the spindle, you are using the other cutting edge. That’s a significant tool life advantage. Secondly, it can save a lot of time because you are not rapiding out then coming back in.”

“For example, for a shop that’s doing millions of automotive parts, and a special tool can save four or five seconds per part, that’s a huge amount of time savings,” said Vetrecin. “But a shop doing a few one-offs may not necessarily see the value.”

There are many advantages of reverse profiling. For example, in many cases, a V-style insert is used for profiling. These diamond-shaped inserts are very sharp and have a very narrow 35-degree included angle.

When a shop takes on a project and starts to look at the machining process, it most often reaches for standard or general-purpose tools. These tools are off-the-shelf options that can be purchased easily. However, as applications become more complex, standard tools don’t always cut it.

“There's a massive impact when you can use a better tool, like an end mill with a specialized coating, that shaves a minute or two off cycle time,” said Wells. “Over thousands of parts, that adds up. However, if you go in with a special tool that combines three operations, it can shave off five or six minutes off an application over those thousands of parts, creating even more significant gains with fewer resources required.”

If your workpiece has a complicated profile with varying features, like a chamfer, undercut, taper, or curves, you will need multiple axes of motion. Walter Tools

“When combining operations, it’s important to be realistic,” said Wells. “Be cognizant of drastic diameter changes. One operation in a 1 in. diameter combined with another that requires a ¼ in. diameter can be a massive diameter transition and step down. While a user may want this, it may not work; and if it does, it may be a very expensive proposition.”

“Don’t get too design-happy,” said Wells. “It’s important to look at the application and really understand the physics behind it. Partnering with a good tool supplier that will push the envelope but not overreach is a good place to start because the tool is only as good as its weakest feature. Sometime there can be expectations that may not be feasible or the most effective. A certain geometry on the platform can lose function quickly while others are still useable, but that means the tool life is dictated by that weakest feature. A tooling supplier should advise what works, but that could mean two tools that do two operations each that will last three times as long as a single tool that does four operations. It's all about finding the right configuration.”

This is why setup is one of the biggest factors determining success for reverse profiling. Without a strong and proper setup, both the tool and workpiece face forces that can make this operation impossible to complete.

Removes Skills Barriers. A special tool is often designed by experts in the field who have deep knowledge and understanding of the machining process. This means that all the guesswork has been taken out of the process.

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.

“Machine tool capabilities are important to understand,” said Garud. “On the hardware side, a rigid setup is important. You don’t want long overhangs. The rest of it can be managed through depth of cut, corner radii, and basic process parameters. A CAM program also will likely be necessary. If it is a simple undercut, this can most often be done manually. But typically with profiles, the complexity requires a good CAM system.”

“If coolant is used, it should always be applied to direct chips away from the cutting area,” said King. “Cutting geometry is on the trailing side of the cutting edge, which also is the side of the toolholder body. Cutting depth and chip clearance all need to be verified.”

“It’s really an opposite thought process for programmers and operators,” said King. “Pull from chuck versus push toward the chuck changes axial forces, and chips flow differently. Reverse profiling pulls on the part and pulls on tools, which could result in pulling the cutting tool out of its holder or pulling the stock out of the chuck.”

In drilling, it’s easy to do with a tool that combines drilling and chamfering, or drilling, counterboring, and chamfering (shown here). ISCAR

“There are a few things to watch out for,” said Garud. “It’s important to be careful when going up to a shoulder when moving away from the spindle. You also have to manage the exit of the tool so that you are not crimping chips between the shoulder and the insert. Depending on the condition, you can back off from the cut in a 45-degree angle when you are rapiding out. Then you can come back and do a finishing pass later, especially if you have multiple passes going toward the shoulder.”

Easily access valuable industry resources now with full access to the digital edition of Canadian Metalworking.

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.

Offsets Machine Limitations. There are many scenarios where a special or custom tool is needed, but it is particularly helpful in dealing with equipment limitations.