With a single Emuge 3/4" (19 mm) – 10 3BX C-Ti style tap, Harris is now producing 300-400 holes on the huge Hardox 450 steel (45 HRC) wear plates. “Before using the Emuge tap, we were only able to thread up to about 67 holes at most without the tap failing,” said Parks. “In fact, the Emuge tap still performs well after 400 holes,” he said.

Gary Schmidt, applications engineering for M.A. Ford Manufacturing Co. Inc., Davenport, Iowa, recommends basing reaming parameters on those for holemaking with carbide drills, cutting the reaming speed in half and doubling the feed. The increased feed will load the reamer and prevent it from rubbing and wearing prematurely, he noted. M.A. Ford produces standard solid-carbide reamers from 0.013 " to 5⁄8 " and specials up to 1¼ ".

Schmidt noted the coatings on M.A. Ford reamers are from 0.0001" to 0.0002" thick and are applied by outside coating companies via flash coat to reduce coating cycle time, and, therefore, coating thickness and the amount of heat entering the tools. The coatings for nickel-alloy reaming applications are primarily silicon-based, he added, noting TiAlN and AlCrN, which are not silicon-based, are also effective.

Because nickel-base alloys withstand high temperatures, not much heat enters the material and the heat that does enter is carried away when chips are made. Therefore, coolant is needed to keep cutting edges from overheating and causing premature tool failure while helping to clear chips.

Fluid that reduces temperature buildup at the tool/workpiece interface during machining. Normally takes the form of a liquid such as soluble or chemical mixtures (semisynthetic, synthetic) but can be pressurized air or other gas. Because of water’s ability to absorb great quantities of heat, it is widely used as a coolant and vehicle for various cutting compounds, with the water-to-compound ratio varying with the machining task. See cutting fluid; semisynthetic cutting fluid; soluble-oil cutting fluid; synthetic cutting fluid.

Engagement of a tool’s cutting edge with a workpiece generates a cutting force. Such a cutting force combines tangential, feed and radial forces, which can be measured by a dynamometer. Of the three cutting force components, tangential force is the greatest. Tangential force generates torque and accounts for more than 95 percent of the machining power. See dynamometer.

“We were using budget-priced taps and were constantly breaking them, changing out the tooling and having to repair parts due to tapping issues,” said Parks. “Emuge recommended performing a test with its tap compared with the incumbent tap in our challenging application, and the results have exceeded our expectations.”

Dimension that defines the exterior diameter of a cylindrical or round part. See ID, inner diameter.

To maintain a sharp cutting edge, the coating can’t be too thick. “A thick coating does not necessarily mean you have a better tool,” von Rohr said. “It’s actually the opposite; a thick coating may crack easier.”

However, optimizing the speeds and feeds for each material can also prove effective. Allied Machine & Engineering Corp.’s Jacob Miller emphasized this when reaming bimetal workpieces, such a thin Inconel explosion-bonded cladding on A 516 70 steel or 316 stainless. That might require starting at a slow surface speed and then increasing it once the tool passes the cladding.

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Miller pointed out that Allied offers coated and uncoated carbide and cermet reamers, and Allied generally recommends uncoated cermet tools for high-speed reaming. “There’s not a dramatic benefit to putting a coating on cermet as far as tool life,” he said, noting that cermet withstands tool wear from nickel alloy’s abrasiveness better than carbide.

“Even under the best conditions, stresses may be produced that distort the work,” von Rohr said. “For maximum dimensional stability, it is best to rough the part almost to size, stress-relieve it and then finish it to size.”

Harris, which has been an industry leader in manufacturing scrap recycling and processing equipment for over 100 years, is staffed by expert factory technicians, well-trained customer service representatives and knowledgeable employees at two state-of-the-art manufacturing and service facilities in Georgia. Harris’ recycling equipment is highly regarded as trustworthy and exceptionally durable. The Harris engineering group has years of experience and employs the latest innovative cutting edge technology to design safe, cost-effective equipment.

Space provided behind the cutting edges to prevent rubbing. Sometimes called primary relief. Secondary relief provides additional space behind primary relief. Relief on end teeth is axial relief; relief on side teeth is peripheral relief.

