Customization: | Available |
---|---|
Application: | Electronic |
Cooling Way: | Fan Cooling |
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Description:
Specification:
Item No | SPW20-2600 |
Frequency | 20Khz |
Output | 2000W/2600W;2600W/3200W/4200W |
Voltage | 110V/220V |
Electric Current | 10A |
Range of Welding Time | 0.01-9.99/sec |
Environment Temperature | 5-50ºC |
Pneumatic Requirement | Clean, dry air at 0.1-0.7Mpa |
Maximum Pressure | 1.96KN |
Maximum Stroke | 75MM |
Cycle Rate | 80/Min |
Weight | 100Kgs |
Dimension of press (mm) | 400(L)*700(W)*1000(H) |
Dimension of generator (mm) | 380(L)*280(W)*120(H) |
Working Mode | Time / Power/ Pressure |
Frequency available in 15, 20, 30, 35KHz
Advantages:
1.High Efficiency:
Speed: Ultrasonic welding is a fast process, often completed in a matter of seconds.
Automation: The process can be easily automated, increasing production rates and consistency.
2.Strong and Reliable Bonds:
Quality: Creates strong, consistent welds without the need for adhesives or mechanical fasteners.
Durability: Welds are highly durable and can withstand mechanical stress and environmental factors.
3.Material Versatility:
Compatibility: Works with a wide range of thermoplastics, allowing for flexibility in material choice.
No Need for Consumables: Unlike other welding techniques, it doesn't require consumables like glue or solder.
4.Cost-Effective:
Low Operating Costs: Minimal maintenance and operating costs due to the absence of consumables.
Energy Efficiency: Uses significantly less energy compared to other welding methods.
5.Clean and Environmentally Friendly:
No Emissions: The process does not produce harmful fumes or emissions, making it environmentally friendly.
No Residue: Leaves no residue on the welded parts, maintaining cleanliness.
6.Precision and Control:
Accuracy: Provides precise control over the welding process, ensuring high-quality outcomes.
Customization: Can be easily adapted to different shapes and sizes of parts.
7.Safety:
Non-Toxic: No need for solvents or adhesives that could be harmful to operators.
Minimal Heat: The localized application of heat reduces the risk of burns or thermal damage to the surrounding material.
Applicable materials for welding:
Applications:
Automotive: Manufacturing components like instrument panels, dashboards, and air filter housings.
Electronics: Assembling housings for electronic devices and circuit boards.
Medical: Creating medical devices like filters, masks, and IV catheters.
Packaging: Sealing plastic packaging and containers.
Toys: Assembling plastic toys and figures.
FAQ:
1.What is ultrasonic plastic welding?
Ultrasonic plastic welding is a process that uses high-frequency ultrasonic vibrations to create heat through friction, enabling the bonding or welding of thermoplastic materials without the need for adhesives or additional materials.
2.How does ultrasonic plastic welding work?
Ultrasonic plastic welding involves the application of ultrasonic vibrations to the joint area of two thermoplastic components. The vibrations generate heat at the interface, causing the plastic to melt and form a molecular bond as it cools.
3.What types of plastics can be welded using ultrasonic technology?
Ultrasonic plastic welding is suitable for a wide range of thermoplastic materials, including but not limited to, ABS, PVC, polypropylene, polyethylene, polycarbonate, and more.
4.What are the advantages of ultrasonic plastic welding compared to other welding techniques?
Ultrasonic plastic welding offers advantages such as fast welding cycles, precise and consistent welds, minimal part distortion, and the ability to create strong, hermetic seals without the use of additional consumables.
5.Can ultrasonic plastic welding be used for large or complex plastic components?
Yes, ultrasonic plastic welding can be applied to both small and large plastic components, as well as those with complex geometries. It is commonly used in industries such as automotive, electronics, medical devices, and packaging.
6.Is ultrasonic plastic welding suitable for joining dissimilar plastics?
While ultrasonic welding is generally used for welding similar materials, some specialized processes and techniques can be employed for joining certain dissimilar plastics, depending on their compatibility.
7.What factors influence the quality of ultrasonic plastic welds?
Several factors, including amplitude, pressure, welding time, and tooling design, influence the quality of ultrasonic plastic welds. Optimal parameters vary depending on the specific materials and joint geometries.
8.Are there limitations to ultrasonic plastic welding?
Ultrasonic plastic welding may be limited by factors such as material thickness, joint design, and certain plastic characteristics. Thicker materials or those with high viscosities may require additional considerations.
9.Is ultrasonic plastic welding a non-destructive process?
Yes, ultrasonic plastic welding is generally considered a non-destructive process as it does not introduce heat beyond the melting point of the plastic. However, careful process control is essential to avoid potential damage.