Carbide Rotary Burrs - burr bits for steel
The job’s bad reputation was well earned but is out of date. Years ago, fastening to concrete was difficult and hit or miss. If you’ve ever tried driving hardened-steel nails into concrete or tried to make anchor sleeve holes with a wobbly rental masonry drill and a dull rental drill bit than you know about frustration.
“Usually, coatings are not applied to drills in aluminum applications, as a majority of coatings contain aluminum," he said. Because the majority of coatings contain aluminum as one of their base constituent elements, Frazier said some manufacturers have begun utilizing a titanium-zirconium-nitride coating in aluminum applications. “But the conventional wisdom in this field is to utilize a sharp, high-polished, uncoated carbide drill.”
Substances having metallic properties and being composed of two or more chemical elements of which at least one is a metal.
On a standard Flowdrill bit, a polygon is ground, consisting of four peaks and four valleys, each referred to as “lobes,” which are what generate the friction and cause the heat. The Aludrill eschews this geometry in favor of more contact with the metal, which creates enough friction in the softer aluminum to generate sufficient heat.
“We had a customer who needed to drill 3,000 holes in a plate of aluminum, and if they broke a drill machining one hole, the whole part was scrap,” said John Lombardi, company president. “So they came to us with the problem, and we made a 0.156"-dia. drill with a ½" base about 3" long for the job.” R.I. Carbide used the ZETA coating on the drill, and by running that highly lubricious drill with through-coolant capability at high speeds, the customer was able to successfully complete the part on the first pass.
Grooves and spaces in the body of a tool that permit chip removal from, and cutting-fluid application to, the point of cut.
1. Permanently damaging a metal by heating to cause either incipient melting or intergranular oxidation. 2. In grinding, getting the workpiece hot enough to cause discoloration or to change the microstructure by tempering or hardening.
Use of cutting fluids of only a minute amount—typically at a flow rate of 50 to 500 ml/hr.—which is about three to four orders of magnitude lower than the amount commonly used in flood cooling. The concept addresses the issues of environmental intrusiveness and occupational hazards associated with the airborne cutting fluid particles on factory shop floors. The minimization of cutting fluid also saves lubricant costs and the cleaning cycle time for workpieces, tooling and machines. Sometimes referred to as “near-dry lubrication” or “microlubrication.”
Because aluminum is considered by many to be cheap and easy to work with, it’s easy to fall into the trap of thinking any machining setup will work. However, some of the “easiest” materials to machine end up yielding the lowest profit margins at the end of the job, according to Tungaloy’s Frazier.
The two main issues when drilling aluminum, explained Chad Lynch, field sales engineer for Allied Machine & Engineering Corp. (AMEC), Dover, Ohio, are chip formation and chip evacuation. “If you approach it without the proper tool geometry, without the proper coating, without the proper coolant, it can very quickly turn into a situation where long, stringy chips are wrapping themselves around the tool.”
Using a straight-flute, through-coolant drill is advantageous if maintaining hole size, finish and hole roundness is the goal. Image courtesy Tungaloy.
A simple dust mask works well enough to protect you from airborne cement dust created when you drill into concrete and when you remove it.
If those aren’t available, uncoated carbide with a polished surface provides more-than-adequate performance in most applications, Hout noted. “You want the flutes polished to help material slide out, and if there is a radius within the flute, you don’t want a square edge or a straight wall unless it’s unavoidable [such as when gundrilling].”
Cylindrical sleeve, typically made from high-grade tool steel, inserted into a jig fixture to guide cutting tools. There are three main types: renewable, used in liners that in turn are installed in the jig; press-fit, installed directly in the jig for short production runs; and liner (or master), installed permanently in a jig to receive renewable bushing.
The guide path pressure of a gundrill can impact surface finish, depending on coolant lubricity, due to the inherent plasticity of aluminum. Image courtesy Sandvik Coromant.
With the carbide drill bit chucked in the drill, hold what you need to fasten to the wall and make your hole. For brackets and the similar pieces of hardware, use their mounting holes to place the drill bit. For wood, simply bore right through the wood and into the concrete.