“The Emuge tap is long-lasting, minimizing the need to perform tool changes. Now we have at least an extra hour every week to run more parts. You really do get what you pay for,” said Parks. Even though the Emuge tap costs $50 more than the incumbent tap, it lasts much longer so that only 17 Emuge taps are needed for annual production of the liners as compared with 75 of the competitor’s taps. Parks continued, “We haven’t broken an Emuge tap yet.” Harris Equipment is now testing more Emuge taps, including the larger diameter 1" (25.4 mm)–8 C-Ti style to see where more improvements can be made, including in even harder material ranging up to 50 HRC.

“Because inserts are not brazed onto the body, high-performance coatings can be considered,” he said, noting indexable inserts repeat within 0.0001 ".

Minimum and maximum amount a workpiece dimension is allowed to vary from a set standard and still be acceptable.

Grooves and spaces in the body of a tool that permit chip removal from, and cutting-fluid application to, the point of cut.

He noted TiAlN is the most common coating for nickel-alloy applications, but AlCrN is also suitable.

Click the image above for a video demonstrating an ALVAN replaceable-head reamer from Allied reaming an Inconel 718 workpiece.

Sollich added that the tool’s double-effective cutting configuration allows users to substantially increase the feed rate versus a single-cutter reamer. For Inconel 718, he recommends a feed of 0.040 to 0.060 ipr.

The Emuge C-Ti HSSE (high-speed steel) tap has 15° left-hand spiral flutes designed for tapping through holes in high tensile strength materials, including titanium alloys. TICN coating is applied to the tap for additional wear resistance. The taps produce a 3B tolerance thread form and have a form D chamfer length of 4-5P.

Substances having metallic properties and being composed of two or more chemical elements of which at least one is a metal.

To withstand the enormous amount of wear and friction that its recycling equipment must endure, Harris uses materials that are hardened and abrasion-resistant to build reliable, long-lasting, products. These materials are challenging to machine, in the 35-46 HRC hardness range.

Similar to other machining processes, reaming nickel alloys requires a significantly slower cutting speed compared to most other materials, Miller noted. “Usually it’s between 60 and 80 sfm for coated carbide,” he said.

On conventional reamers, a chipbreaker is effective for controlling chips but it reduces tool life compared to a reamer without one, according to KOMET’s von Rohr. A chipbreaker may not even be required to control nickel alloy chips. That’s because, as the material workhardens, it becomes more brittle and tends to break from the parent material before becoming long and stringy, he added. “The nickel itself almost acts like a chipbreaker.”

The float reaming tools, which can open existing bores up to 1⁄8 " on diameter, are applied only in a deep-hole drilling machine and can ream holes 100 diameters deep or more, according to the company.

BTA Heller's float reaming, or skive, tool's body holds a floating cutter magazine with two cartridges and two indexable inserts that oppose one another and have diametrical adjustment of 0.080" to 0.118", depending on the tool diameter.

In addition to running at the correct feed, applying reamers—which cut only on the bevel and taper leads and not on the lands—with up-sharp cutting edges and positive rake angles will shear nickel alloys rather than push the material. “The biggest concern is making sure you have a sharp tool geometry to minimize the amount of heat you produce,” said Allied’s Miller.

Because nickel alloys tend to workharden, a slower speed reduces friction and heat generation, von Rohr added. Just as a drilled hole guides a reamer, drilling speed can direct reaming speed. A rule of thumb is to ream at about two thirds the drilling speed, he noted.

Although sulfur has its benefits, workpiece staining can result if the oil and workpiece temperatures rise too high during reaming, KOMET’s von Rohr explained. Prior to heat treatment, users can remove the stain with a cleaning solution of sodium cyanide or chromic-sulfuric acid. “To avoid intergranular corrosion,” he cautioned, “the parts should be immersed in the cleaning solution only long enough to remove the stain.”

Measure of the relative efficiency with which a cutting fluid or lubricant reduces friction between surfaces.

When using BTA Heller’s float reaming system, coolant volume is more important than pressure, with 25 gpm per inch in tool diameter being the rule of thumb, according to Sollich. He recommends applying sulfur- or chlorine-based cutting oil and maintaining the oil temperature at 80° to 85° F with a chiller unit to extend cutting tool life 15 to 30 percent.

