Shanghai Liangui Technology Co., Ltd.
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Keywords: Ultrasonic Assisted Machining, Ultrasonic Vibration Cutting, Hard Material Machining, Precision Machining, Tool Life Extension, Surface Quality Improvement
Unlock Unprecedented Capabilities in Precision Machining
Sunshine Ultrasonic Vibration Machining Systems represent a groundbreaking leap forward in the processing of hard, brittle, and difficult-to-machine materials. By integrating high-frequency ultrasonic vibration directly into the cutting tool, our systems fundamentally transform the machining process, delivering superior results unattainable with conventional methods. Experience the future of precision manufacturing.
Core Technology: How Ultrasonic Assisted Machining Works
Our systems drive the cutting tool to perform high-frequency vibrations at 20,000 to 50,000 cycles per second (20-50 kHz). This rapid oscillation imparts incredible accelerations (up to 100,000 g) to the tool tip. Crucially, when the tool contacts the workpiece, it processes the material through high-frequency micro-impact cutting, operating in an intermittent separation mode.
Reduced Effective Cutting Time: The tool is completely separated from the workpiece for over 70% of each vibration cycle.
Dramatically Reduced Friction & Heat: This separation drastically lowers friction, significantly reducing heat generation at the cutting zone.
Lower Cutting Forces: Cutting resistance is substantially minimized.
Optimized Cutting Performance: The unique cutting mechanics allow the tool's performance to be fully realized, enhancing efficiency and quality.
Key Product Features & Advantages
Dual-Mode Capability: Seamlessly switch between Ultrasonic Vibration Machining and Ordinary Cutting Processing on a single platform.
Unmatched Efficiency & Quality:
Improves Processing Efficiency: Faster material removal rates on hard materials.
Extends Tool Life Significantly: Reduced friction and heat drastically decrease tool wear.
Improves Workpiece Surface Quality: Achieves exceptional surface finishes with minimal subsurface damage.
Reduces Cutting Force: Lower energy consumption and reduced stress on machine components.
Reduces Cutting Temperature: Protects workpiece integrity and minimizes thermal distortion.
Reduces Surface & Sub-Surface Damage: Produces parts with superior structural integrity.
Reduces Surface Residual Stress: Minimizes post-machining distortion and improves part stability.
Precision Engineering: High Position Accuracy (0.003-0.004mm) ensures micron-level precision.
Adjustable Vibration: Fine-tune Vibration Amplitude (1-15μm) for optimal results across different materials and operations.
Stable High-Speed Operation: Preset dynamic balance (G1.5) enables smooth running up to 30,000 RPM.
Robust Power: Output Power (5-500W) provides ample energy for demanding applications.
Customizable: Standard 3-Axis Travel (600x500x270mm), with 4-Axis and 5-Axis configurations and custom travels available.
Technical Specifications Summary
| Feature | Specification |
|---|---|
| Vibration Frequency | 20 kHz - 50 kHz |
| Driving Voltage | 10 V - 500 V |
| Rated Current | 4 A |
| 3-Axis Travel (XYZ) | 600 x 500 x 270 mm (Customizable) |
| Position Accuracy | 0.003 mm - 0.004 mm |
| Vibration Amplitude | 1 μm - 15 μm (Adjustable) |
| Dynamic Balance | G1.5 @ 30,000 RPM |
| Output Power | 5 W - 500 W |
| Max Spindle Speed | 30,000 RPM |
| Customization | 4-Axis, 5-Axis, Travel Dimensions |
Target Materials & Applications
Sunshine Ultrasonic Systems excel at machining a vast array of challenging materials, including:
Advanced Ceramics: Silicon Carbide (SiC), Zirconia (ZrO2), Alumina (Al2O3), Boron Carbide (B4C), Silicon Nitride (Si3N4), Aluminum Nitride (AlN)
Hard Alloys: Tungsten Carbide (WC)
Brittle Materials: Glass, Sapphire
Composites: Ceramic-based Fiber Composites, Graphite
These capabilities drive innovation across critical industries:
3C Electronics: Precision components for smartphones, laptops, wearables.
Semiconductor: Wafer handling, ceramic substrates, precision parts.
Aerospace & Defense: Advanced ceramic components, composites, hardened alloys.
Medical Devices: Biocompatible ceramics (implants, surgical tools), microfluidic chips.
Automotive & New Energy: EV battery components, sensors, lightweight composites.
Chemical Processing: Corrosion-resistant ceramic parts.
Microfluidics: Precise micro-channels and features.
| LIAN GUI Ultrasonic Vibration Processing Machine Tool 1)Ceramic Material | |
| Silicon carbide Zirconia Alumina Quartz Glass Sapphire Monocrystal Silicon Carbide Boron Nitride Silicon Nitride Aluminum 2) Composite Material |
|
| Ceramic matrix composites Resin matrix composites Metal matrix composites | |
| 3)Metal Material(Micropore) | |
| Tungsten steel Carbide Superalloy Titanium Alloy | |
| 2.Ultrasonic Vibration Cutting Device for honeycomb material | |
| Aramid paper honeycomb material Aluminum honeycomb material | |
| 3.Ultrasonic Elliptic Vibration Cutting Device | |
Hard and brittle Material Optical Device Hard Alloy |
Titanium Alloy |
| 4.Ultrasonic Vibration Finishing and Strengthening Device for Metal surface | |
| 45 Steel Carbon steel Die steel Titanium Alloy and other metal materials 5.Other Non-standard Customized Ultrasonic Vibration Device |
|
Frequently Asked Questions (FAQ)
Q: What is the main advantage of Ultrasonic Assisted Machining (UAM)?
A: UAM drastically reduces cutting forces, heat generation, and tool wear while significantly improving surface finish and enabling the machining of extremely hard, brittle materials impossible to process effectively with conventional methods.
Q: How does UAM extend tool life?
A: By ensuring the tool contacts the workpiece intermittently (>70% separation time), friction and heat are minimized. This reduces abrasive wear, adhesion, and thermal degradation of the cutting edge.
Q: What materials benefit most from UAM?
A: Hard, brittle ceramics (SiC, Al2O3, ZrO2, Si3N4, AlN, B4C), glass, sapphire, tungsten carbide, and ceramic composites see the most dramatic improvements in machinability, surface quality, and reduced damage.
Q: Can your machine operate without ultrasonic vibration?
A: Yes! Our systems are All-in-One Machine Tools, seamlessly switching between Ultrasonic Vibration Machining mode and Ordinary Cutting Processing mode, offering maximum flexibility.
Q: Is the vibration amplitude adjustable?
A: Absolutely. The vibration amplitude is precisely adjustable within the range of 1 to 15 micrometers (μm), allowing optimization for different materials, tool types, and desired surface finishes.