micro grinder mechanical

micro grinder msg-3bsn, reverse rotation type | uht | misumi malaysia

micro grinder msg-3bsn, reverse rotation type | uht | misumi malaysia

A micro hand tool that supports stronger, faster and easier production.[Features] It has a double hex 17 mm body which fits well in the hand. Ultra high speed rotation grinder, which adopts a vane motor developed in-house, and realizes low vibration and noise. Supports many different applications using an abundant variety of tip tools.

cam.3 micro grinder | cutting tool engineering

cam.3 micro grinder | cutting tool engineering

Glebar Co. announces its new CAM.3 micro grinder. The CAM.3 represents the next generation in Glebars 68-year history of providing precision grinding solutions to the medical device industry. Designed from the ground up, the CAM.3 features faster speeds and feeds, larger diameter wheel, increased capability and connection to the IIoT.

Applications such as medical guidewires with flats, multiple tapers, hex shapes and other complex geometries can be easily manufactured on the CAM.3. The CAM.3 offers additional capability suited for applications such as K wires, bone pins and other orthopedic and sports medicine implants, instruments and single use disposable products.

The CAM.3 can accurately grind lengths ranging from 0.005 to 0.375 in diameter. The 16 grinding wheel is mounted on a servo spindle with robust ABEC 7 spindle bearings with a capability of reaching over 20,944 surface feet. It can be fitted with a 6-axis robot, within the enclosure, providing additional axis and automated capabilities. In addition the work head can also be tilted up to 5 degrees to grind sharp corners and true threads. The dual carriage linear motor feed system powers the collets which can spin up to 250 RPS for improved grinding performance.

Built on a 6,500-lb. mineral cast base for vibration dampening, the CAM.3 can easily produce parts, repeatedly, to submicron accuracy. The positioning of the work wheel, main spindle and the collets can be programmed using the touchscreen HMI which features a large 16:9 aspect ratio. IIoT enabled sensors can be built in to monitor temperature, pressure and vibration of key mechanical components.

The enclosure includes safety interlocks and the machine is CE Certified for the European market. The base includes embedded air and oil lines. The electrical enclosure includes a built in AC cooling system. The CAM.3 comes with MTConnect capability, is OPC UA compliant, and is ready for Industry 4.0. The CAM.3 controller can easily be expanded to add peripherals such as loaders, inspection gages, and other automation types.

Glebars technology has been a vital part of the medical device industry for over 68 years, said John Bannayan, chief technical officer at Glebar. The expanded features of the CAM.3 will offer designers an incredible set of fabrication capabilities for medical guidewires, orthopedic parts, dental components, and other small precision parts across a number of industries.

air micro grinder | trusco nakayama | misumi malaysia

air micro grinder | trusco nakayama | misumi malaysia

[Features] A micro air grinder with an ergonomic design that can be easily gripped. High-class precision air tool featuring outstanding durability.[Applications] Deburring, chamfering, and polishing of various machined parts. Mold and glass machining. For light grinding.

medical & surgical equipment grinding applications | glebar - centerless grinding machine manufacturers

medical & surgical equipment grinding applications | glebar - centerless grinding machine manufacturers

Glebar is synonymous with medical and has been at the forefront of medical centerless grinding machine technology for over 50 years. From medical guidewires to arthroscopic shavers, dental components, surgical tubing, catheter bodies, bone drills and more, Glebar has the experience and expertise to optimize any grinding process for the medical industry.

Our versatile precision grinding machines are workhorses which require a smaller footprint than similar machines yet excel in demanding high production environments where the name of the game is high volume at low cost.Glebar engineers can tailor a medical precision grinding turnkey solution, complete with a series of pre- and post-grind inspection steps, ensuring the product going into the Glebar machine meets the requirements of the final ground product with guaranteed accuracy.

Exposing the material to high heat can affect the chemistry and mechanical properties of the material requiring manual secondary finishing operations. Setup and production are slow, requiring extensive mechanical adjustments. Frequent wheel dressing causes faster wearing, resulting in higher tooling costs.

Low production output, as only one wire can be ground at a time. Changeover between wire diameters is time-consuming, delaying production. Grinding can leave burrs requiring secondary processes to deburr, lengthening production time.

