Laboratory equipment pty ltd – LABEC FXP16M User Manual
Page 6

LABORATORY EQUIPMENT PTY LTD
• REDUCED LABOUR & CHEMICAL COSTS
• IMPROVED PRODUCT RELIABILITY
• EFFICIENT MOST ECONOMICAL CLEANING METHOD
• EXPOSURE OF VISIBLE SURFACE DEFFECTS
• REMOVES CONTAMINATION FROM BLIND HOLES & CREVICES
APPLICATIONS
Ultrasonic Cleaning can be used in every application from delicate jewellery parts to
rocket engines.
Here are some other examples of equipment that can be ultrasonically cleaned.
BUSINESS MACHINES
FILTERS
SURGICAL INSTRUMENTS
ARMATURES
ENGINE BLOCKS
AUTOMOTIVE CARBURETTORS
VALVES & PIPES
PRINTED CIRCUIT BOARDS
HEATING COILS& ELEMENTS MEDICAL AND LABORATORY ITEMS
ACREENS & STAINERS
CONSUMER APPLIANCES BEFORE SERVICING
HOW IT WORKS
The Generator is the power source where the ultrasonic wave is made and this high
frequency electrical energy signal is passed on to the transducer converting the
mechanical energy and imparting into the liquid in the cleaning tank.
The conversion from electrical energy to mechanical energy in the cleaning medium
(liquid) includes cavitation, which is the real work force in the liquid.
In cavitation the varying pressures of a sound wave rapidly collapses and expands in
the tank liquid to scrub off the contaminants.
ULTRASONIC VERSUS OTHER CLEANING METHODS
SPRAYING
14%
IMMERSION
30%
VAPOUR DEGREASING
35%
BRUSHING
92%
ULTRASONICS
99%
This shows a comparison table drawn up originally in the USA some years ago.
It depicts how effective ultrasonic cleaning can be compared to other more commonly
known cleaning systems.
26 – 30 Farr St, Marrickville, NSW 2204
PHONE: +61 2 95602811 FAX: +61 2 95606131
EMAIL:
www.labec.com.au