Author Archives: administrator

Taig R8 and ER Headstocks Now Available

Published / by administrator

Taig R8 and ER25 ,ER32, ER40 and ER50 Headstocks Now Available

Are you looking to upgrade your Taig mill or lathe? GlockCNC.com now offers upgraded headstocks to modify you Taig. They work on the micro mill, micro lathe and Taig-turn gang lathe. They will also be introducing their own 5C which will be more robust than OEM 5C from Taig Tools. Mainly because GlockCNC will over much higher grade bearing options, such as ABEC7 and ABEC9. They will also offer larger bearings to avoid the “squish” that can happen with the OEM bearings.

GlockCNC is a full dealer for both Taig and Sherline, so you can get everything you need from them. They are also a dealer for Tormach TTS (although they aren’t a dealer for the mills or lathes from Tormach). Their primary products are upgraded spindle arbors mounted in their own heavy duty headstock and motor upgrades.

The motor upgrades offered for both Taig and Sherline are 750 watt and 1200 watt brushless industrial duty motors/drivers. Their mounting system looks pretty solid. It’s my understanding that they will also be offering a wider variety of belt options. Currently, the only belt option is what fits the Sherline directly. They offer pulleys with that groove size to fit the OEM Taig spindles. It sounds like they will offer an option to fit 5/16″ linked-belts and a timing belt option.

Spindle are sizes range from ER25, ER32, ER40 to ER50 for the ER collet type. They also offer R8 spindles. Those are great for use with the Tormach TTS system. Take a minute and check them out.

Like to the site: https://glockcnc.com/taig-sherline-headstock-upgrade/

Metal Stamping Business

Published / by administrator

There are particular items that have actually to be produced only through metal marking: Base weights, brackets, balance clamps, brake flanges, conveyor flights, bushing seats, engine bases, flywheel shrouds and friction plates. There are also various type of metal stamping consisting of: Deep drawn marking, electronic marking, Fourslide stamping, medical marking, progressive die marking and brief run stamping. The most commonly used type is the progressive die drawing wherein a metal sheet is drawn through a series of passes away and stamping is done by all the dies at the same time, hence substantially reducing the time it takes.

To a small degree, metal stamping is gradually replacing other metal forming processes like die casting, forging, producing and machining. The metals utilized in metal stamping can be more difficult than those used in other processes, hence making the end item more powerful.

In some cases, the sheet is likewise pre-plated prior to the stamping process, and then the product is cleaned up to eliminate excess metal marking oils and films. The item is then heat treated to make it more powerful given that it is still in the soft state after marking. Metal marking likewise involves other metalworking processes like piercing, blanking, drawing and forming on the exact same makers.

Stamping presses have particular force, speed and precision for providing a particular shape to the metal. There are two kinds of metal marking presses: Hydraulic and mechanical. These are offered in a substantial range of capacities, sizes, stroke lengths and operating speeds.

Metal marking is the procedure of shaping and cutting metal alloys into particular forms, specifically to be used as components for big equipment or structures. Metal stamping is a very economical and productive way of producing numerous kinds of metal products on a large scale.

In metal stamping, the metal sheets are placed in a die or a press tool that has a specifically developed cavity that offers the preferred shape to the metal sheet. The upper part of the die links to the press slide while the lower part connects to the press bed. A particular element referred to as the punch pushes the metal sheet through the die, thus carrying out the real shaping operation. After pushing, the metal is plated with gold, tin, nickel or palladium to avoid corrosion.

In metal stamping, the metal sheets are placed in a press or a die tool that has actually a specially developed cavity that offers the preferred shape to the metal sheet. The metals used in metal stamping can be harder than those used in other procedures, hence making the end item more powerful.

Metal stamping is the procedure of shaping and cutting metal alloys into specific types, particularly to be used as parts for large equipment or structures. Metal stamping is a productive and extremely cost-efficient way of producing many kinds of metal items on a big scale.

More resources:

http://gt40machinery.tumblr.com