what is 5 axis machining: Machine Tool Type, Price, Application, Comparison

In the manufacturing industry, 5 axis machining technology is a field of great concern. This technology uses 5 axes to control the motion of the cutting tool, which can create complex geometric shapes and allow for more complex and precise machining of parts, including complex curved surfaces, concave and convex structures, oblique holes and inclined holes. This machining technology can complete the machining of multiple surfaces on a single workbench, reduce the number of workpiece relocation and clamping, improve the machining efficiency and accuracy.

So, what is 5 axis machining? What are its features and advantages? This blog of Longsheng technology will start from the basic knowledge of 5 axis machining to explain what is 5 axis machining and how the process works, its main application areas, machining material selection, machine tool types, and how to choose 5 axis machining services for your project, where you can learn all the knowledge of 5 axis machining

Basic knowledge of 5 axis machining

5 axis machining is a complex machining technology, it can complete the machining of multiple surfaces and complex shapes in the case of a single clamping. Below we understand the basic knowledge of 5 axis machining from several aspects

History and development of 5 axis machining

The history and development of 5 axis machining can be traced back to the early stage of machining. With the continuous progress of science and technology, 5 axis machining technology is also constantly evolving and developing

The following are the major historical and developmental milestones of 5 axis machining:

Early 20th century

Machining tools used in the production of automobiles and other mechanical parts are mainly manual machine tools pushed by manpower. These machines use rotary cutting tools, such as milling cutters, drills, and turning tools, to move along the axis of an object in order to trim the material to create the desired shape. However, due to the limitation of machine power and tool accuracy, it is becoming more and more urgent to develop higher level machining methods.

1950s-1960s

In 1952, Americans invented CNC machine tools. By connecting the electronic computer with the machine tool system, the CNC machine tool can control the machining process with high precision. And the program operation, no longer need to manually operate the whole process, greatly improve the efficiency. The appearance of CNC machine tool laid the foundation of 5 axis machining. CNC machine tools of this period were mainly based on three-axis machining (X, Y, Z axis), which was used for plane and simple surface machining.

1970s-1980s

Into the 1970s, 5 axis machining began to become an emerging machining method. 5 axis machine tools can move the tool in three directions (x, y, z axes), allowing for cutting in more dimensions by rotating the machining material simultaneously. This means that 5 axis machine tools are able to get closer to the curved part of an object’s surface, creating complex shapes and surfaces more easily than traditional machine tools.

1990 s -2000 s

5 axis machining technology gradually mature and widely used. Machine tool manufacturers began to provide specialized 5 axis machining centers, making 5 axis machining more convenient and efficient.

Recent development

With the progress of advanced manufacturing technology, 5 axis machining has been further developed and applied. The introduction of new control systems, sensor technology and tool technology has improved the accuracy, efficiency and stability of 5 axis machining.

Improvements in tool technology

With the increasing demand for 5 axis machining, tool technology has also improved. The new ball milling cutter and special shape cutter can better adapt to the cutting requirements of complex curved surface and concave-convex structure.

Application of collision detection and simulation technology

In order to avoid collision and optimize machining path, collision detection and simulation technology is widely used. These technologies can simulate and verify tool paths prior to machining, identifying potential collision problems in advance.

The extension of application field

The application field of 5 axis machining technology is also expanding. In addition to the aerospace field, automobile, mold manufacturing, medical equipment and other industries have begun to widely adopt 5 axis machining to meet the machining needs of complex parts.

What is 5 axis machining technology?

5 axis machining is an advanced CNC machining technology, also known as 5 axis CNC machining or 5 axis milling. This technique allows the movement of the tool to be controlled simultaneously in multiple directions, making it possible to process extremely complex shapes. In contrast to traditional three-axis machining (X, Y, and Z), 5 axis machining allows the tool to cut at multiple angles and directions by adding two axes of rotation (usually A and C). Therefore, 5 axis machining technology has higher accuracy, less machining times and less residual materials. The technique can be used on a variety of materials, including metals, plastics and composites.

In 5 axis machining, each axis represents a different direction of motion and axis of rotation. The following is the representation of each axis and its role in 5 axis machining:

Axes	Direction	Angle
X	Horizontal movement direction	90°
Y	Vertical movement direction
B	Axis of rotation (Rotary machining in vertical plane)	90° — +90°
Z	Longitudinal movement direction
A	Tilt or rotate axis (Rotary machining in horizontal plane)	-120 ° — +120 °

How does 5 axis CNC work?

