The developers are calling it the world’s largest anti-vibration boring bar—one that is capable of machining a bore 12 inches in diameter and as long as 165 inches. The bar itself is 240 inches long and is designed for a lathe that is 66 feet long. Sandvik Coromant designed and manufactured this record-breaking boring bar in cooperation with lathe builder Gurutzpe Turning Solutions.
Gurutzpe, headquartered in Itziar-Deba in the Basque region of northern Spain, is one of the largest manufacturers of heavy horizontal lathes in Europe. When a customer ordered the 66-foot lathe, specifications called for an integrated boring capacity of unprecedented dimensions. To meet this requirement, the lathe builder turned to Sandvik Coromant Ibérica, the division of Sandvik Coromant serving that territory.
These two entities entered into an agreement guaranteeing the customer technical support for the lathe and the operation of the boring bar as a comprehensive solution. Another unit of Sandvik Coromant in Teeness, Norway, handled the final design and construction of the anti-vibration boring bar. Cooperation between Teeness and Gurutzpe also encompassed the design of the clamp for the machine.
Production time for the bar was four months; total project time from order to delivery was eight months.
Here are the facts and figures about the anti-vibration boring bar:
Length: 240 inches
Capacity of the bore: 165 inches
Overhang: 14 times the diameter
Biggest challenge: Being able to machine lengths of up to four meters without having problems with vibrations and maintaining good surface quality
Diameter: 12 inches
For a more detailed account of this remarkable boring bar, click here.
This parallel keeper is said to be quickly adjusted from approximately 1 to 4.2 inch to hold parallels against the vice jaws as the vice is open and closed during workpiece loading/unloading.
“Parakeep” is what Rimeco Products Inc. calls the adjustable parallel keeper it developed. The company says the device can be used with any standard set of parallels on any machine vise, holding workholding parallels in place while the vise is opened and closed during normal use.
The Parakeep has a spring-loaded housing with an adjustable screw that enables a machine setup person to quickly adjust the device’s parallel stabilizing mechanism with each new job. It serves as an alternate method to conventional means (using different length springs, scrap material, washers and so on) to hold parallels against the vice jaws as the vice is open and closed during workpiece loading/unloading. An individual Parakeep unit has a work envelope of 1 to 2.25 inches, while the kit covers 0.25 to 4.25 inches.
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Operations like deburring, polishing and removing grease are often necessary to deliver a final product, but the steps can be time-consuming, especially if the workpiece must be moved manually between machines. Saving time by performing these processes in-machine or automating the movement of workpieces between machines is a common theme among the cleaning and deburring equipment highlighted in this month’s product spotlight slideshow.
The Emag VLC 100 C chamfering machine, for example, features a pickup spindle and a conveyor at the same height as other Emag machines for easy installation into an automated cell or production line. In the same vein, German Machine Tools of America offers an entire line of parts washing equipment that supports conveyor integration.
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Fluid recycling systems come in many different configurations so that they’re convenient to operate and fit seamlessly into your facility’s layout.
Installing a metalworking fluid recycling system in your shop is guaranteed to bring about a return on your investment in terms of slashing costs for new coolants alone, but there are additional benefits to factor in as well. You will also improve workplace safety and employee health, since eliminating tramp oil from coolant reduces oil mist, improving air quality and reducing slippery surfaces. There are also legal considerations, since proof that you’re treating these liquids will protect you down the road should your disposal company incur any liabilities related to improper activities. And having a fluid recycling system in place will go a long way toward reaching environmental management standards for companies working toward ISO 14000 certification. This short video by Eriez HydroFlow provides a nice snapshot of what’s involved, and what you stand to gain by investing in a fluid recycling system.
Using the hybrid grinder, this stator vane section was resurfaced via metal deposition, then machined to the part’s final tolerance via grinding.
To date, hybrid machine tools have combined additive manufacturing capability with milling and/or turning. But now, machine tool maker ELB-Schliff has introduced a grinding machine that is equipped for additive manufacturing. The hybrid version of the company’s “millGrind” is aimed at aerospace engine part production, producing part features both subtractively (through grinding and milling) and additively (through laser cladding). In other words, the machine can generate the features of precise, complex, critical components made aerospce alloys by applying both growing and grinding within a single cycle.
The additive capability comes from the laser metal deposition system from Hybrid Manufacturing Technologies that is integrated into the machine. Hybrid worked with ELB-Schliff on the machine’s development. The result, both companies believe, is the world’s first hybrid grinder.
The combination makes sense. Indeed, it could be argued that additive manufacturing is at least as good a fit with grinding as it is with other subtractive operations. Both CNC grinding and metal additive manufacturing are high-value processes typically performed on high-end machines. In addition, grinding is strong where additive is weak. Features produced additively generally require surface finish improvement, and surface finish is where grinding excels.
A statement from ELB-Schliff adds this: “Grinding particularly excels in cost-effectiveness for processing materials that are difficult to machine, such as nickel-based superalloys. The millGrind runs conventional grinding abrasives with superabrasive capability, and has an XYZ resolution of 0.1 micron. If hybrid milling takes additive manufacturing to a new level of productivity, then hybrid grinding takes additive manufacturing to a new level of precision.”