Some heavy-duty plastic anchors, such as the Red Head Polyset, can be driven into a hole in concrete. From there, you use the included pan head sheet metal screw to fasten whatever you need.
Liquid used to improve workpiece machinability, enhance tool life, flush out chips and machining debris, and cool the workpiece and tool. Three basic types are: straight oils; soluble oils, which emulsify in water; and synthetic fluids, which are water-based chemical solutions having no oil. See coolant; semisynthetic cutting fluid; soluble-oil cutting fluid; synthetic cutting fluid.
This tool makes short work of punching a reliable hole in concrete, mortar, brick, Portland cement plaster (stucco), and even many types of stone. Once you have that hole–properly known as a pilot hole– you can drive a masonry screw or bolt into it, or you can install a soft sleeve into which you can drive a wood screw or sheet metal screw. It’s that easy.
Cutting tool material consisting of natural or synthetic diamond crystals bonded together under high pressure at elevated temperatures. PCD is available as a tip brazed to a carbide insert carrier. Used for machining nonferrous alloys and nonmetallic materials at high cutting speeds.
Frazier added built-up edge to the list of primary challenges when drilling aluminum alloys. The aluminum will build up and adhere to the cutting edge and interfere with the formation of new chips from the parent material, which can lead to chip packing, as flutes become clogged. This leads to deposits of aluminum adhering to the drill, promoting even further adhesion and chip packing.
Self-guided drill for producing deep holes with good accuracy and fine surface finish. Has coolant passages that deliver coolant to the tool/workpiece interface at high pressure.
Included angle at the point of a twist drill or similar tool; for general-purpose tools, the point angle is typically 118°.
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.
“Unlike our other bits, it doesn’t require our special lubricant; it can operate with standard machine coolant,” Ray said. “It also countersinks a chamfer into the material, which makes it the only one of our bits that generates a chip.”
While there are many different aluminum alloys with unique machinability characteristics, Frazier said the most widely drilled aluminum alloys are 6061 and 7075, adding that there are pockets of aerospace and medical work that use specialty alloys exclusively.
Running at high cutting speeds while resisting the temptation to overfeed and applying a coolant with high lubricity and moderate-to-low viscosity is the best way to ensure a fine surface finish, Hout said. “You want the oil to move fast.”
Hardness is a measure of the resistance of a material to surface indentation or abrasion. There is no absolute scale for hardness. In order to express hardness quantitatively, each type of test has its own scale, which defines hardness. Indentation hardness obtained through static methods is measured by Brinell, Rockwell, Vickers and Knoop tests. Hardness without indentation is measured by a dynamic method, known as the Scleroscope test.
Drilling involves generating chips. It’s just a given—after all, the material that’s removed has to go somewhere, right? But while a process that doesn’t generate chips might not sound like drilling to some, St. Louis-based thermal-friction-drilling specialist Flowdrill Inc. offers an alternative to traditional drilling.
Next, wear a dust mask. Pulverizing conctete with a drill bit creates dust, and some of that dust becomes airborne while drilling and, later, when you clean out the hole.
Many cordless drills today are equipped with a hammer function. I’ve talked to people who didn’t even know this was included on their drill. Compared to a cordless drill without this feature, it’s a slight upcharge–about $20, on average. A hammer function provides a percussive action to chip away and pulverize masonry as a masonry bit spins. To help these specialized drill bits withstand such harsh use, they have a piece of carbide brazed to their tip. Carbide is not a single material, but a mixture of them. It starts out as carbide powder intermixed with a metal powder, such as tungsten. The powders are mixed with a binder additive, formed into a shape, machined, and then fused together at high temperature forming a composite. The carbide tip is brazed onto the body of the drill bit producing a device that is both flexible and wear resistant, yet has an extremely hard tip. Drill a hole with that bit, then drive a hardened masonry screw into it.
Ability of a material to be bent, formed or stretched without rupturing. Measured by elongation or reduction of area in a tensile test or by other means.