The 5 axis CNC machine tool is slightly different from the traditional CNC machine tool in structure. It has not only X, Y and Z moving arms, but also two axes of rotation: axis A and axis B. The rotation of axis A and axis B enables the 5 axis CNC machine to perform more complex machining operations

The 5-axis machining process begins with the creation of 3D CADl models of the required parts. First, according to the requirements of customers on the workpiece, CAD (computer aided design) software is used for 3D model design. Determine the machining path, technology and cutting conditions, and then according to the designed 3D model, use CAM (computer aided manufacturing) software to write the 5 axis machining program. The programming process needs to consider the tool path, cutting strategy, tool size, etc. After setting the machining parameters, start the 5 axis machining machine, and the CNC system controls the movement of each axis according to the programming instructions. The tool implements the machining of the workpiece according to the predetermined path and Angle. In the process of machining, the cutting force, temperature, chip etc. are monitored and controlled by sensors and measuring devices to ensure the quality and safety of machining . When machining is complete, the workpiece is inspected and measured to ensure that the size and geometry requirements are met. This is the whole process of producing 5 axis machined percision parts

5 axis machining through multi-axis linkage motion, so that the tool can cut in multiple angles and directions, so as to realize the machining of complex geometric shapes

Why use CNC for 5 axis machining?

CNC 5 axis machining can provide manufacturers with more accurate finished products in the process of material machining . Compared with traditional methods of hand manufacturing, in 5 axis machining, the workpiece is cut and carved in multiple directions, resulting in a more complex and detailed product. Multiple machining steps are completed on one machine, saving the time and cost of switching and transporting parts. This can significantly improve production efficiency while reducing production costs because the system does not require as much manual intervention, thus reducing machining time and material waste.

CNC 5 axis machining and traditional machining process is different, CNC machining can save time and labor cost through automatic control of the production process. This programmable nature allows for accurate prediction of cutting routes and operational arrangements, resulting in significantly shorter production cycles and improved production efficiency.

5 axis machining is not only suitable for high-precision and difficult parts, but also for machining all kinds of conventional parts. The technology can be used to process a variety of materials, including metals, plastics and composites.

Types of 5 axis CNC machine tools

5 axis CNC machine tool is a very advanced machine tool, the types are also very diverse, these machine tool types can be multi-dimensional machining , so as to achieve the machining of complex parts, 5 axis CNC machine tools are many types, we list three common types here.

Flat (3+2) machine tools

A flat (3+2) machine tool is a 5 axis machine tool with three linear axes and two rotating axes. It can move triaxially in the X, Y, and Z directions and tilt or rotate the tool and workpiece through two axes of rotation (usually the A and C axes). But in the process of machining tool path is fixed, will not change dynamically. As a result, this machine tool is not well suited for highly complex machining because its machining range is geometrically limited.

Three-axis and two-limit machine tool

A three-axis plus two-limit machine tool is a 5 axis machine tool with three linear axes and two rotating axes. This machine tool can move along the X, Y and Z axes, and can rotate on the A and B axes. The main advantage of this machine tool is that it can do more machining . A three-axis plus two-limit machine tool is better suited for highly complex machining than a flat (3+2) machine tool because its machining range is not limited by geometry. The tool path can be dynamically adjusted during machining, making the cutting more flexible and efficient. The machine tool is also easier to use than a full 5 axis machine because the operator only needs to master three axes and two limits of motion.

Full 5 axis machine tool

A full 5 axis machine tool is a machine tool with 5 independent axes of motion. The full 5 axis machine tool can move along the X, Y, and Z axes, and can rotate on the A and B axes, allowing it to achieve more complex machining, such as cutting extremely deep slots and curved surfaces. The main advantages of the full 5 axis machine tool are that it can process more complex objects, has the greatest flexibility and diversity, can achieve arbitrary Angle and direction of cutting, suitable for the machining of complex surface parts, to achieve more machining freedom and higher machining accuracy. However, full 5 axis machine tools are expensive and require highly skilled operators to operate them.