Heat sensitive applications may limit the use of the laser for cutting. Laser cutting leaves recast and heat-affected zones, affecting the tube's quality and increasing scrap rates. Beam deflection when cutting through a tube can affect accuracy and cause damage. Laser cutting is not capable of creating clean and sharp edges. Therefore, time-consuming secondary processes to deburr tubes and remove any debris are required. Delivering a process that cuts tubes to length, maintains a high level of quality and accuracy, leaves no recast or slag, and improves production times.

Narrow work wheels prevent generating tapers over 4" requiring multiple setups to generate the shape. Highly skilled technicians are required to ensure proper setup. Upper and lower slides are strapped, preventing the regulating wheel and work rest blade from being adjusted independently. Wheel dressing is applied manually, which leads to inconsistent wheel conditions. Blade sizing is conducted manually leading to variability in setup longevity.

Deliver a process that can grind up to 8" tapers on guidewires in one pass while maintaining quality and repeatability. Decrease downtime related to setup and complicated changeovers. The process must meet CE Certification standards for operator safety.

Cycle time reduction while maintaining overall machine uptime resulting in increased throughput. Added versatility to the control system allowing process improvement through actionable reporting. Reducing maintenance such as wheel dressing to increase up time. NiTi is a difficult material to shape due to its high nickel content, moreover, a smooth surface finish is critical to prevent part failure.

Converted OD grinders with custom tooling and soft grinding wheels all of which wear at a high rate. Setup and changeover time is significant and requires extensive mechanical adjustments. Parts, in most cases, must be taped for handling requiring additional steps in the production process. Primary cut leaves a large ID burr which must be removed in a secondary process step such as grit blasting or electro-polishing. Complex needle points, i.e. Menghini points, require separate primary bevel cut and secondary sharpening, leading to long cycle times.

Parts are cut using abrasive cutting saws, conventional abrasive grinding, wire EDM or laser cutting; slow processes resulting in long cycle times. Potential to expose material to high heat leading to heat affected zones, recast, and slag. Requires secondary process to deburr parts and remove any surface debris which reduces productivity.

Design a process that can provide a burr free cut without recast, slag, or heat damage while maintaining a high quality part and reducing cycle time. Reduce the number of steps in the production process.

The arthroscopic shaver teeth are commonly produced by conventional abrasive grinding, wire EDM, or laser cutting; slow processes resulting in long cycle times. EDM and laser cutting burn away the metal at high temperatures leaving changes to the metal surface including a heat affected zone, recast, and slag. Laser cutting requires significant post processing to produce an acceptable sharp edge and surface finish. Conventional grinding requires a secondary process of deburring without damaging the cutting edge. It also involves frequent wheel dressing to maintain the correct form.

Tubes are cut one at a time using a standard abrasive cutting saw which leaves burrs. Requires secondary process of wire brushing and tumbling to deburr tubes and remove any debris. Older machines have poor accuracy and outdated safety features. Debris from abrasive cuts cause frequent maintenance issues.

Design a process that can cut multiple tubes burr free simultaneously without damage from debris. Reduce the number of steps in the production process. Provide a machine that wont deteriorate over time.

Numerous manufacturers around the world find themselves with legacy equipment incapable of meeting the changing environmental and safety standards recommended by regulatory standards.The customer in this case was operating an outdated grinding system lacking mist control with minimal safety features.

Maintain CE safety and environmental standards without hampering the functionality of the machine. Thrufeed grind 0.003- 0.006 of material from steel tubes with a tolerance of +/- 0.0002 and achieving a superior surface finish. Lastly, the customer required the ability to connect the machine to the intranet for data gathering, monitoring and remote diagnostics.

The operator would manually feed the stainless steel orthopedic pins into the centerless grinder then manually clean and gauge each pin. Manual input and adjustment were required during the process to ensure quality.

Increase process throughput and quality production by integrating automation. Produce a part every 13 seconds in an automated lights out system. Reduce the opportunity for damaging critical features in material handling.

Challenge: To size implantable spinal cord stimulation devices that deliver precise doses of electricity to targeted nerve sites for patients suffering from chronic back problems. The device is long and flexible, which made it difficult to handle. It is also constructed of dissimilar materials of varying diameters, from metal conductive rings to fine electrical micro-wires to molded polymer and plastic supports, which made grinding a fine surface finish with stringent diameter control and without damage to the parts very challenging.

Asthma inhalers are comprised of a medicine canister fitting inside a plastic sleeve. When the patient pushes the canister, the stem, a small metal pin, releases an actuator inside the sleeve allowing the medication to be released and inhaled by the patient. The stem must mate properly with the actuator to ensure the medication is dispersed properly. Any defect could cause the device to fail.