“Especially when you go to longer depths, the issue is always coolant flow for chip evacuation, and that’s not anything unique to aluminum,” noted AMEC’s Lynch. “We prefer not to peck, and I feel that if people have to do any pecking, it’s probably because they’re not forming a good chip. We’ve actually found that the type of cutting fluid is less important than the concentration—the higher the concentration, the better your results, generally speaking.”
While North Americans know it as “aluminum,” most English-speaking countries use the suffix “-ium.” The Canadian Oxford Dictionary lists the spelling as “aluminum,” while the Australian Macquarie Dictionary prefers “aluminium.” The reason?
1. Permanently damaging a metal by heating to cause either incipient melting or intergranular oxidation. 2. In grinding, getting the workpiece hot enough to cause discoloration or to change the microstructure by tempering or hardening.
How high can those cutting speeds be? According to Hout, modern machinery has not yet advanced to the point where the surface speed ceiling for aluminum can be hit.
The main difference between drilling aluminum and harder materials, noted Jason Hout, global DHM (deep hole machining) product and application specialist for Sandvik Coromant Co., Fair Lawn, N.J., is that the shear point of aluminum is low enough that it can be sliced by the tool’s cutting edge, as opposed to being pushed out of the way when machining harder materials. This means an upright, high shear angle with a minimal edge hone is ideal for drilling aluminum.
Frazier recommends a micrograin carbide with a hardness from 92 to 93 HRA for low-silicon alloys, but said some aluminum alloys used for forgings or castings contain more than 11 percent silicon and are best approached with drills tipped with PCD or diamond-like carbon.
It may be simple and generally safe to fasten to concrete, but it’s always a good idea to wear safety glasses, if nothing else to shield yourself from the dust that’s produced in the process.
Sleeve anchors are hybrid fasteners consisting of a threaded stud, a nut, and a specialized sleeve. You hammer this fastener into the hole then turn the nut no more turns than specified by the manufacturer (typically two to four). This causes the threaded stud to pull up in the sleeve. As it does so, the the sleeve expands against the wall of the hole, forming a tight wedging action. It’s important to read the manufacturer’s instructions before installing these. They are to be located specified distances from each other and from the edge of the slab.
When the hole is established, you can move the hardware or lumber out of the way and continue boring to the hole’s full depth. When drilling mounting holes in long pieces of wood or metal, drill one mounting hole, then drive a screw at that point. Level the workpiece, drill a second hole, and drive a second mounting screw. With the workpiece fastened at two points, and level, drill remaining mounting holes and drive the remaining screws.
The fastest way to drive a masonry screw is with the same drill driver that made the hole. Turn the drill’s selector to the drive setting, turn the clutch to the maximum number, and use a nut driver or drive bit to sock down the screw.
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.
However, a sharp edge is a weak edge, and many aluminum grades contain high levels of silica—a hard, glass-like particulate in the matrix of the aluminum that can rapidly break down a tool’s edge. “Wear [from silica] can sometimes be combatted with coatings or by switching from carbide to a superabrasive tool material like PCD,” Hout said.
“Thermal-friction drilling is a process that involves generating heat through friction and pressure,” said Mitch Ray, president of Flowdrill. “We create what we refer to as a bushing in thin-walled material, which extends approximately three to four times the original wall thickness.”
This bushing adds more thread to the hole and gives the customer an alternative to current fastener methods like weld nuts or threaded inserts. Once the bushing is created, a form tap can create threads, or a self-threading screw can be inserted to complete the job. There are no chips created in either case.
“The threshold for aluminum is something like 60,000 sfm, which is enormously fast,” he said. “I’ve seen aluminum run at 24,000 sfm with an uncoated carbide insert, and it didn’t harm the aluminum or the insert. I tell our customers that, within a safe working environment, don’t be afraid to crank it up because I’ve seen that higher speeds in aluminum gets you both better tool life and a better surface finish.”
“If more shops are able to do the work on ‘easy’ materials, there is more competition for those same jobs, inevitably driving down the price of cutting aluminum,” he said. “In this sense, it is important to maximize your speed and efficiency when working with these materials, using updated tooling and advanced concepts, in order to stay competitive.”