These different types of 5 axis CNC machine tools differ in machining scope, precision requirements, machining efficiency and cost, and can be selected according to the specific machining needs and budget of the appropriate type of machine tools.

5 axis machining price

5 axis machining prices vary depending on material, process, scale and region. Generally speaking, the more complex the project, the longer the machining time, the higher the price. Similarly, different materials, processes, and sizes affect the price. Prices are also higher in some areas than others.

In China, the starting price of 5-axis machining is about 300 yuan, and the highest price can reach hundreds of thousands of yuan. This depends on the complexity and technical difficulty of the project itself, as well as the specific needs of the customer. If you need precision machining, high quality finish, efficient delivery and excellent after-sales service, the price may be higher.

However, when determining the price of 5 axis machining , it is not necessary to select the lowest or highest price. Instead, you need to consider a number of factors, such as a professional technical team, excellent quality of service, reasonable price, etc. This not only ensures the successful completion of the project, but also saves time and financial resources.

Therefore, when choosing a 5-axis machining manufacturer, you need to have a comprehensive understanding of the market and choose a manufacturer with experience, high professional level and good service quality. In addition, you should communicate with them face to face in order to clarify your needs and resolve any potential problems.

Advantages and disadvantages of 5 axis machining

5 axis machining technology can help enterprises to make more precise, complex parts and products. However, there are some drawbacks to this technique. Below we will introduce some advantages and disadvantages of 5 axis machining to help you better understand this advanced machining technology.

advantages of 5 axis machining

5 axis machining has the following advantages:

Complex geometry machining ability

5 axis machining can be cut in multiple angles and directions, and can effectively deal with complex geometric shapes of parts, including surfaces, inclines, curves, etc. It can achieve high precision and high quality machining results.

Improve surface quality

5 axis machining can adopt more suitable cutting Angle and direction, reduce cutting force and vibration, thus improving the quality and roughness of the machined surface. It enables smoother, finer finishes, reducing the need for subsequent manual finishing and polishing.

Improve machining efficiency

5 axis machining can be completed by a single clamping surface machining , reduce the workpiece re clamping and adjustment times, improve the machining efficiency and productivity. At the same time, 5 axis machining can also use more optimized tool path, reduce cutting time and air travel.

High precision

5 axis machining technology can process parts and products of various shapes, so as to achieve high precision manufacturing. Because it can process multiple angles at the same time, so as to reduce the number of parts need to change position, improve the machining accuracy.

Disadvantages of 5 axis machining

Although 5 axis machining has many advantages, it also has some disadvantages:

Long machining time

Although the 5 axis machining technology can complete multiple machining steps on a single machine, the machining time is relatively long due to the need for multiple angles and curves to process. This may affect the productivity of enterprises.

High equipment cost

The equipment cost of 5 axis machining machine tools is relatively high, because it requires more shafts of motion, complex structure and precise control system. As a result, equipment investment can be expensive for small scale or limited budget production enterprises.

Programming complexity

The programming of 5 axis machining is relatively complex, which needs to consider many factors such as tool path, cutting strategy and Angle adjustment. For operators, a high level of technical and programming ability is required to ensure correct machining procedures and parameter Settings.

Difficult to control

5 axis machining technology requires the use of complex machining process, requires operators with high skills and experience. Machining errors may occur if the equipment is not operated and maintained correctly.

What parts can be produced by 5 axis machining?

5 axis machining can complete surface finishing , three-dimensional engraving, grooves and other machining tasks on a machine to produce more complex parts and products. There are many kinds of parts that can be manufactured by 5 axis machining. Here are some common 5 axis machining parts that can be made:

Turbine blade

As an important part of aviation and engine, turbine blade is so difficult to process because of its complex structure and precise size. The traditional machining method is not only time-consuming, but also difficult to meet the high precision requirements.5 axis machining can manufacture turbine blades with high speed and accuracy, which can greatly improve production efficiency.

Helical gear

5 axis machining technology can be used to manufacture spiral gears at any Angle. It can make many things, such as car transmissions, starting flywheels in car engines and so on

Complex parts

5 axis machining technology can produce very complex three-dimensional shape parts, such as pumps, automotive machinery, pneumatic parts, motor rotors, and so on. These parts require high precision manufacturing, and with the help of 5 axis machining, precise sizes and shapes can be made

Composite parts

Because 5 axis machining can easily process parts of any shape, a variety of composite parts can be manufactured, such as composite aircraft parts, automobile bodies, etc. These parts usually need to have high strength, high stiffness, light weight and other characteristics,5 axis machining can meet these needs.

