CNC Precision Machining: Details You Need to Know

Have you ever noticed metal implants in the human body or complex engine components in cars and airplanes? How are they formed into such precise shapes? It’s all thanks to CNC precision machining.

CNC precision machined parts go through a complex manufacturing process. The journey of these finely shaped custom parts begins with manufacturing, where CNC machining companies transform raw materials into products we use every day.

Due to the increasing demand for more precise parts, CNC precision machining services are in high demand. These companies use advanced precision technology.

This advanced capability of computer numerical control machines is in the micron or even nanometer range. Now, the development of miniaturized components in various fields is possible. The main beneficiaries of this development are:

• Medical devices

• Electronics,

• Micro-Mechanical Systems (MEMS)

1. What is CNC Precision Machining?

CNC precision machining is a special form of manufacturing that uses CNC technology and high-precision CAD models to create parts with very tight tolerances. Beginners usually do not understand the concept of tolerances. Let us explain it in simple language. In traditional CNC machining CAD design, it is difficult to meet dimensional accuracy.

On the other hand, in CNC precision machining, dimensional accuracy becomes the primary choice. For example, in traditional CNC machining, the tolerance is a few hundredths of a millimeter, but in CNC precision machining, the tolerance can be as small as one micron. This is equivalent to the width of a human hair.

Examples of CNC precision machining parts

• Surgical instruments

• Rocket engine components

• Joint replacements

2. What is the difference between CNC machining and precision machining?

Compared with traditional CNC machining, CNC precision machining has tighter tolerances. In addition, this method meets high-level dimensional requirements. Deviations are extremely small. Manufacturing CNC precision machining parts requires high precision, precision tools, and impeccable programming skills.

Similarly, precision machining provides smoother surfaces compared to traditional machining methods. However, CNC precision machining usually incurs higher costs to maintain quality standards.

CNC precision machining is different from traditional machining in many ways, such as:

3. Advantages of CNC precision machining

CNC precision machining has significant advantages. Currently, the most modern manufacturing methods allow you to manufacture custom metal parts with the most complex designs. Interestingly, with CNC precision machining, we can achieve high precision. This is what makes it superior to other manufacturing methods.

The most important advantage of CNC precision machining is the high precision of the manufactured parts, which is almost impossible to achieve in the case of manual machining.

These capabilities bring multiple advantages to different industries. Let’s take a deeper look:

1) Higher accuracy and repeatability

CNC precision machining is particularly good at measuring tolerances in the micron range. These tolerances ensure that all end products meet the expected results. For example, their performance in industries such as medical devices and aerospace components should be optimal.

Since CNC precision machining is an automated technology, it can eliminate even the smallest human errors in the machining process. Each part is manufactured as designed, ensuring perfect repeatability.

2) Design freedom

CNC precision machining can handle complex designs and geometries efficiently. On the other hand, traditional machining has difficulty in manufacturing parts with complex designs. By combining advanced tool paths and 4-axis machining or 5-axis machining capabilities, CNC precision machining centers can manufacture high-precision parts of any complexity.

Ultimately, these features give CNC part designers great freedom to design anything that will perfectly match the machine for better performance. Hence, they can manufacture more precise parts required by the medical and automotive industries.

3) Wider Selection of Materials

One of the best features of CNC precision machining is its ability to machine a wide range of materials. Its capabilities are not limited to metals, but it can also machine plastics and other special materials such as Titanium and Inconel. Hence, this feature allows manufacturers and designers to choose the best material to meet their project requirements.

Since mass production is costly, better material selection becomes even more important, so professional CNC precision machining services can guide you effectively.

4) Superior Productivity and Efficiency

CNC machining has excellent productivity. Not only that, it also speeds up the prototyping process to manufacture customized parts in large quantities. Carrying out the entire process on a high-precision machine increases the efficiency of these parts. Hence, we can effectively control costs and produce efficient parts quickly without losing quality.

5) Enhanced Safety

Modern CNC machines are fully automated, which greatly reduces human interference. Likewise, the manpower required to perform different operations is minimal. Therefore, there is little chance of accidental injury. In addition, precision machining companies place these machines in enclosed spaces with little dust and smoke. Ultimately, this leads to a better and safer working environment.

