Machining Centers
The term “machining center” describes almost any CNC milling and drilling machine that includes an automatic toolchanger and a table that clamps the workpiece in place. On a machining center, the tool rotates, but the work does not. The orientation of the spindle is the most fundamental defining characteristic of a CNC machining center. Vertical machining centers (VMCs) generally favor precision while horizontal machining centers (HMCs) generally favor production—but these are loose generalizations, and plenty of machining centers break out of them. Another common machining center type is the 5 axis machining center, which is able to pivot the tool and/or the part in order to mill and drill at various orientations.
Latest Machining Centers Articles
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Using Automation to Reduce COGS and Stay Globally Competitive
Decade-long, multiphase automation investments lower operating costs and maintain technology lead in an increasingly competitive global market.
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Tormach CNC Mill Minimizes Machining Vibrations
The 1500MX three-axis, servo-driven mill is said to enable 10 times the damping of cast iron, providing chatter-free cuts, superior surface finishes and 30% longer tool life.
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Fryer VMCs Feature Handwheels for Manual Operation
Fryer vertical machining centers are designed for high-performance cutting, accuracy, reliability and ease of use.
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Digital Transparency in Machining Key to Multi-Site Additive Manufacturing
Cumberland Additive’s CNC programmer in Pennsylvania spends most of his time writing programs for machine tools in Texas.
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Shoulder Milling Cuts Racing Part's Cycle Time By Over 50%
Pairing a shoulder mill with a five-axis machine has cut costs and cycle times for one of TTI Machine’s parts, enabling it to support a niche racing community.
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The Cut Scene: The Finer Details of Large-Format Machining
Small details and features can have an outsized impact on large parts, such as Barbco’s collapsible utility drill head.
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Building Machines and Apprenticeships In-House: 5-Axis Live
Universal machines were the main draw of Grob’s 5-Axis Live — though the company’s apprenticeship and support proved equally impressive.
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Lean Approach to Automated Machine Tending Delivers Quicker Paths to Success
Almost any shop can automate at least some of its production, even in low-volume, high-mix applications. The key to getting started is finding the simplest solutions that fit your requirements. It helps to work with an automation partner that understands your needs.
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High RPM Spindles: 5 Advantages for 5-axis CNC Machines
Explore five crucial ways equipping 5-axis CNC machines with Air Turbine Spindles® can achieve the speeds necessary to overcome manufacturing challenges.
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How to Mitigate Chatter to Boost Machining Rates
There are usually better solutions to chatter than just reducing the feed rate. Through vibration analysis, the chatter problem can be solved, enabling much higher metal removal rates, better quality and longer tool life.
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Grob Robot Cell Enables Long Periods of Unmanned Operation
The GRC-R12 robot cell features a pneumatic single- or double-gripper system, as well as a drawer feed system with six drawers.
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Twin Spindle Design Doubles Production of Small Parts
After experiencing process stalls in the finishing stage of production, Bryan Machine Service designed an air-powered twin spindle and indexable rotating base to effectively double its production of small parts.
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Digital Demo: People and History Drive Solutions
Bourn & Koch has long provided unique manufacturing solutions. However, the people who work at Bourn & Koch enable the company to deliver value to each partner they work with. From service to assembly to engineering, each step builds on the solution—helping you solve your most challenging manufacturing problems. (Sponsored)
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Digital Demo: X-Series CNC Machine for Extrusions
This unique fixturing system provides maximum hold with minimal clamping footprint to optimize spindle clearance and allow chips, debris and cutoffs to drop below the machining area and away from the spindle. (Sponsored)
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View From My Shop Episode 6: Baker Industries' Huge Parts and Massive Machining Centers
In the latest episode of The View From My Shop, Modern Machine Shop takes a tour of Baker Industries, a manufacturer of tooling, prototypes and low-volume production components. See how this large-scale operation gets everything done across multiple facilities on the same site.
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Soraluce Demonstrates Hardware and Software Advances at Annual Summit
The company continues to refine its large-format machine tools with its dynamic workpiece stabilization capabilities and connected software infrastructure.
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View From My Shop Episode 5: Inside a Full Five-Axis Shop With KCS Advanced Machining
In this episode of our shop tour series, KCS Advanced Machining takes us inside their shop and breaks down why they decided to invest completely in five-axis machining centers.
