Workholding
For turning centers, three-jaw chucks are the most common workholding device, gripping the outside of a bar or other type of material as the main spindle spins and turning operations are performed. For long parts, a tailstock with a dead center (doesn’t rotate) or live center (rotates with the workpiece) are used to support the opposite end of the workpiece during turning. Expanding mandrels are also available to expand inside a tube or machined bore to grip the part during turning. These provide the cutting tool full access to the entire outside diameter of a part. Quick-change collets are becoming more common to speed changeovers to new barstock sizes. A range of workholding options are available for milling machines, including vises, magnets, vacuum tables and hydraulic-actuated clamps.
ESSENTIAL READING
VIEW ALL
Bar Feeder Basics
Some primary factors are often overlooked when considering how to justify the implementation of a bar feeder for turning operations.
Read More
Understanding CNC Collet Chucks
Workholding for turning is usually fairly basic: The selection comes down to chucks or collets. This article looks at when to consider the collet chuck and what kind might be best for a given application.
Read More
Discovering the Benefits of Collet Chucks
For shops making all types of parts, collet chucks can provide faster change-over, an increased gripping range, high rigidity and reduced maintenance.
Read More
Precision Workholding Delivers Accuracy and Production Capabilities
Holding the workpiece precisely is becoming an integral aspect of the machining process. It's more than presenting the blank to the cutter; it also includes repeatability from blank to blank.
Read More
Subspindle Workholding Options
The advent of subspindle turning operations has impacted throughput for many shops. Understanding workholding options available for backworking can help a shop make better decisions when specifying how to hold parts for op. 20.
Read More
Precision Workholding Offers Multiple Advantages
As American manufacturing continues to transition from the mass production of conventional parts to the manufacture of complex, high-value components in relatively small lot sizes, precision workholding has assumed increased importance
Read More
Latest Products
SMW Autoblok Workholding System Streamlines Changeovers
The TMS-2G system enables the operator to change the chuck in minutes accurately and securely, making it versatile for diverse metalworking requirements.
Read More
System 3R Workholding Lineup Provides Stable, Repeatable Clamping
System 3R’s self-centering vises and accessories are designed to provide high cutting performance and centering and repeat accuracy.
Read More
Dillon Hard Jaws Enhance Small Diameter Machining
Dillon Manufacturing’s extra-long hard jaws feature extended reach, making them well suited for machining small diameters.
Read More
Mate Workholding System Maximizes Repeatability
The company has enhanced its 52/96 zero-point workholding system with a new vise, collets machinable hard jaws and more.
Read More
Fixtureworks Workholding Products Support Range of Use Cases
IMTS 2024: Fixtureworks highlights a variety of its clamping, fixturing, positioning and workholding products, as well as its machine tools and components.
Read More
Speedgrip Chuck Workholding Solutions Reduce Setup Times
IMTS 2024: Speedgrip Chuck Co. showcases its QCR quick-change receiver to attach to CNC lathe spindles, as well two turning chucks designed to reduce the amount of time needed to change clamping and other workholding devices.
Read More
Featured Posts
Precision Machining Technology Review: December 2024
Production Machining’s December 2024 technology showcase includes some of the latest technology from Hexagon, Kennametal, SmartCAM, Horn and SMW Autoblok.
Read More
Starting Small with Automation
Quick-change workholding and flexible robotic automation started this small shop on the path to success.
Read More
Precision Machining Technology Review: October 2024
Production Machining’s October 2024 technology showcase includes some of the latest technology from Ceratizit, Kennametal, Mate Precision Techologies, Horn and Mazak.
Read More
The Workholding is the Hardest Part
Finding a way to fixture contoured marine propellors proved to be this shop’s biggest challenge in developing an effective automated machining and turning cell.
Read More
Chuck Jaws Achieve 77% Weight Reduction Through 3D Printing
Alpha Precision Group (APG) has developed an innovative workholding design for faster spindle speeds through sinter-based additive manufacturing.
Read More
When to Use a Diaphragm Chuck
The accuracy and repeatability of these chucks make them well suited for a number of workholding applications, including turning and grinding.
Read More
FAQ: Workholding
How does a three-jaw chuck work?
For turning centers, three-jaw chucks are the most common workholding device, gripping the outside of a bar or other type of material as the main spindle spins and turning operations are performed.
What is a mandrel?
Expanding mandrels are available to expand inside a tube or machined bore to grip the part during turning. These provide the cutting tool full access to the entire outside diameter of a part.
What is a collet?
Collets are generally used when the diameter of the part or bar to be gripped ranges from 1/16 inch to 2.5 inches. Compared with standard triple-jaw chucks with soft jaws, standard collets tend to be inexpensive and more accurate for gripping in the small-to-medium range.
When a collet-type workholding device is used, the part being gripped and machined will be closer to the headstock bearings on the machine tool or indexing fixture than is the case when using a power chuck.
Source: Collets Vs. Chucks
How do you use a vise?
According to Mr. Wolfe, "any vise has a bending moment associated with the clamping force applied. Take for example a 6-inch vise held down by its four corners. When the vise jaws close to clamp on a workpiece, the unsupported middle will tend to bend up from the machine table. It can move 0.002 inch or more. On precise parts that may be all the tolerance there is. My suggestion is always to secure the vise base as close as possible to the center distance between the movable and fixed jaws."
Another problem for many shops is consistency from operator to operator. "Rarely do two operators use the same clamping force on a vise," says Mr. Wolfe. "Deflections of the workpiece blank can cause inaccuracies. A more expensive but more accurate pull-type vise will help reduce some clamping variability. A simple torque handle will help achieve consistent clamping on both the pull-type and the more common push-type vises."
Make it a rule of thumb," says Mr. Wolfe, "to always try to keep the workpiece as close to the vise base as possible. Usually parallels work better on this type of setup than step jaws because the operator can check the seat of the part by trying to move the parallel. If it's snug, it's good."
Source: Flexibility Is A Vise
Workholding Supplier Categories
- Chucks, Self-Contained
- Dividing & Indexing Heads
- Actuators, Hydraulic & Pneumatic
- Chucks, Gear
- Vises & Vise Jaws
- Mandrels
- Guide Bushings (for Swiss Lathes)
- Angle & Sub Plates
- Chucks, Special
- Chucks, Collet Type (for Workholding)
- All Other Workpiece Handling, Loading & Feeding Equipment not specified
- Indexers & Rotary Tables
- Collets for Workholding
- Clamps & Fixturing Devices
- Chucks, Precision
- Steady Rests
- Centers, Live & Other
- Pedestal Type Fixtures & Tombstone Blocks
- Chucks, Magnetic
- Fixturing Systems
- Workholding, Custom
- Chuck Jaws & Collets
- Chucks, Index
- Chucks, Power
- Chucks, Diaphragm
- Arbors, Expandable Workholding
- Chucks, Vacuum
- Chucks, Jaw Type