Asthma inhaler pins are ground one at a time using multiple production lines and automation integrations. This setup requires a large footprint to meet high demand. Labor and numerous automation integration costs are expensive.

Challenge: To thrufeed grind ceramic pellets, which are used to manufacture radiopharmaceuticals (radiotracers) used in CT scans. The pellet count had to be tracked through the machine and the customer needed to measure a set frequency of parts that would be programmable. In addition to accounting for all the components, the machine had to separate the set number of parts processed for data collection.

Challenge: A Medical device customer needed to rapidly changeover between a family of Nitinol guidewires having various lengths and geometries. Since the geometry of the components varied in length, the customer needed to change tooling over frequently, a process that can take up to 4 hours. Also, rapidly removing over 30% of the the material as it thrufeeds into the machine accelerated tool wear on the existing system and as tooling degrades, dimensional integrity suffers.

Challenge: Infeed grinding 0.010 on two diameters over a 7 long metal drill blank in one operation while maintaining 0.0002 diameter accuracy, .00006 roundness and maintaining part straightness and concentricity.

Found at the highest end of the GT610 series spectrum, the GT610 CNC High Precision Automated Infeed/Thrufeed Centerless GrindingMachine excels at grinding a wide range of materials and is the complete "lightsout" solution for applications where a high degree of automation, data gathering and gauging feedback is required. In addition to our 10" work wheel design, Glebar is now offering an ABEC 7 twin-grip work wheel spindle design (with 12" work wheel option) on the GT-610 CNC for increased rigidity, faster component processing speed and larger diameter parts.

The GT-610 Automated Infeed/Thrufeed Centerless GrindingMachine can be custom fitted with automation. This system is the ideal option for when infeed applications do not require a CNC dresser and for the vast majority of thrufeed applications. The GT-610 excels at hard metals and composites, producing carbide blanks, spools, bushings, and engine components such as automotive fasteners and valve lifters. It can also effectively size down metal bars.

The GT-610 EZ is the newest addition to the GT Series Centerless Grinder suite. A lean version of the GT-610, the GT-610 EZ brings slide motion control to the operator at an affordable price point. Operating on a much smaller footprint than the competition, this system excels at thrufeed grinding hard materials such as steel, carbide, pcd inserts and technical ceramics. Slide positioning allows for precise diameter control on close-tolerance components. The machine is also capable of gauge feedback for even more precise diameter control.

TheCAM.2 combinesthe latest in multi-axis servo motor control, submicron positioning, and an intuitive HMI touchscreen interface to offer unmatched performancein grindingmedical guidewires, dental parts, and small complexed precision parts for various industries.

The GT-9AC is designed to grind medical guidewires with multiple tapers, paddles, and even parabolic shapes, with the ability to update the linear position of the wire every 0.00025" (0.006 mm) at grinding speeds superior to traditional centerlessgrinding.

The computer controlled TF-9DHD Infeed/Thrufeed Micro Grinder grinds both hard and soft materials, specializing in parts from 1 in diameter down to .002". The TF-9DHD is utilized to grind catheter, guidewires, pins, bushings, PTFE, plastics, ceramics and other engineered materials.

The TF-9BHD Infeed/Thrufeed Micro Grinder grinds both hard and soft materials, specializing in parts from 2.5 in diameter down to .002". The TF-9BHD is utilized to grind catheter, guidewires, pins, bushings, PTFE, plastics, ceramics and other engineered materials.

The DD-7 is one of the most compactdouble disc grinding machines on the market. Designed for grinding small diameter components, it accurately controls their length and perpendicularity. The machine is capable of grinding many high-performance parts for a wide range of industries from medical and aerospace to automotive. The DD-7 can be configured in three fixturing modes, depending on the application, the shape of the part, and the degree of automation required.

The P4K Gauging System is the fastest and most accurate profile metrology system available for long parts or multiple short parts and is the gold standard quality control device for the measurement of guidewires. As a setup reduction device (for the GT-610 CNC), the P4K scans and provides feedback of the entire component geometry for all parts in a cycle to automatically correct the grinding wheel dress shape (correcting the wheel dress shape from any measurement device is patent-pending).This is done in a matter of seconds, drastically reducing setup time and improving quality control. For other compatible Glebar machines, (GT-610, GT-610 SD, CAM.2 and GT-9AC) the P4K serves as a closed-loop quality control device that feeds back diameter to the control system for automatic size compensation.From titanium fasteners to medical guidewires, the P4K system has you covered.