Angle of inclination between the face of the cutting tool and the workpiece. If the face of the tool lies in a plane through the axis of the workpiece, the tool is said to have a neutral, or zero, rake. If the inclination of the tool face makes the cutting edge more acute than when the rake angle is zero, the rake is positive. If the inclination of the tool face makes the cutting edge less acute or more blunt than when the rake angle is zero, the rake is negative.

Thin web or film of metal on a casting that occurs at die partings and around air vents and movable cores. This excess metal is due to necessary working and operating clearances in a die. Flash also is the excess material squeezed out of the cavity as a compression mold closes or as pressure is applied to the cavity.

Compared to reamers with brazed carbide tips, indexable-insert reamers offer more coating options, according to von Rohr. That’s because the carbide tip must be coated after brazing and the temperature used to apply the coating cannot be higher than what the brazed connection allows, meaning too high a temperature would cause the braze to fail.

Condition of vibration involving the machine, workpiece and cutting tool. Once this condition arises, it is often self-sustaining until the problem is corrected. Chatter can be identified when lines or grooves appear at regular intervals in the workpiece. These lines or grooves are caused by the teeth of the cutter as they vibrate in and out of the workpiece and their spacing depends on the frequency of vibration.

Machine designed to rotate end-cutting tools. Can also be used for reaming, tapping, countersinking, counterboring, spotfacing and boring.

Tendency of all metals to become harder when they are machined or subjected to other stresses and strains. This trait is particularly pronounced in soft, low-carbon steel or alloys containing nickel and manganese—nonmagnetic stainless steel, high-manganese steel and the superalloys Inconel and Monel.

A reamer’s geometric configuration also helps minimize chatter—especially unwanted in a finishing operation. Reamers frequently have asymmetrical flute spacing to disrupt the natural-harmonic-frequency generation that causes chatter during machining, von Rohr noted. He added that the flute design can aid machinability when interrupted cutting, such as when reaming cross-holes. “Dihart always uses asymmetrical-flute spacing for our high-performance reamers,” he said.

The CNC vertical machining center (VMC) parameters reveal just how challenging the test of the 45-HRC HARDOX 450 material would be. The feed rate was 6.6 ipm (0.16 m/min) and feed was 0.1000 ipr (2.54 mm/rev) with a 1.5" (38.1 mm) depth of cut, a drill diameter of 0.656" (16.7 mm) and a nominal diameter of 0.7500" (19.0 mm). The cutting speed was 13 sfm (3.9 m/min) and the spindle speed was 66 rpm. In the test, tool change time was five minutes and the cycle time per hole was 27.2 seconds.

An important part of the manufacturing process is machining holes with strong threads, which Harris has been producing on horizontal and vertical CNC milling machines. Wanting taps that are long lasting and that could produce consistent results, Harris approached Emuge Corp. to see what improvements could be made in the thread making process.

He added that the lead angle varies, depending on whether the hole being reamed is a through- or blind-hole. When reaming a through-hole, a 45° lead angle rolls the chips forward—ahead of the tool and out the hole. In a blind-hole, a 20° lead directs the chips back up the flutes and out the hole.

Recycling equipment manufacturer Harris Equipment Co., Cordele, Ga., saved 50 percent per job tapping Hardox 450 steel wear plates by switching to taps from Emuge Corp., West Boylston, Mass. The 45 HRC wear plates are used as liners in the interior of its recycling products, such as cardboard balers.

Hole or cavity cut in a solid shape that does not connect with other holes or exit through the workpiece.

Alan holds a bachelor’s degree in journalism from Southern Illinois University Carbondale. Including his 20 years at CTE, Alan has more than 30 years of trade journalism experience.

“The way I usually explain it to customers is it is very similar to reaming a casehardened material,” said Gary Schmidt of M.A. Ford Manufacturing Co. Inc. “You have the outer crust that’s very hard and you have a softer center. Metal-matrix composite materials are that way too.”

For information on Harris Equipment Co., please visit harrisequip.com or call 229-273-2500. For information on Emuge Corp., visit www.emuge.com or call 508-595-3600.

He added that balancing tool geometries for both materials rather than optimizing them for one can prove effective.