Helical part

Many 5 axis machine tools have the technology to make helical parts, so the manufacturing accuracy is often higher than traditional two – or three-axis machining. 5 axis machine tools can turn the tool at many different angles in order to make spiral parts more complete. Therefore, the quality and reliability of these parts can be guaranteed.

Aircraft engine component

5 axis machining technology can manufacture a variety of complex shape parts, such as cylinder head, crankshaft, etc. And the precision and quality of these parts are higher than traditional manufacturing accuracy

5 axis machining commonly used materials

In the process of 5 axis machining, the machining difficulty and effect of different materials are different. 5 axis machining can be applied to a wide range of materials, including but not limited to the following commonly used materials:

Stainless steel

Stainless steel has good corrosion resistance and high hardness, so it is often used in the manufacture of high demand parts. However, because of its high hardness, machining difficulty is relatively high. In the process of 5 axis machining, it is necessary to adopt appropriate technology to ensure the machining effect.

Copper and brass

Copper and brass are widely used in electronic parts, automobiles and ships because of their electrical and thermal conductivity. 5 axis machining can produce more complex and precise structure, ensure product quality and improve production efficiency

hose

The hose has the characteristics of flexibility, good elasticity, strong wear resistance, etc. The hose is usually used for conveying liquid, gas and semi-solid materials, such as oil drilling, chemical production, medical equipment, food production and other fields are widely used

Teflon

Ptfe has the advantages of corrosion resistance, high temperature resistance, not easy to adhere, etc., usually used to make valves, pump body and other equipment components, chemical pipelines, etc

Aramid fiber

With high strength and wear resistance, it is often used in bulletproof materials, composite materials and protective equipment manufacturing.

polyimide

High temperature resistance and electrical insulation properties, widely used in aerospace and electronic industries.

superalloy

Superalloy has good mechanical properties and can maintain good strength and stability in high temperature environment. Therefore, it is widely used in aviation, petroleum, chemical industry, electric power and other fields. Superalloys can be used to make high-temperature components and parts that are resistant to wear and corrosion.

5 axis machining common problems and solutions

In the process of 5 axis machining , it is inevitable to encounter some problems. The following is a summary of some common problems and solutions in the process of 5 axis machining by Longsheng Technology according to its previous experience, to help you better operate the 5 axis machining .

Lack of precision

Solution: Adjust the parameters of the 5 axis machine tool

Insufficient precision is a common problem in the process of 5 axis machining. You can try to adjust the parameters of the 5 axis machine tool, such as speed, acceleration, deceleration, etc., or adjust according to the material of the workpiece to achieve better machining accuracy.

Overtemperature of machine tool

High machine temperature will directly affect the accuracy and stability of 5 axis machining.

Solution: First, check and clean the cooling system regularly to ensure that the cooling system is in good working condition. Secondly, adding external cooling equipment to the machine tool can effectively reduce the temperature.

The surface roughness of the parts is too large

Excessive surface roughness is also one of the common problems in 5 axis machining. This can reduce the quality of the parts and even lead to machining .

Solution: Proper tools, process parameters and tool wear monitoring can improve surface quality. At the same time, reasonable addition and cleaning of cutting fluid can reduce the appearance of surface defects.

Short tool life

In 5 axis machining, tool wear and life are very important. Short tool life will increase production costs and waste.
Solution: The equipment should be maintained and repaired regularly to ensure the stability and accuracy of the equipment. In addition, choosing the appropriate tool and technological parameters, mastering the correct use and maintenance methods of the tool, can extend the service life of the tool.

Tool break

Fracture tool is a common problem in 5 axis machining, which is usually caused by improper tool materials and cutting parameters. Fracture can be caused by insufficient tool hardness, overuse and tool wear.

Solution:
• Use a tool of appropriate hardness
• Reasonable selection of tool cutting parameters
• Check tools regularly and replace badly worn tools
• Equipped with automatic tool detection system, timely detection and replacement of faulty tools

Program error

Program error is also a common problem in 5 axis machining due to faulty programming or human factors. These errors can result in a damaging impact on the machine tool, damaging the tool and workpiece.