Added to titanium-carbide tooling to permit machining of hard metals at high speeds. Also used as a tool coating. See coated tools.
Sandvik Coromant’s Hout has observed at least one characteristic unique to aluminum when deep-hole drilling. “When using self-guided drills like gundrills, because of the plasticity of aluminum, the guide path pressure can impact the finish of the hole either positively or negatively, depending on the lubricity of the coolant,” he said. Neat cutting oil typically results in a smooth finish, while a synthetic, water-based fluid might allow some of the aluminum to stick to the guide path, creating a rough, “smeared” finish.
Many people struggle with fastening to concrete–and other masonry surfaces, such as brick and concrete block. Turns out, there’s nothing to it. The best way to fasten to it, especially for DIYers, is to just dill a hole and drive a screw.
“Chips tend to ‘string out’ because of the softness of the material,” Lynch explained. “The primary way to get around that is through geometry.” AMEC offers an aluminum-specific geometry for its TA product line, which has a high rake angle that effectively forms a chip in gummier, 6061-type materials, he said. A higher rake creates more shear in the cut and forces the material into the impact site on the tool.
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.
You can make your own concrete fastener for horizontal applications by using a small bolt or piece of threaded rod embedded in mortar, epoxy repair mortar, or the specialized epoxies used for embedding rebar. Drill a hole twice the diameter of the threaded rod or bolt. You can either place the fastener in the hole and then push the filling material in around it or with thinner materials, fill the hole to the halfway point and then push in the fastener. Be sure to turn the fastener back and forth to ensure that it is locked into the embedding material. Also, use a square from two directions to check that the fastener is square or plumb to the surface.
One such manufacturer is R.I. Carbide, a tool grinder and machine shop in Smithfield, R.I., that offers its ZETA ZrN coating as an alternative to TiN when extra lubricity is needed.
Turn the selector ring on the cordless drill, aligning the hammer icon with the white selector triangle. Move the drill’s speed selector switch to its top speed, 2 or 3, depending on the drill. Tighten the drill’s chuck on the masonry bit.
Cylindrical tool that cuts internal threads and has flutes to remove chips and carry tapping fluid to the point of cut. Normally used on a drill press or tapping machine but also may be operated manually. See tapping.
Substance used for grinding, honing, lapping, superfinishing and polishing. Examples include garnet, emery, corundum, silicon carbide, cubic boron nitride and diamond in various grit sizes.
“Aluminum is considered by many to be one of the easiest machining materials, but it does present its own unique challenges”—particularly when drilling, explained Elliott Frazier, a product manager at Tungaloy America Inc., Arlington Heights, Ill. “Aluminum is a generally soft, nonferrous, ductile material with low density and naturally high resistance to corrosion. Aluminum is difficult to drill because its ductility and softness causes the material to make constant prolonged contact with the rake face, or cutting edges, of a drill.”
Proper chip evacuation involves proper application of coolant, and drilling aluminum is no exception. Pecking is always an option, but many part manufacturers like to avoid withdrawing the drill when possible, which means polished flutes and through-coolant drills are the order of the day.
Every tool bit diameter has a certain set of parameters, Ray explained. For example, a ¼-20 thread size would require a tool to be run at 2,400 rpm in aluminum or mild steel, require 1.5 hp and have a cycle time of about 3 seconds per hole. The bit contacts the material, and the friction of that contact heats the material while the pressure behind the bit pushes through the material and forms the bushing. There is no external heat source, and Flowdrill bits can be used on any standard CNC machine without any special adapters.
Hammer set anchors are simple fasteners that fit through a hole in whatever you are fatsening, such as a shelf cleat, bracket or other piece of hardware. Their dome-shaped head bears down on the surface of the workpiece. Slip the fasteners through the wokrpiece, into the hole in the concrete and then drive the nail in them until it is fully seated against the dome-shaped head. These fasteners work best when used in applications where one is enough to attach the load. Using more than one on at a time requires careful drilling to ensure that the fasteners line up both with the holes in the mounted object and in the concrete.