However, the properties that make nickel alloys desirable for extreme environments, such as those found in pressurized-water reactors at nuclear power plants and in aerospace turbocharger rotors, make the metals a challenge to machine. That’s because the high pressure the cutting tool exerts on the workpiece during machining produces a stressed and deformed surface layer, explained Adrian von Rohr, Dihart product manager for KOMET of America Inc., Schaumburg, Ill. This deformation causes the workpiece surface to harden, slowing the machining process.

“What we’re seeing on some of the newer reamers is just a bit of a cylindrical margin, so, if you have chipping, the cutting edges are backed up,” Schmidt added. With that design on a reamer with a smaller relief angle, toolmakers place more support on the back of the cutting edge, making the edge stronger.

Iscar’s Edler agreed. “As long as you have a good concentration of water-based coolant, say 10 to 12 percent, everything will be fine.”

Not all influential reamer geometries can be readily seen. Coolant channels facilitate metalworking fluid flow to effectively evacuate chips and can also vary in design depending on what type of hole is being reamed. When it’s a blind-hole, Schmidt pointed out that M.A. Ford engineers the though-coolant design so it directs the flow backward, whether through one central channel or two holes, and helps bring chips out the top of the hole instead of sending them to the bottom.

When reaming nickel alloys, the tool must remove sufficient stock so material that isn’t workhardened is removed, according to von Rohr. The starting point recommendations are 0.010 " for a ¼ " hole, 0.015 " for a ½ " hole and up to 0.025 " for a 1½ " hole.

According to von Rohr, too low a feed rate results in glazing, or workhardening, of the workpiece and excessive tool wear, while an excessive feed reduces the accuracy of hole dimensions and surface finish quality. He recommends a feed from 0.0015 " to 0.004 " per flute per revolution when reaming nickel alloys.

Often used as a tool coating. AlTiN indicates the aluminum content is greater than the titanium. See coated tools.

About the Author: Alan Richter is editor of CTE. He joined the publication in 2000. Contact him at (847) 714-0175 or alanr@jwr.com.

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“Your CNC will allow you to run at two different parameters as you’re going through the workpiece,” Miller said.

Tough, difficult-to-machine alloys; includes Hastelloy, Inconel and Monel. Many are nickel-base metals.

Now that the Emuge taps have been implemented, productivity has increased over 20 percent in the number of holes per tap, saving Harris 50 percent of its cost per job. Harris manufactures the liners in a wide range of sizes, from 6 x 10" (152 × 254 mm) to 32 × 84" (813 × 2134 mm) with an annual cost savings estimated at nearly $6,000 when using the Emuge taps.

Instead of removing 0.005 " to 0.008 " of material for holes under ½ " in diameter and 0.008 " to 0.012 " of material for holes ½ " and larger when reaming non-nickel-alloy materials, Iscar’s Edler recommends 0.004 " of stock removal for all nickel-alloy holes. An exception is when the drilled hole is egg-shaped, or out of round, more than 0.004 ". “You’re going to have an area that is not going to clean up,” he said. “You would then need to leave more material to have a completely finished hole.”

Microprocessor-based controller dedicated to a machine tool that permits the creation or modification of parts. Programmed numerical control activates the machine’s servos and spindle drives and controls the various machining operations. See DNC, direct numerical control; NC, numerical control.

In addition to coolant concentration, applying it at high pressure is essential when reaming nickel alloys, Edler said. “The higher the pressure, the better the coolant penetration to get beyond that zone where the heat is being generated and to cool down the cutting edge, as well as the material.”

“Our customers demand the highest quality equipment with performance that will outlast any of our competitors’ products,” said Heath Parks, industrial engineer/programmer at Harris Equipment. “We produce 55 percent of the recycling and waste equipment in the industry, so we need to continually ensure we are using only the best tooling, engineering and construction products.”

Hole or cavity cut in a solid shape that connects with other holes or extends all the way through the workpiece.

To support those sharp edges, the relief angles must be slightly less steep than on reamers for less demanding materials, according to M.A. Ford’s Schmidt. Reamers typically have 3° to 5° relief angles, whereas 1° to 3° is more appropriate on tools for nickel alloys.