4. What are the tolerances of CNC precision machining?

Tight tolerances and repeatability determine the level of accuracy and consistency in the manufacturing process of CNC precision machined parts. If we look into the definition of precision machining tolerances, it represents the acceptable range within which the actual machining dimensions can vary.

In general, these errors are expressed in units such as millimeters (mm) or inches (in). The smaller the error, the higher the accuracy.

5. What is the significance of tolerances in CNC precision machining?

Tolerances directly affect the performance of the final product. Tight tolerances ensure that all assembled parts fit smoothly without any problems. For example, a bearing with too large a tolerance will cause failure during operation. This will lead to premature wear.

Therefore, the tight tolerances of precision CNC machined parts make assembly extremely convenient. At the same time, good tolerances will lead to cost-effective machining.

1) Different types of tolerances

There are generally two types of tolerances:

① Dimensional tolerance

Dimensional tolerance refers to the level of acceptance of variations in dimensional features such as length, width, height, and aperture.

② Geometric tolerance

Compared to geometric tolerance, geometric tolerance is defined as the allowable deviation in the form and position of custom metal parts.

2) 5 factors that affect CNC precision machining tolerances

1. Machining capability

2. Tool wear

3. Material properties

4. Fixtures

5. Workholding

6. Types of CNC precision machine tools

There are different types of precision CNC machine tools that can be used to manufacture precision parts. Understanding the characteristics of each type is essential for project success.

1) CNC milling machines

CNC milling machines can effectively manufacture high-quality parts with rich details and a smooth finish. CNC milling machines use rotating tools (cutters) to process materials and provide instructions for processing materials based on CAD files.

2) CNC lathes

Modern CNC lathes use flat knives, etc., so the space allocated to the processing area can be increased. Therefore, CNC lathes are now the first choice when it comes to CNC precision machining. CNC lathes are capable of manufacturing precision metal parts.

3) Swiss Lathes

Swiss-type lathes offer a cost-effective way to produce small, complex, and high-precision CNC machined parts. One thing to remember is that manual programming on the controller is not efficient. Thanks to the intuitive channel synchronization manager, programming setup, milling, and turning operations on the main and back spindles and synchronizing them becomes simple and effective.

7. Applications of CNC Precision Machining

After incorporating modern high-precision CNC machining technology, the range of applications for machined parts has been greatly expanded. Below, we will outline some of the major industries that use precision machined parts.

1) Aerospace Industry

The aerospace industry is one of the biggest beneficiaries of high-precision machined parts. For many years, the aerospace industry has been receiving complex engine parts from machining companies. Some of the prominent parts used in these industries include landing gear, fuselage sections, turbine blades, and combustion chambers.

2) Automotive Industry

The automotive industry often uses precision parts to manufacture metal cylinder blocks, gears, pins, valves, shafts and other parts, as well as dashboard and indicator components made of plastic.

Precision CNC machines are also used to produce prototype automotive parts and spare parts. The reason for this is shorter delivery times and more freedom in part manufacturing.

3) Electronics

CNC machining is very popular in prototyping and manufacturing systems as well as consumer electronics. In electronics, CNC precision machines are used to manufacture printed circuit boards and solder components.

4) Defense

The military industry is another major industry that uses high-precision parts in weapon systems. Prototype CNC machining plays a key role in manufacturing durable, reliable and long-lasting parts. The ability of precision CNC machines to produce prototype parts and efficient components on demand is particularly useful.

5) Pharmaceuticals

Precision metal parts are used in diagnostic machines and metal tools in almost every healthcare sector due to the high practicality and safety of precision CNC machines in processing medical component materials. For example, surgical instruments, orthopedics, implants and medical devices.

8. CNC Precision Machining Materials

A successful CNC machining project depends largely on process and material selection. Therefore, choosing the right material for precision machined parts is essential to achieve the desired results. This can not only save a lot of costs but also improve product performance.

Below, we have given a comprehensive table of recommended materials:

If you are looking for an experienced CNC machining manufacturer, Xavier is your ideal choice. The Xavier team is well-equipped to provide high-quality CNC machining solutions. If you need more information or to discuss your machining needs with us, please feel free to contact us.