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Precision Turning Services
Multi-Axis Turn-Milling Technology for Highly Complex Geometries
High-Accuracy Machining Achieving Micron-Level Dimensional Control
Material-Optimized Machining Solutions for Demanding Industrial Applications
Optimized Production Efficiency Ensuring Short Lead Times and Scalable Output
Expert CNC Turning Services From Htsin
Are you seeking a reliable, quick - turn supplier for CNC - turned parts?
Our Maximum Capabilities For CNC Turning
| Part size limitations | Metric units | Imperial units |
|---|---|---|
| Maximum part diameter | 508 mm | 20 inch |
| Maximum part length | 1066.8 mm | 42 inch |
| Maximum swing over the carriage | 355.6 mm | 14 inch |
| Maximum spindle through-hole | 50.8 mm | 2 inch |
Maximum speed: 2000RPM
Motor power: 750W
CNC Turning General Tolerances
As an ISO 9001-certified manufacturer, Htsin delivers precision turned parts with exceptional accuracy—ideal for intricate medical and aerospace designs, as well as complex industrial components. Our CNC turning systems consistently maintain tight tolerances down to ±0.005″, while adhering to ISO 2768-f for metal parts and ISO 2768-m for plastics, ensuring compliance with international precision and quality standards.
| Type | Tolerance |
|---|---|
| Linear Dimension | +/- 0.025 mm +/- 0.001 inch |
| Hole Diameters (not reamed) | +/- 0.025 mm +/- 0.001 inch |
| Shaft Diameters | +/- 0.025 mm +/- 0.001 inch |
| Part Size Limit | 950 * 550 * 480 mm 37.0 * 21.5 * 18.5 inch |
Materials For CNC Machining Parts
Surface Finish Options For CNC Turned Parts
As machined
As standard, all sharp edges and burrs are removed from machined aluminum parts. Visible tool marks remain unless a specific finishing process is requested.
Bead Blasted
Give the machined parts a smooth and uniform matte surface finish, thereby removing tool marks.
Polishing
Creating a smooth and shiny surface by manually polishing in multiple directions or by applying a chemical polish treatment.
Anodizing
Type II (Anodizing color or clear) or Type III (Anodizing hard coat) Anodizing does not cover tool marks unless bead blasted beforehand.
Chromate Conversion Coating
Increase the part’s corrosion resistance while retaining its conductivity. RoHS compliant.
Decorative Chrome Plating
Enhance aesthetics and durability of the cnc aluminum components.
Powder Coat
Applying powdered paint to the components and then baking it in an oven, which results in a stronger, more wear- and corrosion-resistant layer that is more durable than traditional painting methods.
Gallery Of CNC Turning And Lathe Parts
Overview: What Is CNC Turning?
CNC Lathe Basics
The Working Principle of CNC Turning
Types of CNC Lathes
Applications of CNC Turning
CNC turning plays a crucial role in diverse industries, enabling the production of high - precision cylindrical components. Here are some key application areas:
Precision-engineered parts for extreme aerospace demands—from structural components to critical systems. Explore industry-specific machining solutions built for reliability at altitude.
Custom machined parts for automotive powertrains, EV components, and chassis systems. Dive into high-performance, cost-effective solutions tailored to automotive innovation.
Robust components for automation lines, actuators, and control systems. Discover machining that powers efficiency and durability in industrial environments.
Biocompatible, ultra-precise parts for surgical instruments, implants, and diagnostic equipment. Explore compliance-ready solutions meeting strict medical industry standards.
Miniaturized, high-precision parts for telecom gear, consumer electronics, and connectivity devices. Unlock tailored machining for your electronics innovation.
Precision components for wafer handling, process cavities, and semiconductor tools. Dive into solutions engineered for the semiconductor industry’s tight tolerances.
Lightweight, rigid parts for robotic arms, joints, and sensor housings. Explore machining that empowers robotic performance and reliability.
Durable, pressure-resistant parts for drilling equipment, valves, and pipelines. Discover industry-grade machining built for harsh oil & gas environments.
