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Methods for Achieving Micron - level Surface Roughness (Ra≤0.4μm)

2025-11-08

In the field of High precision CNC machining, achieving micron - level surface roughness (Ra≤0.4μm) for Custom precision parts is crucial for enhancing the performance and reliability of parts. As a professional High precision CNC machining supplier, JSJM integrates advanced technologies, precision equipment, and strict processes to provide high - precision solutions for industries such as automotive, medical, and aerospace. The following analysis is carried out from three aspects: technical routes, process optimization, and quality control.

I. Core Technical Routes: Systematic Breakthroughs from Equipment to Process

1. Selection and Application of High - Precision CNC Machine Tools

The basis for achieving Ra≤0.4μm lies in equipment accuracy. JSJM adopts imported five - axis 联动 CNC machining centers. The spindle system is equipped with high - precision ceramic bearings, which can withstand speeds above 20,000 rpm. A constant - temperature oil - cooling system is used to control thermal deformation, ensuring that the radial run - out error of the spindle during processing is ≤0.001 mm. For example, when processing stainless steel parts, the dynamic response ability of the machine tool can avoid surface ripples caused by sudden changes in cutting force. Combined with the high - speed feed system of the automotive cnc machine, micron - level cutting depth control can be achieved.

2. Matching of Precision Tools and Materials
The choice of tools directly affects the surface quality. JSJM customizes tools for different materials:
Carbide Tools: Used in cnc turning services for steel part processing. The cutting edges are treated with nano - coatings (such as TiAlN) to reduce the friction coefficient and minimize the formation of built - up edges.

Diamond Tools: In metal rapid prototyping, used for mirror turning of aluminum - matrix composites. With a cutting allowance of 0.005 mm, a mirror effect with Ra≤0.2μm can be achieved.

3. Multi - process Collaborative Machining

A single process is difficult to meet the roughness requirements of complex parts. JSJM adopts a four - stage process of "rough machining - semi - finishing - finishing - ultra - finishing":

Rough Machining: High feed rates are used to quickly remove the stock, leaving a machining allowance of 0.3 - 0.5 mm.

Semi - finishing: Through the constant - line - speed control of auto cnc machining, the surface roughness is stabilized at Ra1.6 - 3.2μm.

Finishing: Precision grinding or electrolytic polishing commonly used in the cnc machining for medical field is adopted to reduce the roughness to Ra0.4 - 0.8μm.

Ultra - finishing: For high - end requirements such as medical implants, ion - beam polishing technology is introduced to finally achieve Ra≤0.1μm. For some parts with many curved surfaces and some parts with high material hardness, it is difficult to achieve a mirror effect only by machining. Post - processing polishing is often required. Polishing methods include:

Electrolytic Polishing: Utilizing the principle of electrochemistry, the micro - convex parts on the surface of the part are dissolved to reduce the roughness. It is especially suitable for stainless steel parts and can reduce the surface roughness to Ra≤0.2μm.

Magnetic Abrasive Finishing: The magnetic abrasive materials grind the surface of the part under the action of a magnetic field, which can effectively process complex curved surfaces and improve surface finish.

Tumbling Polishing: The parts and abrasives are mutually rubbed in the tumbling machine to polish the surface of the parts. It is suitable for parts with a small batch size and not too complex shapes.

Manual Polishing: Relying on the experience and skills of craftsmen, the local parts are finely processed to meet special surface quality requirements.

II. Process Parameter Optimization: Precise Control from Theory to Practice
1. Dynamic Optimization of Cutting Parameters
In High precision CNC machining, the combination of cutting speed, feed rate, and cutting depth directly affects the surface quality. JSJM establishes a parameter database through finite - element simulation and comparison with actual processing data:
Steel Part Processing: The cutting speed is controlled at 80 - 120 m/min, the feed rate is 0.05 - 0.1 mm/r, and the cutting depth is 0.1 - 0.3 mm, which can avoid material softening and surface burning caused by overheating.
Aluminum Part Processing: High - speed cutting (300 - 500 m/min) is adopted, combined with minimum quantity lubrication (MQL) technology to reduce tool wear and burr formation.

2. Innovative Application of Cooling and Lubrication Systems
Insufficient cooling will lead to increased tool wear and workpiece deformation. JSJM takes the lead in introducing the "gas - liquid two - phase flow cooling" technology in machining parts manufacturers:
Gas Cooling: High - pressure nitrogen (pressure ≥ 6 bar) is used to quickly remove cutting heat and reduce the surface temperature of the workpiece.
Liquid Lubrication: Degradable vegetable - oil - based cutting fluid is used to form a lubricating film between the tool and the workpiece, reducing friction resistance.
This technology increases the processing efficiency of mechanical turned parts for the medical sector by 30%, and the surface roughness fluctuation range is reduced to ±0.05μm.

3. On - line Detection and Error Compensation
To ensure the consistency of Custom precision parts, JSJM integrates in - machine measurement technology during the processing:
Laser Displacement Sensor: Real - time monitoring of the workpiece surface profile with an accuracy of ±0.002 mm.
Thermal Deformation Compensation Algorithm: Environmental data is collected through temperature sensors, and the machine tool coordinates are dynamically adjusted to eliminate the influence of thermal errors.
For example, when processing titanium alloy parts for aerospace, this technology can control the dimensional error within ±0.005 mm, and the surface roughness fluctuation is ≤0.03μm.

III. Quality Control System: Full - process Assurance from Source to End
1. Dual Verification of Materials and Equipment
JSJM strictly implements the ISO 9001 and IATF 16949 quality management systems:
Material Certification: All raw materials (such as medical - grade 316L stainless steel and aerospace - grade titanium alloy) are accompanied by material certificates and are tested by spectral analysis and metallographic inspection.
Equipment Calibration: The CNC machine tools are calibrated with a laser interferometer every quarter to ensure that the positioning accuracy is ≤0.003 mm/300 mm.

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Guangdong Jingshijingmo Technology Co.,Ltd, Founded in 2015 years, which located in DongGuan city, GuangDong. Our main product is plastic molds and plastic products. Our subsidiary manufactures electronic connectors and hardware products.