Double disc grinding process: the choice to improve processing efficiency and precision

As an efficient processing technology, the double disc grinding process plays an increasingly important role in modern manufacturing. It performs efficient and precise grinding of workpieces through the relative motion of two grinding discs, and is widely used in automobiles, aerospace, mold manufacturing and other fields. This article will explore the role of double disc grinding process in improving processing efficiency and accuracy based on the equipment, principles, advantages, processes, parameter advantages and applications of double disc grinding process.

1.Basic overview of grinding technology and double disc grinding process

(1) The importance of grinding technology

Grinding technology occupies a pivotal position in modern manufacturing, with a wide range of applications covering many fields from metal processing to non-metal processing. With the continuous advancement of industrial technology, the requirements for product precision and surface quality are increasing day by day. As one of the key means to achieve high-precision processing, grinding technology is of self-evident importance. The grinding process can not only significantly improve the dimensional accuracy and surface finish of the workpiece, but also improve the mechanical properties and service life of the workpiece to a certain extent.

(2) Basic concepts of double disc grinding process

As an efficient grinding technology, the core of the double disc grinding process is to use two opposing grinding discs to grind the workpiece simultaneously. This process not only improves processing efficiency, but also enables better control of the processing accuracy and surface quality of the workpiece. Double disc grinding equipment usually includes key components such as two spindles, grinding wheels, workpiece fixtures and control systems. By precisely controlling the rotational speed, feed rate and grinding pressure of the two grinding discs, the double disc grinding process can complete double-sided grinding of the workpiece in one clamping, greatly improving production efficiency and processing accuracy.

2.Double disc grinding equipment and technical characteristics

(1) Composition of key equipment

1) Two spindles:

The core component of the double disc grinder. Each spindle drives a grinding wheel to rotate and is supported by high-precision rolling bearings to ensure stability during high-speed rotation. The two spindles usually rotate in opposite directions, which ensures the stability of the workpiece and machining accuracy during the grinding process.

2) Grinding wheel:

Grinding tools usually consist of abrasives and binders. The grinding wheels used in double disc grinding equipment need to be selected according to the properties of the processed materials and processing requirements. The hardness and grain size of the grinding wheel have a direct impact on the grinding effect.

3) Workpiece fixture:

Used to hold the workpiece firmly to ensure it does not loosen or move during the grinding process. The design of the workpiece fixture needs to take into account the shape and size of the workpiece to ensure adaptability to different workpieces.

4) Control system:

The control system is the brain of the double disc grinding equipment and is responsible for controlling the entire grinding process, including the spindle speed, grinding wheel feed, coolant supply, etc., to ensure the stability and quality of the machining process.

(2) Process principle

The twin-disc grinding process is a precision method of machining workpieces using two relatively rotating grinding discs. The core principle is to use two parallel grinding wheel discs to grind both end faces of the workpiece at the same time. During the machining process, the workpiece is placed on the feeding tray. As the feeding tray rotates, the workpiece passes through the grinding area between two high-speed rotating grinding wheels.

By precisely controlling the rotational speed of the grinding wheel and the feed speed of the feed plate, the workpiece is subjected to uniform grinding force in the grinding zone, thereby achieving high-precision end face machining. This process not only improves production efficiency, but also ensures the parallelism and surface roughness of the workpiece end face, achieving ideal processing results.

(3) Technical advantages

1) High efficiency production:

The dual-disc grinding process can grind multiple parts at once and remove material quickly, with productivity typically 100% higher than traditional surface grinding. This efficient grinding method significantly shortens the production cycle and improves overall production efficiency.

2) High-precision processing:

The double disc grinding process can achieve very high machining accuracy, with dimensional tolerances maintained at close to 0.0001 inches and flatness maintained within 50 micro-inches. This accuracy reduces subsequent processing and inspection steps, lowering production costs.

3) Excellent surface finish:

By using polishing discs, the twin-disc grinding process is able to achieve surface finishes up to 5rms. Excellent surface finish not only improves the appearance quality of parts, but also enhances the performance of parts.

4) Material adaptability:

The double disc grinding process is not only suitable for traditional materials, but can also effectively process non-traditional materials such as ceramics, glass, and plastics. This broad adaptability makes it widely used in multiple industries.

5) Cost savings

Double disc grinding can also reduce the number and floor space of machine tools, improve equipment utilization and reduce investment costs. According to actual application cases, double disc grinding process can reduce batch grinding processing costs by more than 50%, and has good economic benefits.

3.Process flow of double disc grinding process

The double disc grinding process is a high-precision, high-efficiency processing method that is widely used in the precision processing of metals, plastics, ceramics and other materials. Its process flow mainly includes the following steps:

(1) Workpiece preparation and clamping

1) First, select the appropriate workpiece material according to the processing requirements, and perform preliminary cutting or forming processing to ensure that the size and shape of the workpiece meet the requirements of subsequent grinding.

2) Then, install the workpiece on the workbench of the double-disc grinder, and use a special clamp to clamp it firmly to ensure that the workpiece will not loosen or shift during the grinding process.

(2) Grinding parameter settings

1) According to the material, hardness, thickness and processing accuracy requirements of the workpiece, reasonably set the grinding parameters, including grinding disc speed, feed speed, grinding depth, etc.

2) For different materials and processing requirements, different types of grinding discs and abrasives may need to be selected to ensure grinding effects and processing quality.

(3) Rough grinding

1) Start the double disc grinder, make the upper and lower grinding discs rotate in opposite directions, and slowly feed the workpiece into the grinding area.

2) In the rough grinding stage, the main purpose is to quickly remove excess material on the surface of the workpiece and improve processing efficiency.