Solution:
• Carefully check that the machining procedure is correct
• Use good CAD/CAM software to minimize human programming errors
• Enhanced training and participation in 5 axis machining technology seminars to improve operator skills

Workpiece clamping is unstable

In the process of 5 axis machining, the workpiece clamping instability will lead to workpiece displacement and the generation of unqualified parts.

Solution: Keep the workpiece in close contact with the positioner. If the part is large or complex, you can use multi-point clamping. In addition, equipment positioners and fixtures should be inspected and maintained frequently.

5 axis and 3+2 axis machining difference

Have you ever heard of “5 axis” or “3+2 axis” machining? Many people do not know the difference between 5-axis machining and 3+2 axis machining, or even the difference between 4-axis machining and 5-axis machining. Longsheng Technology will explain the differences between the two machining methods below to help you understand when to choose which one

In machining , axis refers to the direction of motion. 3-axis machining usually refers to linear motion on the X, Y, and Z axes, while 5-axis and 3+2 axis machining also has rotation axes

The 5-axis machining can be carried out at the same time, which makes the machining more efficient and accurate. 5-axis machining also reduces the number of times the cutting tool has to move, thereby reducing machining time. This machining method is suitable for complex shape workpiece, such as mold and aero-engine parts.

3+2 axis machining is similar to 5 axis machining, but uses only linear motion on the X, Y, and Z axes. Different from 5-axis machining, 3+2 axis machining fixes the Angle of the workpiece in the process of machining, so it can only be fixed Angle machining . This type of machining is suitable for workpieces that need to be worked at a fixed Angle, such as camshafts and mechanical parts.

5-axis machining is more flexible and is suitable for work pieces with complex shapes, while 3+2 axis machining is suitable for work pieces that need to be worked at a fixed Angle. The choice of machining method depends on the shape of the workpiece and machining requirements.

Industrial application of 5 axis machining

The advantage of 5 axis machining is that it can greatly improve the machining efficiency and machining quality, but also reduce the production cost, so 5 axis machining has a wide range of applications in industry, covering many fields. The following are some of the main industrial applications of 5 axis machining:

Aerospace field

In the field of aerospace, 5 axis machining is widely used in the production of aircraft, missiles and satellites. 5 axis machining can be realized on a variety of materials, including high strength titanium alloy, nickel base alloy and stainless steel. 5 axis machining can produce lighter and more robust space structures, thereby improving the performance and efficiency of airborne equipment.

Shipbuilding industry

5 axis machining in the shipbuilding industry can be used to manufacture ship structural parts, propellers, ship mold and so on. The 5 axis machining can realize the high precision machining of Marine parts and the manufacture of complex surface.

Automobile manufacturing

5 axis machining is used in the automobile manufacturing industry to manufacture engine parts, chassis parts, body structure, etc. It can realize the machining of complex surface, improve the precision and quality of parts, and reduce the number of spare parts in the assembly process.

Medical field

5 axis machining in the medical industry can manufacture a variety of high-precision medical instruments, such as artificial joints, implants, dental orthotics, etc. 5 axis machining can improve medical results by precise cutting and machining to produce medical devices that are more suitable for patients’ needs.

Art and sculpture

5 axis machining in the art production and engraving industry can achieve complex three-dimensional engraving and surface details machining , to meet the creative needs of artists and designers.

Comparison of 5 axis machining and other machining techniques

If you want to choose a machining technology, you need to understand the advantages and disadvantages of various machining technologies. 5 axis machining has some significant differences and advantages compared with other machining technologies. The following is a comparison with some common machining technologies:

5 axis VS. four-axis machining

Four-axis machining is an improved version of three-axis machining. In four-axis machining, the axis of rotation is added so that the workpiece can be operated in all four directions. Compared with four-axis machining, 5 axis machining has greater machining freedom and can realize more complex cutting angles and multi-plane cutting.