The CS1-A Precision Abrasive Cutoff machine from Tridex Technology features superb accuracy and multiple bar cutting for applications requiring tight tolerances in medical, aerospace, fasteners, and automotive industries. The Precision Abrasive cut leaves almost no burr on the bar or tubing.

The CS1-EA Hybrid Burr Free Electrochemical and Precision Abrasive Cutoff Machine from Tridex Technology combines the best of the CS1-A Precision Abrasive and CS1-E Electrochemical Cutoff machines into one robust and compact design.

The SG-2060 Burr Free Electrochemical CNC Surface Grinder from Tridex Technology provides burr free and low force cutting leaving no heat affected zones while cutting. It has numerous applications across many materials and industries including medical device, automotive, and aerospace.

When added to the Tridex Model SG-1645 or SG-2060 electrochemical grinders, the PGS-100 is a fully programmable pointing and material handling system to manufacture a wide variety of medical device points on tubing or solid wire using electrochemical grinding technology (ECG).

gatan dimple grinder ii | blue scientific

gatan dimple grinder ii | blue scientific

Mechanical grinding techniques are the fastest way of thinning samples for TEM. The Gatan Dimple Grinder II thins samples quickly, with minimal damage. Quickly produce a large area for final processing with slower, chemical methods.

For example, a 100m thick, 3mm diameter specimen can be reduced to a few microns in the central region, in just 20 minutes for silicon and 100 minutes for sapphire. Final chemical or particle beam thinning can then be performed to produce large electron transparent areas, ready for TEM.

Certain materials that are resistant to mechanical damage (eg silicon, ceramics and hard materials) can be fully prepared with the Dimple Grinder, by reducing the polishing speed and using a special polishing wheel for the final few microns.

299220 -

			micro-grinder, pestle mixer

299220 - micro-grinder, pestle mixer

Convenient laboratory tool produces a high-speed mechanical and vortexing action that completely disperses biological samples. Effective for use with pellets, precipitates, other solids and soft tissue. Utilizes disposable or reusable pestles that allow mixing directly inside a 0.5ml or 1.5ml micro-tube. Prevents sample loss and minimizes risk of spills. Cordless unit uses two AA batteries (included).

glebar guidewire grinder-hng medical incorporated

glebar guidewire grinder-hng medical incorporated

The CAM.2 represents the ultimate in medical guidewire grinding, capable ofholding the tightest tolerances in the industry.In the exciting field ofmicro-grinding, the capability of the CAM.2 to produce flats, radiuses,needle points, and non-linear shapes makes this the perfect machineto grind complex medical guidewires, dental parts, and small precisionparts for various industries.Combining the latest in multi-axisservo motor control, submicron positioning, and an intuitive 15" HMI,the CAM.2 offers unmatched performance.With the CAM.2's full-fledgedG-code underpinnings, direct integration with CAD/CAM packages isseamless.Previously unproduceable parts can be made easily, withminimal setup time, and with limited operator training.Previously unproduceable parts can be made easily, withminimal setup time, and with limited operator training.Glebar's abilityto customize all aspects of our system, going beyond material handlingto incorporate features that were previously separate operations, havesaved customers time, floor space, and production costs.

For less complex geometries, centerless modeincorporates the best of both worlds, maintaining absolute length and diameter control while allowing for greater speed and material removal using a wider wheel

The GT-9AC excels at precision grinding medical guidewires with multiple tapers, paddles, and even parabolic shapes, all at the fast speeds of a conventionalcenterless grinder. Using the latest in high speed imaging technology and a 1 micron encoder the whole length of the feeder, the machine can updatethe position of the wire every 0.00025" (0.006 mm) at typical grinding speeds. Faster position updates result in better length accuracy and repeatability, allowing the GT-9AC to easily hold the tighter tolerances required by today's guidewires. The GT-9AC has no fixed sensors or sensing banks! Changingwire length or wire profile is easy and takes only seconds.The maximum length of grind is limited only by the overall length of the feeding system. Thingsthat were simply not possible before, like changing the speed of the regulating mid-profile, are accomplished effortlessly.

The TF-9DHD is an automatic infeed/thrufeed centerless micro grinder.Small in footprint, very capable grinder. Utilizing up to an 8-5/8 (219mm)wide work wheel, it is able to remove more material, faster and with bettersurface finishes than similar machines with narrower grinding wheels.Thismachine is superior to competingmachines in the same class due to thefact that it can run a 15HP main spindle motor in such a small package. Thismeans more material can be removed per pass than largermachines.

