Shenzhen Honscn is a professional manufacturer of CNC Machine Parts, Auto Lathe Machine Parts, and Screw Fasteners. We offer OEM and ODM service with any related products for customers. We have a professional team of product design and engineers, as well as a professional QC team, our sales and documentation and logistics departments can finish the requirements of presentation of documents under various payment methods and different transportation modes.

Usually, we can provide 3D drawings/drawings, quantities, required manufacturing processes, and materials based on the customer's requirements. Our engineers will carefully review and read them, and provide quotes for them. If customers require it, we will also provide samples according to their requirements.

If confirmed the quotation okay, the customer needs us to provide the Mill Test Crtificate of this product conforming to EU standards, such as CE, RoHS, REACH before placing order. All of our products are in accordance with all the European certification, such as CE, RoHS, REACH, etc., and all of them have prepared standard documents for customers checking.

After the customer confirms the order, they propose to make it according to their sample. We will make it based on the samples he sent us.

We start to prepare the order materials when customer confirm all the details such as material, size, tolerance, surface finish and other details of the final sample.

After the package such as qty, label, shipping mark etc. are provided by customer, we starts to arrange the mass production. After all the goods finished, send pictures to customer for approval. We promise the packag is same as customer requested, mass products are exactly the same as the final samples. The following photos of the shipment, the passing rate of the third-party inspection of our company is 100%.

After the customer receives the sample, they will apply our product to the machine equipment for accessory assembly. Ensuring smooth assembly of the machine. We always pay much attention to the quality of our products, which is recognized by customers and repurchased constantly.

In recent years, the global aerospace industry has made remarkable achievements, which cannot be separated from the important support of CNCM machining technology. As an efficient and high-precision machining method, CNCM technology is increasingly widely used in the aerospace field, which provides a strong guarantee for the performance improvement of aerospace equipment.

According to international market research institutions, the global aerospace market size will maintain steady growth in the next decade and is expected to reach about $200 billion by 2028. In China, the size of the aerospace market is also continuing to expand and is expected to reach about 250 billion yuan by 2026. In this context, the application of CNCM machining technology in the aerospace industry is particularly important.

It is understood that CNC machining technology in the aerospace field can produce accurate, precise, complex parts, such as aircraft engines, turbine blades, aircraft structural parts, etc. These components need to have high accuracy and stability to ensure the safety and performance of aerospace spacecraft. According to relevant data, the global aerospace parts market is expected to reach about $12 billion by 2026.

In addition, the high efficiency of CNC machining technology in the aerospace field has also been widely used. In the assembly process of large aerospace spacecraft such as aircraft and rockets, CNC machining technology can achieve rapid and mass production and improve production efficiency. According to statistics, the global aerospace assembly market size is expected to reach about $60 billion by 2026.

In terms of materials, the compatibility of CNC machining technology in the aerospace field has been fully reflected. With the increasing application of new materials in the aerospace field, such as carbon fiber composite materials, titanium alloys, etc., CNC machining technology can realize the efficient processing of these materials to ensure the performance and quality of parts. According to statistics, the global aerospace materials market size is expected to reach about $35 billion by 2026.

It is worth mentioning that CNC machining technology also supports the manufacture of customized parts in the aerospace sector. This is of great significance for the manufacture of aerospace spacecraft in special scenarios. According to statistics, the global aerospace custom parts market size is expected to reach about $2.5 billion by 2026.

In summary, the application of CNCM machining technology in the aerospace industry provides a strong guarantee for the performance improvement of aerospace equipment. In the context of the rapid development of China's aerospace industry, the importance of CNC machining technology is self-evident. With the continuous expansion of the aerospace market, the application prospect of CNC machining technology in the aerospace industry will be broader. We have reason to believe that CNC machining technology will continue to help the prosperity of aerospace industry.

With the continuous development of technology, consumers have different personalized needs, customization requirements continue to improve, consumers need to customize professional spare parts according to their own needs and preferences, if this can be achieved, will greatly increase the customer's goodwill, enterprises can also continue to increase their own visibility. Therefore, CNC custom machining services also play an important role in manufacturing.

The application of CNC custom machining services in the field of automotive automation has also achieved remarkable results. Take our company as an example, we provide one-stop customized CNC production services, with advanced equipment and technical team, has provided high-quality parts processing services for many well-known automobile manufacturers, and won the favor of partners.