5 axis VS. three-axis machining

Compared with the traditional three-axis machining based machining technology, it can operate in the three directions of X, Y and Z axes. Three axis machining is suitable for many simple machining processes, such as drilling, chamfering and grooving. However, for the complex shape of the workpiece, three axis machining can not meet the demand. 5 axis machining allows cutting in more angles and directions and can handle more complex geometries and surfaces. It can reduce the number of parts re clamping, improve the machining efficiency and accuracy.

5 axis machining VS.3+2 machining

3+2 machining has some functions of 5 axis machining. Three-and-two machining is a kind of machining by fixing two axes. Currently, the 3+2 machining technology can only be processed on three axes and requires two operations. This will lead to more machining time and cost, and for complex shapes, 3+2 machining is still not able to meet the demand. Compared with 5 axis machining, 5 axis machining technology can complete all machining steps at one time, thus reducing the manufacturing cost and manufacturing time. The cutting range of three-plus two machining is relatively limited, and the surface machining with the same complexity cannot be realized. 5 axis machining can produce more products. This is because 5 axis machining technology can be processed in more directions, so that more products can be produced

Is 5 axis machining right for you?

Now let’s look at how to decide whether to use 5 -axis machining, or other machining techniques. Choosing the best machining technique for you takes into account a number of factors, including:
Shape and structure: If you need to manufacture very complex shape and structure parts, 5 axis machining may be more suitable.
Size: 5 xis machining is suitable for some large, irregular workpieces, but for small workpieces, it may not be the best choice.
Quantity: If you need to produce the same parts in large quantities, simpler machining techniques such as drilling or turning are suitable.
Accuracy: If you need to produce higher precision parts, then 5 axis machining may be the best choice.

5 axis machining technology in the future development

The progress of 5 axis machining technology is derived from advanced machine learning algorithms and high-performance computers. The application of these technologies makes the 5 axis machining technology more intelligent, automatic and efficient. In addition, the application of 5 axis machining technology will also broaden the scope of application in more fields. The 5 axis machining technology can be applied to the machining of super large and complex parts, as well as some difficult machining operations, such as surface machining and inner hole tapping.

With the progress of science and technology and people’s demand for higher quality, 5 axis machining technology will continue to develop rapidly. In the manufacturing industry, 5 axis machining technology will have the opportunity to be applied to more complex and difficult products, such as aircraft later parts, high-speed train bodies, semiconductor chip production. The 5 axis machining technology will help to improve the quality and manufacturing efficiency of these products

5 axis machining started in Longsheng

If you are looking for a high precision machining method, 5 axis machining may be the solution for you. 5 axis machining can not only process complex shapes, but also process high-precision parts. If you need 5 axis machining service, Longsheng technology will be your best choice.

Longsheng has the most advanced 5 axis machining equipment, which can meet the machining requirements of different customers. We have experienced technical team and excellent machining equipment, can provide customers with fast, accurate and high quality 5 axis machining services. Longsheng’s 5 axis machining services have been widely used in aerospace, automotive, medical, electric power, communications and other fields.

Our 5 axis machining equipment can process all kinds of materials, including metal, plastic, wood and so on. No matter what type of material you need to process, Longsheng 5 axis machining services can meet your needs. We can process all kinds of shapes through 5 axis machining, such as bend, tilt, abnormity and so on, so as to produce high-precision parts.

In addition, Longsheng’s 5 axis machining service also has the following advantages:

Wide applicability: 5 axis machining can be applied to a variety of metal and non-metallic materials, including aluminum alloy, titanium alloy, stainless steel, plastic and so on.

High machining efficiency: Longsheng’s machining equipment adopts the most advanced 5 axis machining technology, which can complete the machining of complex parts in the shortest time.

High machining precision: 5 axis machining has the characteristics of high precision, can precisely control the shape and size of parts.

Low machining cost:5 axis machining technology can reduce production cost, reduce parts machining time and reject rate.

If you need 5 axis online CNC machining services, Longsheng will be your best choice. Our 5 axis machining equipment and technical team will help you achieve your project goals by providing you with fast, accurate and high quality machining services. Please contact our customer service team for more details on 5 axis machining services.

conclusion

5 axis machining is a very advanced machining method, which makes it easier to manufacture parts with more complex geometric shapes. One advantage is the ability to cut from different angles and directions. This means that we can use a single tool to accomplish a task without having to change the tool or reinstall the tool. This can not only save time, but also improve production efficiency.

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