The fastest andmost accurate profile metrology system available for longparts or multiple short parts. The P4K's strongest feature is the ease of useby line operators -- it is able to scan multiple single parts or one long part inone operation. Conventional methods measuring long components to ahigh degree of precision require high magnification vision systems andprecision stages that require a fair amount of programming and are notsuited for the factory floor. On the P4K, parts are simply clamped in a fixtureand scanned with a mouse click. It has the ability to scan multiple singleparts or one long part in one operation. By pulling the product through alaser gauge using a high precision linear stage, and matching diameter andlength readings in real time at a rate of 10,000 readings per second, we areable to produce an astounding data set, where we gather a diameter andlength reading every 30 millionths of an inch. Reporting, lot control, anddata aggregation for SPC analysis are standard features. However, the P4K'sstrongest feature is the ease of use by line operators. The best way todetermine that the P4K will meet and exceed your measurement needs is tohave us perform a Gauge R&R study using your actual parts!

Glebar already makes the most reliable feeder for Guidewire onthe market using tried-and-tested vacuum feeding technology.Now we've transformed it into a stand-alone device which canseamlessly connect and feed parts into existing third-party machinesincluding, swiss screw machines, other manual machines, etc. We'veupgraded the control system and added a 7-inch color HMI for simpleand easy access to all aspects of feeder operation, whichwouldtraditionally be set from the HMI on the grinder. The feeder allowsmultiple modes of operation, including a completely standalone cyclingmode that doesn't require any signals from a grinder. The GlebarStandalone Feeding System is designed to feed long products, such asGuidewires, Catheter Bodies, Metal Tubing and many other products toother process devices.

The GSR-6 was designed to deburr guidewires while automaticallyseparating pass and fail parts. This automated process removes theoperator and may prevent against Carpal Tunnel Syndrome.With its ability to automatically separate pass and failing parts, touchscreen controls, wide variety of presets for radii and/or chamfers (or theability to create your own custom configuration), thecompact GSR-6 Deburringsystem is difficult to match in performance and ease of use.

The CAM.3 representsa new eraofmicro grindersand medical component grinding.Completely designedfrom thegroundup, the CAM.3 micro grinder is built for high performanceandefficiency.Partsarefedthrough the machine and spun at a higher velocityresultingin a quickgrindmaximizing uptimeand throughput.The CAM.3 grinding wheel runs with a 16 diameter and upto 3 wide. The work wheel is powered by a direct driveservo motorand ABEC7 spindlebearings. It can also be outfitted with an internalbalancingsystem minimizingvibration while running at high speeds.

In 2020, Glebar Company acquired Tridex Technology and Everite Machine Products world leaders in Electrochemical Grinding (ECG). Tridex and Everite focus on creative manufacturing solutions utilizing ECG technology for both standard and custom applications. ECG combines abrasive grinding and electrochemical erosion producing a more efficient, cost effective, and burr free part.

The ECG process removes material with low cutting force increasing wheel life and providing a burr free, stress free part with no recast or heat affected zone. Improves production times by eliminating the need for secondary operations such as deburring, wire brus.

Features a stationary table and optional rotary table to fit your production needs. Provides burr free and low force cutting leaving no recast or heat affected zones while cutting. Has numerous applications across many materials and industries includingmedical device, automotive, and aerospace.

The PGS-100 is a fully programmable pointing and material handling system to manufacture a wide variety of medical device points on tubing or solid wire using ECG technology. When added to the Tridex Model SG-1645 or SG-2060 electrochemical grinders, it offers very fast set-up times and can be changed over from one size to another in only minutes. It also facilitates secondary operations such as electro-polishing, bead blasting, slotting, etc. without losing point orientation. Capable of producing tri-bevel, back bevel, trocar, diamond, stylet, Franseen, and custom points.