When applying a carbide tool, it’s important that it doesn’t have an aluminum-based coating, because the aluminum will tend to stick to the workpiece surface, he added. Common coatings such as Al2O3 or AlTiN, when brought into contact with aluminum under heat and pressure, will not only react with the part, but have abrasive properties that can contribute to BUE. Instead, Hout recommends either titanium diboride or an amorphous diamond film.
Aluminum containing specified quantities of alloying elements added to obtain the necessary mechanical and physical properties. Aluminum alloys are divided into two categories: wrought compositions and casting compositions. Some compositions may contain up to 10 alloying elements, but only one or two are the main alloying elements, such as copper, manganese, silicon, magnesium, zinc or tin.
“Generally, drills with a high helix angle, polished flutes and 130° to 140° point angle will provide the best chip evacuation and cutting performance,” Frazier said. “However, since aluminum is so soft, drilling operations using the aforementioned geometry tend to present difficulties in maintaining proper hole diameter and sidewall surface finish. If maintaining hole size, finish and hole roundness are the goals, using a straight-flute, through-coolant drill is advantageous.”
Lag shields are hollow soft metal sleeves that are driven into a hole. When a screw or bolt is driven into the cavity in the center of the sleeve, the fastener’s threads cut into its wall, which is softer than the steel screw or bolt.
Tungaloy’s Frazier always recommends through-coolant. “Higher metal-removal rates require [applying] a lot of coolant, very quickly, to move the chips from the cutting zone, and mrr is typically very high in aluminum.” Flood coolant would require peck cycles, and minimum-quantity lubrication simply doesn’t have the displacement value when holemaking, especially drilling deep holes, he said. “The higher the flow, and higher the pressure, the better.”
Thermal-friction drilling creates a hole and a bushing—but no chips—through the use of heat and pressure. Image courtesy Flowdrill.
Amateurs and professionals alike often forget that safety and drilling a high-quality hole go hand-in-hand when fastening to concrete.
Roy Berendsohn has worked for more than 25 years at Popular Mechanics, where he has written on carpentry, masonry, painting, plumbing, electrical, woodworking, blacksmithing, welding, lawn care, chainsaw use, and outdoor power equipment. When he’s not working on his own house, he volunteers with Sovereign Grace Church doing home repair for families in rural, suburban and urban locations throughout central and southern New Jersey.
When drilling, perhaps no variable is as important as the workpiece material. It dictates drill geometry and substrate, tool coating, coolant application, and speeds and feeds.
Evan Jones Thorne, who served as associate editor of Cutting Tool Engineering magazine through February 2017, holds a bachelor’s degree in English and communications from Northern Illinois University. Evan joined Cutting Tool Engineering in October 2013.
Wear your safety glasses during every step of the process. Concrete chips can fly, a masonry screw may inadvertently break, you might even snap the drill bit itself if it gets bound up against a piece of reinforcing steel. All of this can cause debris to go flying.
“In 1926, the American Chemical Society officially decided to use aluminum in its publications; American dictionaries typically label the spelling aluminium as ‘chiefly British,’” explained Tungaloy America Inc.’s Elliott Frazier. “The earliest citation given in the Oxford English Dictionary for any word used as a name for this element is alumium, which British chemist and inventor Humphry Davy employed in 1808 for the metal he was trying to isolate electrolytically from the mineral alumina.
A masonry drill bit has a tip made out of tungsten carbide, brazed onto the body of the drill. The bit is capable of withstanding the high impact and wear created by drilling into concrete and masonry. A high-strength masonry screw can be driven directly into this hole. Another fastening option (shown below) is to insert a plastic or metal sleeve into the hole and drive a screw into the sleeve.
The thing that changed all that is the ordinary cordless drill. More specifically, the cordless drill with a hammer function.
“We’ve got some large applications for the Aludrill," Ray said. "Last year, it was used on the new Ford F150 pickup, making holes in the front aprons of those trucks. They use a self-tapping screw to attach the different wiring lines to the front of the trucks."