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[China]
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Address: Hengjiao Industry Zone, Hengjiao Village, Shijie Town, Dongguan, Guangdong, China
Contact name:Hafrey
Dongguan Yexin Intelligent Technology Co., Ltd. |
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CNC Lathe Turning Part CNC Machining Service Custom CNC Turned Machined Parts
CNC turning is a subtractive manufacturing process that involves the rotation of a metal rod
while a cutting tool is applied against the material to remove excess material and shape the
final parts.
Our CNC lathes are equipped with live tooling capabilities, allowing for the machining of flat
features and holes directly into the workpiece.
Additionally, we offer threading services for both the outside diameter (OD) and inside diameter
(ID) of the parts.
After the turning process, the parts can be left with visible tool marks for a functional finish or
bead blasted for a smoother appearance.
Once the production run is complete, all parts undergo a thorough inspection, are then carefully
packaged, and promptly shipped to their destination.
Product Details
The turning process predominantly employs metals as its primary materials.
These metals encompass alloy steel, carbon steel, cast iron, stainless steel, aluminum, copper,
magnesium, and zinc.
Nonetheless, this versatile process can also be applied to machine plastic components and work
with an array of other materials, including ceramics, composites, thermoplastics, and thermosets.
| Common Materials | |
| Name | Description |
| Aluminum | High machinability and ductility, good strength-to-weight ratio. |
| Stainless steel | High tensile strength, corrosion and temperature resistant. |
| Mild steel | High machinability and weldability, high stiffness. |
| Brass | Low friction, excellent electrical conductivity, golden appearance. |
| Copper | Excellent thermal and electrical conductivity. |
| Titanium | Excellent strength to weight ratio, used in aerospace, automotive and medical industries. |
| POM | High stiffness, high accuracy, low friction, easy to machine. |
| ABS | Common thermoplastic, impact resistant, easy to machine. |
| Nylon | Excellent mechanical properties, thermal, chemical and abrasion resistant. |
| CNC Turning Tolerances | ||
| Limits for nominal size | Plastics | Metals |
| 0.5mm* to 3mm | ±0.1mm | ±0.05mm |
| Over 3mm to 6mm | ±0.1mm | ±0.05mm |
| Over 6mm to 30mm | ±0.2mm | ±0.10mm |
| Over 30mm to 120mm | ±0.3mm | ±0.15mm |
| Over 120mm to 400mm | ±0.5mm | ±0.20mm |
| Over 400mm to 1000mm | ±0.8mm | ±0.30mm |
| Over 1000mm to 2000mm | ±1.2mm | ±0.50mm |
| Over 2000mm to 4000mm | ±2.0mm | |
| *Please clearly indicate tolerances for nominal sizes below 0.5mm on your technical drawing. | ||
Applications of CNC Turning
Turning is employed to craft rotational components, usually axially symmetric, with diverse
characteristics like holes, grooves, threads, tapers, differing diameter levels, and even intricate
contoured surfaces.
Products wholly manufactured via turning often encompass components required in limited
quantities, notably for prototypes, such as custom-designed shafts and fasteners.
Furthermore, turning frequently serves as a secondary process for introducing or enhancing
features on parts that were initially crafted using an alternative method.
Some instances of items produced through turning encompass camshafts, crankshafts, baseball
bats, bowls, cue sticks, signboards, musical instruments, as well as table and chair legs.
Company Profile
FAQ's
1. Benefits of CNC Turning
CNC turning offers numerous advantages in machining processes:
1. Versatility: CNC turning centers can be equipped with various tools, including rotating cutters
like end mills and drills.
This versatility enables the machining of asymmetrical features, enhancing production efficiency
and cost-effectiveness.
2. Speed and Efficiency: CNC turning centers increase production speed and efficiency, as they
are capable of handling various operations quickly and accurately.
3. Radial Symmetry: Turning excels in achieving radial symmetry, making it ideal for creating
round and symmetrical parts with precision.
4. High Precision: Mounting the part in a chuck ensures high precision during CNC turning,
meeting tight tolerances and specifications.
5. Surface Finish: CNC turning consistently delivers good surface finishes, enhancing the final
product's quality and appearance.
These benefits make CNC turning a valuable process in the manufacturing industry, offering
precision, efficiency, and versatility for a wide range of components.
2. Difference Between Rough Turning and Finish Turning
Rough turning and finish turning are two distinct phases in the CNC turning process, each
serving a specific purpose.
Rough turning is the initial stage where the primary objective is to efficiently remove as much
material as possible from the workpiece.
This process prioritizes material removal over precision and surface finish. Its purpose is to
rapidly shape the workpiece and bring it closer to the desired dimensions, allowing for more
efficient subsequent machining operations.
On the other hand, finish turning is the concluding phase of the turning process.
Here, the emphasis shifts towards achieving the desired level of smoothness and accuracy in
the final product.
Finish turning fine-tunes the workpiece's surface finish and dimensional accuracy, ensuring
that it meets the exact specifications and requirements.
In summary, rough turning focuses on material removal and shaping, while finish turning
concentrates on achieving the desired precision and surface quality.
3. Geometric Possibilities in CNC Turning
CNC turning machining is versatile and capable of producing a wide range of geometric designs,
from the simplest to the most complex, often with additional features incorporated.
Some common part shapes that can be readily achieved using a standard CNC turning
center include:
1. Straight cylindrical shapes
2. Tapered shapes such as a cone
3. Contoured shapes such as a chess pawn
4. Shapes with threaded holes
5. Shapes with grooves such as for o-rings
6. Knurled shapes such as for handles
7. Chamfered shapes
8. Shouldered shapes