While some recommend applying a sulfurized or chlorinated mineral oil to improve both lubricity and antiweld properties when reaming nickel alloys, others emphasize having the proper coolant mixture. “When you get into high-temperature alloys, the concentration of water-based coolants is important,” M.A. Ford’s Schmidt said. “We like to see 8 to 11 percent. With the normal 4 to 6 percent concentration, you have much less lubricity.”

“Silicon-based coatings were originally designed more for high-speed machining and hardened dies,” Schmidt said, “but they found their way into [the machining of] some of these nickel materials as well.”

Because chip control can be problematic when reaming nickel alloys, chipbreaker geometry is beneficial, according to Sollich. He noted BTA Heller’s float reamers have a manual chipbreaker held with an insert clamp. “The chipbreaker width can be adjusted based on the workpiece material,” he said. “If you’re reaming a material that tends to be tough as far as chip control, you tighten the chipbreaker to a smaller width, maybe 0.040 ".”

“As the hole gets bigger, the tolerance range gets larger,” said Jacob Miller, product manager for Allied Machine & Engineering Corp., Dover, Ohio. The cutting tool manufacturer recently added replaceable-head reamers from S.C.A.M.I. to complement Allied’s monoblock and ring-style reamer offerings from the same Italian manufacturer.

Rotating cutting tool used to enlarge a drilled hole to size. Normally removes only a small amount of stock. The workpiece supports the multiple-edge cutting tool. Also for contouring an existing hole.

Particularly difficult-to-machine nickel alloys include Incoloy 901, Nimonic 80 and 105, and Inconel 625 and 718. The latter is a precipitation-hardenable nickel-chromium alloy with excellent creep-rupture strength at temperatures up to 1,300° F. It is used in gas turbines, pumps and rocket motors, according to ESPI Metals, Ashland, Ore., a supplier of high-purity metals and metal compounds for research purposes. The nominal composition of Inconel 718 includes, among other elements, 52.50 percent nickel, 19.00 percent chromium, 17.00 percent iron, 3.05 percent molybdenum and even a bit of titanium, at 0.90 percent.

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Reaming nickel-base alloys can be challenging enough, but add a dissimilar material into the workpiece, such as a composite in stacked arrangement, and the demands increase exponentially.

When a metal part must offer low weight, corrosion and oxidation resistance and high strength at high temperatures, part designers often turn to nickel-base alloys. These materials, along with iron- and cobalt-based materials, are considered heat-resistant superalloys.

Parks has been pleased with the assistance provided by Scott Lowe, Emuge national accounts manager; Gene Cone, metalworking specialist for MSC Industrial Supply Co., the Emuge distributor for Harris Equipment; and Dylan Bowles from Emuge tech support. In addition to determining the right tap for the application, the Emuge team made important recommendations for proper speeds and feeds. “Emuge taps have increased the quality and performance of our machining process,” Parks said. “Hand chasing threads and tap breakage are now a thing of the past.”

Iscar’s Edler indicated that BAYO T reamers have uneven flute spacing, with two flutes directly across from each other and the remaining ones varied. “It’s definitely to avoid harmonics,” he said.

Compared to reaming steel at a cutting speed of about 650 sfm, 200 sfm is appropriate for Inconel 718 when applying BTA Heller Inc.’s float reaming, or skive, tool, noted Mark Sollich, president and CEO of the Troy, Mich., company. BTA Heller states that the tool body holds a floating cutter magazine with two cartridges and two indexable inserts that oppose one another and have diametrical adjustment of 0.080 " to 0.118 ", depending on the tool diameter. Each insert has four cutting edges.

Although high-performance drills can produce high-quality holes, reaming is required for a tighter diameter tolerance. Indexable-insert drills typically achieve a tolerance as tight as 0.008 " and solid-carbide drills achieve a 0.002 " tolerance, von Rohr noted, but solid-carbide, carbide-tipped and indexable-inserts reamers attain a tolerance of 0.0004 ". KOMET makes solid-carbide, carbide-tipped and indexable-insert reamers.

Emuge is a leading manufacturer of high-performance taps, thread mills, drills, end mills and other rotary tools. The Emuge West Boylston, Mass. facility has the capability to manufacture standard and custom end mills, as well as recondition carbide drills and end mills, reamers, and Emuge HSS-E taps. More than 10,000 types of Emuge cutting tools and accessories are stocked in West Boylston.

