Machine plus parts plus refinement requirements

In the processing of machined parts, the requirements for refinement are very strict. For different parts, different special tooling can be used to make the parts less prone to displacement during processing. In addition, before processing, the staff also needs to carry out corresponding preparation work, comprehensively check the fixed parts, check the correctness of the mechanical parts according to the drawings, to reduce the deformation of the clamping.

Parts are prone to deformation problems after heat treatment, which requires measures to ensure the safety of the parts. After the machining of the machined parts is completed and naturally deformed, professional tools are used for finishing. When trimming the machined parts, it is necessary to follow the industry's standard requirements to ensure the quality of the parts and extend their service life. This method is most effective after the part is deformed. If the part is deformed after heat treatment, it can be tempered after quenching. Since residual austenite is present in the part after quenching, these substances are further transformed into martensite at room temperature, and then the object expands. Every detail should be taken seriously when processing parts, so that the probability of deformation of parts can be reduced, the design concept on the drawings can be grasped, and the products produced can meet the standards according to the production requirements, improve economic efficiency and work efficiency, thus ensuring the machine. Add the quality of the part processing.

Machine plus parts processing

In the specific operation process of various equipments, improving the quality of the blank is a guarantee to prevent the deformation of the parts, so that the finished parts meet the specific standard requirements of the parts and provide guarantee for the use of the later parts. Therefore, the operator needs to check the quality of different blanks, and replace the defective blanks in time to avoid unnecessary problems. At the same time, the operator needs to select reliable blanks in accordance with the specific requirements of the equipment to ensure that the quality and safety of the processed parts meet the standard requirements, thereby extending the service life of the parts.

In the machining of machined parts, the safety performance of the parts is affected by many objective factors. Especially after the parts are heat treated, the parts will be deformed due to stress shrinkage. Therefore, in order to prevent the occurrence of deformation, the technician needs to select a suitable heat-limiting type of treatment to change the rigidity of the part. This requires a combination of the performance of the part and the use of suitable heat-limiting treatment measures to ensure safe and reliable. Even after heat treatment, no significant deformation occurs.

When machining parts with poor rigidity, some measures need to be taken to increase the rigidity of the parts, such as the auxiliary support. Also pay attention to the contact area between the point and the part. According to the different parts, choose different clamping methods. For example, when processing thin-walled parts, you can use elastic shaft device for clamping. Note that the tightening position should be Choose a part with a strong rigidity. For long-axis mechanical parts, both ends can be used. For parts with very long diameters, it is necessary to clamp the two ends together. You cannot use the method of “clamping at one end and hanging at one end”. In addition, in the processing of cast iron parts, the design of the fixture needs to be based on the principle of increasing the rigidity of the cantilever portion. A new type of hydraulic clamping tool can also be used to effectively prevent quality problems caused by the clamping deformation of the part during processing.

In the cutting process, it is necessary to closely combine the machining requirements with the angle of cutting to reduce the cutting force. The rake angle and the main declination of the tool can be maximized to make the blade sharp, and a reasonable tool is also crucial for the turning force in turning. For example, in the turning of thin-walled parts, if the front angle is too large, the wedge angle of the tool will be increased, the wear speed will be accelerated, and the deformation and friction will be reduced. The size of the front corner can be selected according to different tools. If a high-speed tool is used, the rake angle is preferably 6° to 30°; if a cemented carbide tool is used, the rake angle is preferably 5° to 20°.

There are many factors that cause the deformation of mechanical parts, and different measures should be taken to solve different reasons. In actual operation, we must pay attention to every detail of machined parts processing, constantly improve the production process, and strive to minimize economic losses, to ensure the stable operation of mechanical equipment, to achieve high-quality, high-efficiency targets for machining parts and parts, thus promoting The machine plus parts processing industry has a better development prospect and a broader market.