In short, the application of CNC custom machining services in the field of automotive automation is gradually changing the pattern of traditional manufacturing. For custom CNC production services, please choose us and we will provide you with the best quality service and the most competitive price. Let us jointly promote the innovation and development of the automobile manufacturing industry!

In the field of machining, after CNC machining process methods and division of processes, the main content of the process route is to rationally arrange these processing methods and processing sequence. In general, CNC machining of mechanical parts includes cutting, heat treatment and auxiliary processes such as surface treatment, cleaning and inspection. The sequence of these processes directly affects the quality, production efficiency and cost of the parts. Therefore, when designing CNC machining routes, the order of cutting, heat treatment and auxiliary processes should be reasonably arranged, and the connection problem between them should be solved.

In addition to the basic steps mentioned above, factors such as material selection, fixture design and equipment selection need to be considered when developing a CNC machining route. Material selection is directly related to the final performance of parts, different materials have different requirements for cutting parameters; The fixture design will affect the stability and accuracy of the parts in the process of processing; Equipment selection needs to determine the type of machine tool suitable for its production needs according to the characteristics of the product.

1, the processing method of precision machinery parts should be determined according to the characteristics of the surface. On the basis of familiar with the characteristics of various processing methods, mastering the processing economy and surface roughness, the method that can ensure the processing quality, production efficiency and economy is selected.

2, select the appropriate drawing positioning reference, according to the principle of crude and fine reference selection to reasonably determine the positioning reference of each process.

3, When developing the machining process route of the parts, it is necessary to divide the rough, semi-fine and finishing stages of the parts on the basis of the analysis of the parts, and determine the degree of concentration and dispersion of the process, and reasonably arrange the processing sequence of the surfaces. For complex parts, several schemes can be considered first, and the most reasonable processing scheme can be selected after comparison and analysis.

4, determine the processing allowance and process size and tolerance of each process.

5, select machine tools and workers, clips, quantities, cutting tools. The selection of mechanical equipment should not only ensure the quality of processing, but also be economical and reasonable. Under the conditions of mass production, general machine tools and special jigs should generally be used.

6, Determine the technical requirements and inspection methods of each major process.Determining the cutting amount and time quota of each process is usually decided by the operator for a single small batch production plant. It is generally not specified in the machining process card. However, in the medium batch and mass production plants, in order to ensure the rationality of production and the balance of rhythm, it is required that the cutting amount must be specified, and must not be changed at will.

First rough and then fine

The processing accuracy is gradually improved according to the order of rough turning - semi-fine turning - fine turning. The rough lathe can remove most of the machining allowance of the workpiece surface in a short time, thereby increasing the metal removal rate and meeting the requirement of the uniformity of the allowance. If the residual amount left after the rough turning does not meet the finishing requirements, it is necessary to arrange a semi-finishing car for finishing. The fine car needs to ensure that the outline of the part is cut according to the drawing size to ensure the processing accuracy.

Approach first and then far

Under normal circumstances, the parts close to the tool should be processed first, and then the parts far away from the tool to the tool should be processed to shorten the moving distance of the tool and reduce the empty travel time. In the process of turning, it is beneficial to maintain the stiffness of the blank or semi-finished product and improve its cutting conditions.

The principle of internal and external intersection

For parts that have both an inner surface (inner cavity) and an outer surface to be processed, when arranging the processing sequence, the inner and outer surfaces should be roughed first, and then the inner and outer surfaces should be finished. Must not be part of the surface of the part (outer surface or inner surface) after processing, then processing other surfaces (inner surface or outer surface).

Base first principle

Priority should be given to the surface used as the finishing reference. This is because the more accurate the surface of the positioning reference, the smaller the clamping error. For example, when machining shaft parts, the center hole is usually machined first, and then the outer surface and end face are machined with the center hole as the precision basis.

The principle of the first and the second

The main working surface and assembly base surface of the parts should be processed first, so as to find out the modern defects on the main surface in the blank early. The secondary surface can be interspersed, placed on the main machined surface to a certain extent, before the final finishing.

The principle of the face before the hole

The plane outline size of the box and bracket parts is large, and the plane is generally processed first, and then the hole and other sizes are processed. This arrangement of processing sequence, on the one hand with the processed plane positioning, stable and reliable; On the other hand, it is easy to process the hole on the machined plane, and can improve the processing accuracy of the hole, especially when drilling, the axis of the hole is not easy to deviate.

When developing the machining process of parts, it is necessary to select the appropriate processing method, machine tool equipment, clamp measuring tools, blank and technical requirements for workers according to the production type of parts.