The GT-610 CNC is the complete lights-out centerless grinding solution for applications where a high degree of automation, data gathering, and gauging feedback is required. Built on a mineral cast base for rigidity, vibration, and thermal stability, the GT-610 CNC weighs over 8,000 pounds. Glebar's vast experience and unique infeed centerless grinding technology shine in this higher precision machine tool, able to process challenging components, such as titanium aerospace fasteners, arthroscopic shavers, bone drill blanks, and small powdered hard metal components. This fully automated system is capable of grinding and gauging multiple components (up to 8 or more) to a high degree of precision. Configurable with pick/place gantries or six-axis robots, this machine ensures a hands-off, high production, or frequent changeover operation with the assurance of automatic size compensation and 100% inspection. The GT-610 CNC includes integrated two-axis CNC work-wheel and regulating wheel dressers capable of dressing an 8.625 (219mm) wide grinding wheel and a 10" (254mm) wide regulating wheel. Another available option is our patented programmable work rest blade, which adjusts the lateral position of the parts (when grinding).

The highly automated GT-610 Infeed/Thrufeed Grinding System was originally designed to grind the hardest material on Earth, diamond. It now also excels at grinding metal (steel, carbide, titanium, etc.) and composite materials for the automotive, aerospace,

medical, metal, and mining industries. The machine has been field-tested in some of the harshest industrial environments, proving, again and again, its reliability and its ability to offer large capabilities, all in a small package. Enclosed on a granite bed (standard platform) for reduced vibration and thermal stability. An enclosure with mist collection protecting the operator from debris and misting offering a clean and safe work environment also comes standard. As with our GT-610 CNC, the GT-610 can also be put on a 5,000-pound mineral cast base designed for superior vibration

new micro grinder with 6 axis robot

new micro grinder with 6 axis robot

Ramsey, NJ, February 03, 2020 --- Precision grinding solution provider Glebar Company is excited to announce their new CAM.3 micro grinder. The CAM.3 represents the next generation in Glebars 68 year history of providing precision grinding solutions to the medical device industry. Designed from the ground up, the CAM.3 features faster speeds and feeds, larger diameter wheel, increased capability and connection to the IIoT. Applications such as medical guidewires with flats, multiple tapers, hex shapes, and other complex geometries can be easily manufactured on the CAM.3. The CAM.3 offers additional capability suited for applications such as K wires, bone pins and other orthopedic and sports medicine implants, instruments and single use disposable products.

The CAM.3 can accurately grind lengths ranging from 0.005 to 0.375 in diameter. The 16 grinding wheel is mounted on a servo spindle with robust ABEC 7 spindle bearings with a capability of reaching over 20,944 surface feet. It can be fitted with a 6 axis robot, within the enclosure, providing additional axis and automated capabilities. In addition the work head can also be tilted up to 5 degrees to grind sharp corners and true threads. The dual carriage linear motor feed system powers the collets which can spin up to 250 RPS for improved grinding performance.

Built on a 6,500 lb mineral cast base for vibration dampening, the CAM.3 can easily produce parts, repeatedly, to sub micron accuracy. The positioning of the work wheel, main spindle, and the collets can be programmed using the touchscreen HMI which features a large 16:9 aspect ratio. IIoT enabled sensors can be built in to monitor temperature, pressure and vibration of key mechanical components.

The enclosure includes safety interlocks and the machine is CE Certified for the European market. The base includes embedded air and oil lines. The electrical enclosure includes a built in AC cooling system. The CAM.3 comes with MTConnect capability, is OPC UA compliant, and is ready for Industry 4.0. The CAM.3 controller can easily be expanded to add peripherals such as loaders, inspection gages, and other automation types.

Glebars technology has been a vital part of the medical device industry for over 68 years, said John Bannayan, Chief Technical Officer at Glebar. The expanded features of the CAM.3 will offer designers an incredible set of fabrication capabilities for medical guidewires, orthopedic parts, dental components, and other small precision parts across a number of industries.

Glebar Company (www.glebar.com) is an innovative, vertically-integrated, process improvement company that designs and configures its standard platform of modular precision centerless grinding machine systems to provide turnkey, custom solutions for its customers. The company focuses on delivering a process to its customers, while maximizing customer return on investment. Founded in 1952, Glebar serves companies all over the world, across many market segments including medical, industrial, aerospace, automotive, consumer goods, and mining. Its machines are known for their precision, longevity, flexibility, and efficiency.

Glebar machines are made to the highest quality and safety standards and are backed by a 24/7 customer service operation which includes a team of technicians, design engineers, and customer service representatives. The company also stocks stand-by inventory of critical parts and tooling for next-day delivery in the U.S., Europe, and Asia. It employs a dedicated applications team conducting research and development activities, customer process enhancement, and pushing the limits of grinding wheel technology. Glebar is an ISO 9001:2015 Certified Company and is ITAR Registered.

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