Featured Image

Debunking Concerns About Finishing Tools Used in CNC Applications

With new advances in abrasive technology, machining center operators are able to complete surface finishing simultaneously with other machining operations, to speed cycle times, improve quality and save on off-line finishing time and costs...
Nov 27, 2020

By: Cutting Tools Engineering

November 27, 2020

When it comes to finishing, there are a lot of different materials. Yes, this may sound obvious, but the various options impact capability and filtration needs if the swarf is small.

With new advances in abrasive technology, machining center operators are able to complete surface finishing simultaneously with other machining operations, to speed cycle times, improve quality and save on off-line finishing time and costs. The abrasive finishing tools can be easily integrated into CNC machines carousels or tool holding systems.

While contract machine shops are increasingly turning to these tools, others worry about the use of abrasive materials in expensive CNC machining centers. The concern is often a generalized impression that “abrasives” – like sandpaper – release large amounts of grit and debris that could clog coolant lines or damage exposed slides or bearings. These concerns are largely unfounded. 

“These are very expensive, very accurate machines,” said Janos Garaczi, president of Delta Machine Company, LLC, a machine shop specializing in complex, tight tolerance parts made of titanium, nickel alloys, stainless steel, aluminum, plastics and other exotic alloys. “I wouldn’t do anything to jeopardize the accuracy or lifespan of the equipment.”

The misconception is that “abrasives” are the same. However, a distinction must be made between abrasives used for aggressive material removal and abrasive finishing tools. Finishing tools release little to no abrasive grit during use, and the amount generated is comparable to the metal chips, grinding dust and tool abrasion created during the machining process itself. 

Even if minimal fine solids are produced, the filtration requirements for abrasive tools are not much different than for machining. Any particulate can be easily removed using inexpensive bag or cartridge filtration systems, said Jeff Brooks of Filtra Systems, a company specializing in industrial filtration systems including for CNC coolant.

According to Tim Urano, quality manager at Wolfram Manufacturing, any additional cost for filtration related to the use of abrasive tools is so negligible it is “not really a consideration because filtration systems are already required to remove particulate from the coolant generated during the machining process itself.”

For the past eight years, Wolfram Manufacturing has incorporated the Flex-Hone in all CNC machines for cross-hole deburring and surface finishing. The Flex-Hone from Los Angeles-based Brush Research Manufacturing (BRM) is characterized by the small, abrasive globules that are permanently mounted to flexible filaments, the product is a flexible, low cost tool utilized for sophisticated surfacing, deburring and edge-blending. 

Removal of burrs and sharp edges in cross-drilled holes and other difficult-to-access areas such as undercuts, grooves, slots, or internal holes is critical. Failing to remove burrs can cause blockages or create turbulence in the flow of fluids, lubricants and gases through critical passages.

“On a given part, we might deploy two to three different size Flex-Hones, depending on the number of cross port intersections and different hole sizes,” explains Urano.

The Flex-Hones are added to the tool carousel and are used daily, usually several times an hour, on some of the shop’s highest volume parts. 

“The volume of abrasives that could even possibly come off of the Flex-Hone is insignificant compared to the rest of the particulate that gets into the coolant,” explains Urano.

Abrasive Nylon Filaments

For Eric Sun, founder of Orange Vise Company in Orange County, California, even cutting tools such as carbide drills and end mills can create debris that must be filtered from the coolant. 

“Some machine shops might say, ‘I don’t use any abrasives in my process; therefore, my machine is completely free of all particulate matter,’ but that is not the case. Even cutting tools can wear down and the carbide can come loose and get into the coolant,” says Sun.

Although Orange Vise is a contract manufacturer, the company primarily machines vises and quick-change fixturing components used in CNC machines out of aluminum, steel and cast iron. The company utilizes four Mori Seiki NHX4000 high speed horizontal machining centers and two vertical machining centers. 

According to Sun, many of the vises are made of cast iron with selectively hardened surfaces. To match the surface finish of the hardened surfaces, Orange Vise uses NamPower abrasive disc brushes from Brush Research. 

Composed of flexible abrasive nylon filaments bonded to a fiber reinforced thermoplastic base, the NamPower abrasive disc brushes contain a unique combination of both ceramic and silicon carbide abrasive. The abrasive filaments work like flexible files, conforming to part contours, wiping and filing across part edges and surfaces to deliver maximum burr removal rates along with an ideal surface finish. Other common uses are edge blending, part cleaning, and rust removal. 

To complete the surface finishing operation, abrasive nylon brushes are installed in the tool loading system of each CNC machine. Although abrasive grit is involved, Sun says the NamPower brush is a “different type of abrasive” because it is essentially “self-sharpening.” Because of its linear construction, sharp new grains constantly come in contact with the work surface and wear off exposing fresh cutting particles. 

“We have used the NamPower abrasive nylon brushes daily for six years. During that time, we have had no issues with any sort of particulate or grit getting into any critical surfaces,” adds Sun. “In our experience, any small amount of grit created is a non-issue.”

External Contributor
Recent technology News
Cyber-Physical Machine Tools (CPMT) are becoming ubiquitous parts of manufacturing sectors. CPMT offer immense potentials in the current CNC machine tool through integrating the machine tool and the machining process using computation and networking to...
Chip evacuation is always a problem. I have scrapped many parts because I didn’t monitor the chip build up during the machining process. That is one of many reasons why I am not on the shop floor anymore.
Ehrhardt Automation Systems' VP Pat Walsh Discusses Automation, Growth, and New Workers. Willis Ehrhardt founded Ehrhardt Tool & Die in a horse stable in St. Louis in 1937, and for the next several decades, built a reputation as a premium tool and die...
To realise the benefits of lightweight cutting tools, Mapal is now utilising additive manufacturing processes – a process that is also providing complete design freedom for ever more innovative solutions. As 3D printed cutting tool structures can be...
Tool changing is fully automated in machining centers, from removal until the insertion of the new tool in the spindle, and takes less than a second. To achieve maximum system effectiveness, this process must function with ultimate reliability. The...
Similar News
By Peter R. Eelman | Aug 16, 2021

IMTS 2022 will occupy all four buildings and all levels of the McCormick Place campus as well as continue co-locating with the HANNOVER MESSE USA show in the East Building.

6 min
By Stephen LaMarca | Jun 25, 2021

Colonizing Mars with 3D printing robots. EVs need gears too! High fidelity CNC. Wireless on-machine inspection. Robot machining.

5 min
By Stephen LaMarca | Jun 18, 2021

3D printing parts for a Formula One race car. Automation – but make it intelligent. The first Delta cobot. A watchmaker brings a machine tool back into service. Robotic artisans are growing – no word yet on how they’ll affect the renaissance faire circuit.

5 min