Precision Surface Finishes: The Jlypt Advantage in CNC Machining

Surface Finish Technology Spectrum

Jlypt’s surface engineering department operates with 14 proprietary finishing protocols, achieving surface roughness from Ra 50μm to 0.02μm across all material groups:

 Microscopic comparison of Jlypt’s surface finish levels from rough to mirror polish

Technical Specification Matrix

Finish GradeStandard MethodJlypt EnhancementMeasurement EquipmentTypical ApplicationsCoarse (Ra 6.3-12.5μm)Conventional millingDynamic toolpath optimizationMitutoyo SJ-410Agricultural partsFine (Ra 1.6-3.2μm)High-speed machiningChip flow controlZeGage PlusAutomotive componentsPrecision (Ra 0.4-0.8μm)Diamond turningThermal stabilizationAlicona InfiniteFocusMedical instrumentsUltra-Precision (Ra <0.1μm)Elastic emission machiningSub-nano vibration controlZygo NewView 9000Optical components

Industry-Specific Case Analyses

Aerospace Turbine Blades

Material: Inconel 718 Surface Requirement: Ra 0.2μm with directional grain Jlypt Process:

1. Adaptive 5-axis machining
2. Abrasive flow finishing
3. Non-contact profilometry

Quality Metrics: ✓ 100% airflow conformity ✓ 30% fatigue life improvement

Semiconductor Wafer Chucks

Material: 6061-T6 aluminum Surface Requirement: Ra 0.05μm isotropic Jlypt Solution:

1. Cryogenic machining
2. Magnetorheological finishing
3. White light interferometry

Performance Results: ✓ <0.5μm flatness ✓ 99.9% particle-free

Marine Propeller Shafts

Material: Duplex stainless steel Surface Requirement: Ra 0.8μm with 15% Cr enrichment Jlypt Technique:

1. Trochoidal milling
2. Electrochemical polishing
3. EDS composition analysis

Certification Achievements: ✓ DNV-GL compliant ✓ 10x corrosion resistance

Custom Surface Solution Inquiry

Why Choose Jlypt Surface Finishes?

• Material-Specific Finishing Protocols
• Nanometer-Level Process Control
• Cross-Industry Expertise

Technical Contact: [email protected] | https://www.jlypt.com