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View From My Shop Episode 4: Prototype Machining From a Garage Shop
Guy Driscoll’s shop, Metal Parts Machine, is a garage shop that found success with automation. This mom-and-pop shop uses lights-out machining to run parts with 5-axis capabilities, cobots, pallet changers and more.
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View From My Shop, Episode 3: Expanding a Machine Shop With Budde Precision Machining
Three years ago, Budde Precision Machining was a well-regarded tool shop. Today, new technology has grown its reach and customer base far wider.
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Modular Horizontal Machining Center Offers Uninterrupted Production
According to Starrag, the Bumotec 191neo offers twelve separate machines based on a single platform. The system is designed to address current and future challenges for medical technologies, the luxury industry and the micromechanics sector.
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Probing for Setup and Lights-Out Machining — The One-Person Shop Episode #2
Automatic measurement on the machine tool speeds efficiency by day and safeguards capacity at night for a small machine shop.
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Practical Approaches to Automating Five-Axis Machines
There are many approaches to automation in five-axis machining, and whether a shop uses robots or pallet changers, the benefits are often easier to realize than many believe.
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Standardization Leans the Way to High-Mix Automation
An increasingly digitalized, lean manufacturing process begins with a common selection of cutting tools and five-axis machining fixtures.
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A More Affordable Approach to 5-Axis Large Part Machining
Shops that machine large aluminum parts don’t have to pay millions of dollars for a machining center just to get the work envelope they need. There is a more affordable alternative, and it’s manufactured in the USA.
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Latest Machining Centers News And Updates
Soraluce Gantry Machines Handle Diverse Machining Applications
The new High Rail Gantry Machines offer high-speed cutting capabilities, high precision rates and the ability to handle high-volume machining tasks.
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Ballbar Testing Benefits Low-Volume Manufacturing
Thanks to ballbar testing with a Renishaw QC20-W, the Autodesk Technology Centers now have more confidence in their machine tools.
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How to Successfully Adopt Five-Axis Machining
While there are many changes to adopt when moving to five-axis, they all compliment the overall goal of better parts through less operations.
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Fryer VMC Enables Easy Loading of Large Parts
The VB series of vertical machining centers feature an open design, large frame and rugged construction, which enables for versatility in production and job-shop applications.
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Five-Axis Turnkey Machine Halves Medical Shop’s Cycle Times
Horizontal five-axis machines cut cycle times in half at ARCH Medical Solutions – Newtown. But its leadership gives equal credit to a surprising factor: the OEM’s service department.
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Additive/Subtractive Hybrid CNC Machine Tools Continue to Make Gains (Includes Video)
The hybrid machine tool is an idea that continues to advance. Two important developments of recent years expand the possibilities for this platform.
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Featured Posts
How I Made It: Doug Schulte, Select Machining Technologies
Doug Schulte was introduced to machining as a young child, often visiting his father at the LeBlond Machine Tool company where he worked in Cincinnati. Here, Schulte — who ended up dedicating his entire career to the industry — shares some of the key insights he’s discovered along the way.
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Three-Axis Bridge Mill Opens New Doors for Construction OEM
Different industries often require different machining priorities, a truism recently demonstrated by Barbco, an OEM of heavy-duty boring equipment that opened up new design possibilities by pivoting toward rigid, less complex machining centers.
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Medical Shop Performs Lights-Out Production in Five-Axes
Moving to five-axis machining enabled this shop to dramatically reduce setup time and increase lights-out capacity, but success relied on the right combination of workholding and automation.
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Controlling Extreme Cutting Conditions in Large-Part Machining
Newly patented technologies for controlling chatter and vibration during milling, turning and boring operations promise to drastically reduce production time and increase machining performance.
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Hermle Event Encourages, Educates on Five-Axis Machining
Hermle’s first Five-Axis Summit was designed to show beginners the benefits of five-axis machining and demonstrated how more advanced users can take their capabilities to the next level with automation.
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Q&A: How a Self-Taught Machinist Started His Own Business
This machinist found an opportunity in a niche market and decided to learn machining and create his own business. Here's how he did it.
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FAQ: Machining Centers
What is a vertical machining center?
Most machining centers on the market feature numerical control (CNC) and serve more than one purpose. Many can perform combinations of operations such as milling, drilling, boring, tapping and reaming in a single setup. Machining centers come in three general types: horizontal three-axis, vertical three-axis and five-axis machines (four- and six-axis machines exist, but are less common).
