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CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling

CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling

  • CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling
  • CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling
  • CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling
  • CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling
  • CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling
  • CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling
CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling
Product Details:
Place of Origin: China
Brand Name: Rps-sonic
Certification: CE
Model Number: RPS-M20-R
Payment & Shipping Terms:
Minimum Order Quantity: 1pcs
Price: negotiable
Packaging Details: CARTON
Delivery Time: 1DAYS
Payment Terms: T/T
Supply Ability: 200PCS/MONTH
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Detailed Product Description
Frequency: 20Khz Power: 1000w
Horn Material: Soft Steel Titanium Alloy Amplitude: 15 - 50 µm
Wear Ratio: Tungsten 1.5:1 And Glass 100:1 Gap Overcut: 0.02-0.1 Mm
Grit Size(d0): 100 – 800
High Light:

20Khz Ultrasonic Machining Machine

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Honeycomb Ultrasonic Machining Machine

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CNC Ultrasonic Assisted Machining

CNC 20Khz Ultrasonic Machining machine for honeybomb cutting and ultrasonic drilling

 

Parameter

 

Item Parameter
Abrasive Boron carbide, aluminium oxide and silicon carbide
Grit size(d0) 100 – 800
Frequency of vibration (f) 19 – 25 kHz
Amplitude of vibration (a) 15 - 50 µm
Tool material Soft steel titanium alloy
Wear ratio Tungsten 1.5:1 and glass 100:1
Gap overcut

0.02-0.1 mm

 

Description

 

An ultrasonically vibrating mill consists of two major components, an electroacoustic transducer and a sonotrode, attached to an electronic control unit with a cable. An electronic oscillator in the control unit produces an alternating current oscillating at a high frequency, usually between 18 and 40 kHz in the ultrasonic range. The transducer converts the oscillating current to a mechanical vibration. Two types of transducers have been used in ultrasonic machining; either piezoelectric or magnetostrictive:

Piezoelectric transducer

This consists of a piece of piezoelectric ceramic, such as barium titanate, with two metal electrodes plated on its surface. The alternating voltage from the control unit applied to the electrodes causes the piezoelectric element to bend back and forth slightly, causing it to vibrat

Magnetostrictive transducer
This consists of a cylinder of ferromagnetic material such as steel inside a coil of wire. Magnetostriction is an effect which causes a material to change shape slightly when a magnetic field through it changes. The alternating current from the control unit, applied to the coil, creates an alternating magnetic field in the magnetostrictive cylinder which makes it change shape slightly with each oscillation, causing it to vibrate.

 

Application

 

Since ultrasonic vibration machining does not use subtractive methods that may alter the physical properties of a workpiece, such as thermal, chemical, or electrical processes, it has many useful applications for materials that are more brittle and sensitive than traditional machining metals.Materials that are commonly machined using ultrasonic methods include ceramics, carbides, glass, precious stones and hardened steels.These materials are used in optical and electrical applications where more precise machining methods are required to ensure dimensional accuracy and quality performance of hard and brittle materials. Ultrasonic machining is precise enough to be used in the creation of microelectromechanical system components such as micro-structured glass wafers.

In addition to small-scale components, ultrasonic vibration machining is used for structural components because of the required precision and surface quality provided by the method. The process can safely and effectively create shapes out of high-quality single crystal materials that are often necessary but difficult to generate during normal crystal growth.As advanced ceramics become a greater part of the structural engineering realm, ultrasonic machining will continue to provide precise and effective methods of ensuring proper physical dimensions while maintaining crystallographic properties

 

Advantages

 

Ultrasonic vibration machining is a unique non-traditional manufacturing process because it can produce high-precision parts made of hard and brittle materials that are usually difficult to machine. In addition, ultrasonic processing can produce fragile materials such as glass and non-traditional materials. Conductive metals that cannot be processed by alternative methods (such as electrical discharge machining and electrochemical machining). Ultrasonic machining can produce high tolerance parts because the processed material is not deformed. There is no deformation because the ultrasonic welding head will not generate heat to the workpiece, which is beneficial because the physical characteristics of the part will always be consistent. In addition, no burrs are generated during this process, so fewer operations are required to produce finished parts.

 

CNC 20Khz Ultrasonic Machining Machine For Honeycomb Cutting Drilling 0

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Contact Person: Fiona

Tel: +8615105815155

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