A Holistic Approach to Precision & Reliability
Our Quality Assurance
Quality Assurance
01
Strict Quality Control System
We've established a rigorous quality control system. It acts as a safeguard to make sure every product aligns with customer requirements, laying a solid foundation for consistent quality.
2. Comprehensive Pre - Delivery Testing
02
Comprehensive Pre - Delivery Testing
Before products are delivered, we conduct thorough testing. This includes checking dimensional accuracy, surface finish, hardness, and precision. Every aspect is scrutinized to ensure compliance with specifications.
03
Advanced Measuring Equipment
We use computerized measuring equipment. It enables us to accurately verify critical dimensions, ensuring that each product we manufacture reaches the highest quality standard.
04
Commitment to Quality Delivery
Our dedication to quality means customers get their products on time. We ensure the highest accuracy and that all products meet their specific requirements, building trust through reliable service.
Let’s Craft Precision Together
Got questions about CNC turning, material specs, or project feasibility? We’re here to turn ideas into reality.
CNC Turning FAQs
- CNC milling and CNC turning are two distinct machining processes that differ in how they operate, the types of machines used, and the parts they can produce.
- CNC milling uses a rotating cutting tool that moves across a stationary workpiece to remove material from its surface. The milling process can produce a wide range of geometries, including flat and inclined surfaces, slots, and grooves.
- CNC turning, on the other hand, rotates the workpiece while the cutting tool remains stationary, shaping the material into the desired shape. It is typically used to produce cylindrical parts and is ideal for creating symmetrical components like shafts, pins, and bushings.
- In summary, CNC milling is ideal for producing parts with complex shapes and geometries, while CNC turning is perfect for creating cylindrical parts. Both processes provide high levels of precision, consistency, and efficiency while reducing the need for manual labor.
- CNC lathes and turning centers are not just two names for the same machine – they actually perform different tasks! Lathes generally rotate a part to create circular shapes, but with more advanced features like facing, threading, knurling drilling and reaming as well as taper turning capabilities; Turning Centers can help you produce even more intricate pieces.
- Only Rotatable Components Are Permitted
- Parts May Need Many Procedures and Machines
- Severe tool wear
- The processing produces a lot of Scrap
- Rough turning and finish turning are the two stages of the turning process used to make machined parts. Here are the primary differences between them:
- Cutting Depths: Rough turning removes large amounts of material quickly to achieve a particular shape with a relatively heavy cut depth. Finish turning uses smaller cutting depths to provide an improved surface finish and highly accurate dimensions.
- Speed: Rough turning is commonly done at higher speeds to remove material quickly, while finish turning is performed at lower speeds to provide a smoother surface finish and more precise cuts.
- Tool Selection: Because rough turning demands a heavier cut, it frequently employs larger and more robust tool inserts. Finish turning, on the other hand, generally utilizes smaller and lighter inserts for improved surface finishes.
- Cutting Path: Rough turning typically employs a straight cutting path, while finish turning may use a technique known as “light cuts,” which involves the tool following a slightly curved path.
- Both stages are essential in the turning process, with rough turning used to remove bulk material and produce the desired shape, and finish turning used to refine the size and surface finish of the machined part.
- Through the power of CNC turning, a multitude of parts necessary for production in a variety of industries can be crafted – from automotive components and aeronautical components to medical equipment pieces and toy parts. From hubs to flywheels, this technology is an invaluable tool that continues — day after day — powering countless essential items we use daily.
Higher Precision: CNC turning offers significantly higher precision than manual turning, allowing for extremely accurate machine parts.
Greater Efficiency: CNC lathes can complete multiple operations in a single setup, reducing the time and cost involved in producing machined parts.
Versatile Applications: CNC turning can be applied to an extensive range of materials, from metals to plastics, allowing for a diverse range of applications.
Consistent Quality: CNC turning ensures that every machined part is identical in design and output, guaranteeing consistent quality throughout production.
Lower Costs: With its high efficiency, automated operation, and consistent quality, CNC turning offers lower manufacturing costs in the long run, as compared to traditional methods.