Nickel-base alloys and other heat-resistant materials certainly qualify as being difficult to machine, but effectively reaming them to improve hole cylindricity and surface finish is possible if users select the appropriate tools and make proper provisions. “If you want to run extreme, you have to take precautions,” Edler said. And when that’s the case, “high-temp alloys are basically the same as any other type of material.” CTE

“A float reaming tool is designed to follow the existing hole and give uniform size, finish and wall thickness from start to finish, producing a true round bore,” Sollich explained. “When you start into the bore, you introduce hydraulics to the tool, expanding the floating magazine, or cutters, to whatever size you require and skiving through the part with high-volume coolant running on the tool OD, which flushes chips away from the cutting edges. When you get to the end of the bore, you turn off the hydraulics, collapsing the cutters, and pull the tool back without leaving any scratches or marks inside the bore.”

Any manufacturing process in which metal is processed or machined such that the workpiece is given a new shape. Broadly defined, the term includes processes such as design and layout, heat-treating, material handling and inspection.

Angle between the side-cutting edge and the projected side of the tool shank or holder, which leads the cutting tool into the workpiece.

Coatings are also needed to protect reamers, as well as reduce friction, when cutting nickel alloys. “A coating makes the difference between an application working and not working,” said KOMET’s von Rohr. “You produce less heat and less stress, and it’s just easier for the chip to get out of the way with a coating.”

The increasing number of delivery vehicles supplying an increasing number of boxes is generating a stream of cardboard, paper, plastics and metals that need to be handled and recycled. As a result, demand is strong from the recycling industry for Harris Equipment’s recycling products, including small paper balers, mega shredders and shears.

The new S.C.A.M.I. replaceable-head reamers complement Allied’s monoblock and ring-style reamer offerings.

Machining operation in which metal or other material is removed by applying power to a rotating cutter. In vertical milling, the cutting tool is mounted vertically on the spindle. In horizontal milling, the cutting tool is mounted horizontally, either directly on the spindle or on an arbor. Horizontal milling is further broken down into conventional milling, where the cutter rotates opposite the direction of feed, or “up” into the workpiece; and climb milling, where the cutter rotates in the direction of feed, or “down” into the workpiece. Milling operations include plane or surface milling, endmilling, facemilling, angle milling, form milling and profiling.

Groove or other tool geometry that breaks chips into small fragments as they come off the workpiece. Designed to prevent chips from becoming so long that they are difficult to control, catch in turning parts and cause safety problems.

When controlling chips, a reamer’s lead angle also plays a critical role. In addition to possibly a 45° lead angle, a reamer might have a double, or compound, angle, with a 20° lead as well, to reduce the cutting force and enhance chip control by generating smaller chips, Edler explained. “The compound angle can be anything we need it to be to solve the chip control issue.”

Others interviewed concurred that reaming nickel alloys is a slow process but some offered slightly different recommendations. Tom Edler recommends reaming Inconel at 80 to 100 sfm. He’s the national deep-hole drilling, reaming, thread milling, ITS bore and oil field thread chasers products manager for Iscar Metals Inc., Arlington, Texas. Iscar’s BAYO T reaming system is suitable for nickel-alloy applications. While the speed is slow, the feed can be a different matter. “The design of the tool allows for aggressive feed rates, typically 20 to 30 times faster than conventional reamers,” Edler said.

Tangential velocity on the surface of the tool or workpiece at the cutting interface. The formula for cutting speed (sfm) is tool diameter 5 0.26 5 spindle speed (rpm). The formula for feed per tooth (fpt) is table feed (ipm)/number of flutes/spindle speed (rpm). The formula for spindle speed (rpm) is cutting speed (sfm) 5 3.82/tool diameter. The formula for table feed (ipm) is feed per tooth (ftp) 5 number of tool flutes 5 spindle speed (rpm).

Because these extreme-environment parts often require high-quality holes—with an H7 international size tolerance grade or better—part manufacturers commonly employ reaming to meet surface finish, size and concentricity requirements. For example, an H7 tolerance for an 18mm-dia. hole is 0 "/+0.0007 ".