3) Operators should pay close attention to the cutting force and workpiece temperature during the grinding process, and adjust grinding parameters in a timely manner to prevent workpiece deformation or overheating.

(4) Precision grinding

1) On the basis of rough grinding, further reduce the grinding depth and feed speed to perform fine grinding.

2) The main goal of the fine grinding stage is to improve the surface quality and dimensional accuracy of the workpiece so that it can meet the required processing requirements.

3) Operators should monitor the grinding process more carefully to ensure the stability and consistency of grinding parameters.

(5) Cooling and lubrication

1) During the entire grinding process, continue to supply sufficient coolant to lower the temperature of the grinding area and reduce thermal deformation and surface burns of the workpiece.

2) The coolant can also lubricate, reduce the friction between the grinding disc and the workpiece, and extend the service life of the grinding disc.

(6) Inspection

1) After completing the grinding, conduct a comprehensive inspection of the workpiece, including dimensional accuracy, surface roughness, shape error, etc. Use high-precision measuring instruments for testing, such as three-dimensional coordinate measuring machines, surface roughness meters, etc.

2) For unqualified workpieces, it is necessary to analyze, find out the reasons and make adjustments and reprocessing.

(7) Unloading and post-processing

Unload the qualified workpiece from the fixture and perform necessary post-processing, such as deburring, cleaning and anti-rust treatment. Ensure that the appearance and performance of the workpiece meet requirements.

4.Operating parameters and optimization of double disc grinding process

Double disc grinding is an efficient metal processing method. Through in-depth analysis and optimization of the grinding force, temperature and parameters of the double disc grinding process, the processing quality and efficiency can be significantly improved.

(1) Grinding force analysis:

In the double disc grinding process, the grinding force mainly comes from the friction and cutting action between the grinding wheel and the workpiece. The size of the grinding force directly affects the surface quality and processing accuracy of the workpiece. Excessive grinding force will increase the surface roughness of the workpiece and even cause deformation and vibration of the workpiece. Through reasonable selection of grinding wheel hardness, grain size and grinding depth, the grinding force can be effectively controlled. For example, softer grinding wheels and smaller grinding depths help reduce grinding forces and improve machined surface quality.

(2) Grinding temperature control:

The heat generated during the grinding process will cause the surface temperature of the workpiece to increase, which may cause problems such as thermal damage, surface oxidation, and burns. In order to control the grinding temperature, the following measures can be taken: first, select the appropriate coolant and ensure its adequate supply to effectively take away the heat in the grinding area; second, optimize the grinding speed and worktable feed speed to avoid Excessive speed causes the temperature to rise sharply; third, use intermittent grinding or segmented grinding to reduce heat accumulation.

(3) Grinding parameter optimization:

Grinding parameters mainly include grinding wheel speed, worktable speed and grinding depth. Reasonable selection of these parameters can significantly improve processing efficiency and quality. Generally speaking, higher grinding wheel speed helps improve grinding efficiency, but it also increases grinding force and temperature. Therefore, comprehensive optimization needs to be carried out based on specific processing materials and workpiece requirements. For example, for materials with higher hardness, you can choose a lower grinding wheel speed and a larger grinding depth to ensure machining accuracy and surface quality.

5.Application fields of double disc grinding process

The double disc grinding process occupies an important position in modern manufacturing due to its high efficiency and high precision. This process can achieve simultaneous processing of the upper and lower surfaces of the workpiece through the synchronous grinding motion of the upper and lower grinding discs, and is widely used in many fields.

(1) Machinery manufacturing industry

In the machinery manufacturing industry, the double disc grinding process is widely used to process various high-precision mechanical components. For example, the processing of key components such as engine parts, bearings, and gears is inseparable from double disc grinding process.

(2) Automobile industry

With the continuous development of the automobile industry, the requirements for the processing accuracy of parts are becoming higher and higher. The double disc grinding process plays an important role in the processing of key components such as automobile engine blocks, cylinder heads, crankshafts, and connecting rods.

(3) Aerospace field

The double-disc grinding process can handle difficult-to-machine materials such as high-temperature alloys and titanium alloys, and is suitable for manufacturing key components such as aircraft engine blades and landing gears. Its high-precision processing capabilities ensure the safety and stability of aerospace vehicles.

(4) Electronics and semiconductor industry

In the electronics and semiconductor industry, the double disc grinding process is mainly used to process hard and brittle materials such as silicon wafers and ceramics. These materials are important components in the manufacture of integrated circuits and semiconductor devices. Through double disc grinding process, high-precision and high-efficiency processing of these materials can be achieved to meet the miniaturization and high-performance requirements of electronic products.

(5) Mold manufacturing industry

The mold manufacturing industry has extremely high requirements for the accuracy and smoothness of the mold surface. The double disc grinding process can effectively improve the quality of the mold surface and extend the service life of the mold. It is also suitable for processing various complex mold shapes to meet production needs.

(6) Medical device industry

The double disc grinding process can process medical materials such as stainless steel and titanium alloys, and is suitable for manufacturing precision medical devices such as artificial joints and dental implants. Its high-precision processing capabilities ensure the safety and effectiveness of medical devices.

6.Summary

This article analyzes in detail the process principles, equipment composition, technical characteristics, process flow and applications of the double disc grinding process in multiple fields. Through comprehensive analysis and examples, the significant advantages of the double disc grinding process in improving processing efficiency and quality are verified. For example, in many fields, the double disc grinding process exhibits high efficiency and high precision. In addition, by controlling the grinding force, grinding temperature and optimizing the grinding parameters, the wear of the grinding tool and the surface damage of the workpiece can be effectively reduced, and the processing stability can be improved.