For a vertical machining center, the X-axis controls left-and-right movement, parallel to the workholding surface; the Y-axis controls front-and-back movement, perpendicular to the X- and Z-axes; and the Z-axis controls up-and-down movement. Most machines use a fixed spindle and a moving table, or a fixed table and a moving spindle. Spindle rotation is never considered an axis.
Five-axis (and four-axis and six-axis) machines introduce additional axes that enable the table or spindle head to rotate and pivot. The A-axis involves X-axis rotation, while the B-axis is paired to the Y-axis and the C-axis is paired to the Z-axis.
What is a horizontal machining center?
Machining centers come in three general types: horizontal three-axis, vertical three-axis and five-axis machines (four- and six-axis machines exist, but are less common).
Horizontal and vertical three-axis machines differ primarily in the inclination of the spindle, with the spindles of horizontal machines parallel to the surface of the machine table and the spindles of vertical machines perpendicular to the surface, although individual constructions vary widely to support different applications.
What is machining center accuracy and repeatability?
Accuracy and repeatability are both vital, but these specifications can be especially difficult to determine because different manufacturers use different definitions. In general, there are three standards for accuracy: unidirectional forward, unidirectional reverse and bidirectional (which is the average of the two). Repeatability — which is the distance between accuracy samples, tested over the full range of data points — generally has four standards: forward repeatability, reverse repeatability, bidirectional repeatability and scatter.
“Lost motion,” also called “mean reversal error,” is the difference from center found when comparing marks made with forward and backward repeatability. Data collection typically repeats processes seven times, then creates a bell curve of results, calculating both the standard deviations and the mean. Different measurement standards use the standard deviations in different ways.
What is unbalance?
Standard adapters and tooling are normally satisfactory at spindle speeds up to 8,000 rpm. At faster speeds, specially balanced tooling can be critical for high tolerances and surface finishes.
Unbalance is a tool’s mass times its eccentricity (which is the distance from the tool’s center of rotation to its true center of mass). Eccentricity is measured in microns and tool mass in kilograms, so unbalance is measured in gram-millimeters. ISO 16084 is the standard for setting targets for tool and toolholder balance.
To evaluate unbalance in processes, users can perform trial runs one at a time with tools balanced to a variety of different values. Such an evaluation might start at an unbalance of 10 g-mm, then progress through a series of increasingly balanced tools until it achieves proper tolerances or accuracy and surface finish fail to improve any further.
How do you find eccentricity?
Eccentricity is the distance from the tool’s center of rotation to its true center of mass. Eccentricity is measured in microns and tool mass in kilograms, so unbalance is measured in gram-millimeters.
What is a rotary encoder?
Machine tools use linear and rotary encoders to measure their own movements and stay on target. There are three types of encoder contacts — photoelectric (also called optical), magnetic and mechanical — but photoelectric encoder contacts are the most common.
Rotary encoders measure rotational movement drives, but spindles and recirculating ballscrews can also enable them to measure linear movements. Rotary encoders can be incremental or absolute.
Incremental rotary encoders have output signals that are evaluated by electronic counters that measure “increments.” For general length measurement applications — particularly the measure of slide movements using a recirculating ballscrew as the scale — shaft encoders that incorporate digitizing electronics are standard.
Absolute rotary encoders derive angular positional value from the pattern of a coded disc that provides values immediately after power switches on. The Gray coder and coders which use natural binary are most common, with many modern computer programs using the binary system to support high speeds.
How do you improve machining center accuracy?
1. Know The Spindle
2. Measure The Process Instead Of The Part
3. Raise The Bar On Drawbar Attention
4. Control Chatter
5. Inspect With A Reference
Machining Centers Supplier Categories
- Graphite Milling
- Planer, Gantry & Bridge Type Milling
- Material Removal Automation
- Multi-Machine Tool-Storage Systems
- Assembly & Testing Automation
- Universal Milling Machines
- Boring
- Material Forming & Fabricating Automation
- Machining Flex Lines
- Vertical, Five-Axis
- Universal
- Bed-Type Milling
- Nano & Micro Machining
- Vertical, Up to Four-Axis
- Horizontal, Five-Axis
- Pallet Systems
- Knee & Column Milling, Non-ATC
- Ultrasonic
- Horizontal, Up to Four-Axis
- Machining Cells & FMS
- Automated for Material Joining
- Jig Boring
