ultrasonic$86179$ - translation to γερμανικά
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ultrasonic$86179$ - translation to γερμανικά

PROCESS THAT USES ULTRASOUND AND A CLEANING SOLVENT TO CLEAN ITEMS
Ultrasonic bath; Ultrasonic cleaner; Sonic bath; Ultrasonic agitation; Ultrasonic cleaners
  • Sonorex ultrasonic cleaner from the 1970s or 1980s
  • Ultrasonic transducers showing ~20 kHz and ~40 kHz stacks.  The active elements (near the top) are two rings of [[lead zirconate titanate]], which are bolted to an aluminium coupling horn.
  • Ultrasonic cleaning of a mobile phone

ultrasonic      
adj. Ultraschall-
ultrasonic testing         
  • engine]].<br />
''Step 1'': The UT probe is placed on the root of the [[blade]]s to be inspected with the help of a special [[borescope]] tool (video probe).<br />
''Step 2'': Instrument settings are input.<br />
''Step 3'': The probe is scanned over the blade root. In this case, an indication (peak in the data) through the red line (or gate) indicates a good blade; an indication to the left of that range indicates a crack.
  • spline]] cracking
  • phased array]] instrument. The scanner, which consists of a frame with magnetic wheels, holds the probe in contact with the pipe by a spring. The wet area is the ultrasonic couplant that allows the sound to pass into the pipe wall.
NON-DESTRUCTIVE MATERIAL TESTING USING ULTRASONIC WAVES
Ultrasonic inspection; Ultrasonic echo attenuation; Sonic tomography
ultraschall-Test, Scannen von Oberflächen mit Hilfe von Ultraschall
wind gauge         
  • Acoustic resonance principle
  • Acoustic resonance anemometer
  • [[Britannia Yacht Club]] clubhouse tour, burgee, and wind gauge on roof
  • Cup anemometer animation
  • Hot-wire sensor
  • Instruments at [[Mount Washington Observatory]]. The pitot tube static anemometer is on the right.
  • Drawing of a laser anemometer. The laser light is emitted (1) through the front lens (6) of the anemometer and is backscattered off the air molecules (7). The backscattered radiation (dots) re-enters the device and is reflected and directed into a detector (12).
  • The pointed head is the pitot port. The small holes are connected to the static port.
  • Tube anemometer invented by William Henry Dines. The movable part (right) is mounted on the fixed part (left).
  • Fixed mounted 2D ultrasonic anemometer with 3 paths. <br />Central spike keeps birds away.
  • 3D ultrasonic anemometer
METEOROLOGICAL INSTRUMENTATION USED FOR MEASURING THE SPEED OF WIND
Cup-anemometer; Anemometers; Vane anemometer; Cup anemometer; Vane Anemometer; Aerovane; Wind measurement; Wind gauge; Hot-wire anemometry; Wind meter; Windometer; Anenometer; Dimes anemometer; Sonic Anemometer; Sonic Anemometers; Sonic anemometer; Sonic anemometers; Windmeter; Pitot tube static anemometer; Constant temperature anemometry; Wind speed meter; Wind scoop; Ultrasonic Anemometers; Anemograph; Anemometre; Wind sensor; Anemogram
Windmeßgerät

Ορισμός

ultrasonics
¦ plural noun
1. [treated as sing.] the science and application of ultrasonic waves.
2. [treated as sing. or plural] ultrasound.

Βικιπαίδεια

Ultrasonic cleaning

Ultrasonic cleaning is a process that uses ultrasound (usually from 20 to 40 kHz) to agitate a fluid, with a cleaning effect. Ultrasonic cleaners come in a variety of sizes, from small desktop units with an internal volume of less than 0.5 litres (0.13 US gal), to large industrial units with volumes approaching 1,000 litres (260 US gal).

The principle of the ultrasonic cleaning machine is to convert the sound energy of the ultrasonic frequency source into mechanical vibration through the transducer. The vibration generated by the ultrasonic wave is transmitted to the cleaning liquid through the cleaning tank wall, so that the micro-bubbles in the liquid in the tank can keep vibrating under the action of the sound wave, destroying and separating the dirty adsorption on the surface of the object.

Depending on the object being cleaned, the process can be very rapid, completely cleaning a soiled item in minutes. In other instances cleaning can be slower, and exceed 30 minutes.

Ultrasonic cleaners are used to clean many different types of objects, including jewelry, scientific samples, lenses and other optical parts, watches, dental and surgical instruments, tools, coins, fountain pens, golf clubs, fishing reels, window blinds, firearm components, car fuel injectors, musical instruments, gramophone records, industrial machine parts, and electronic equipment. They are used in many jewelry workshops, watchmakers' establishments, electronic repair workshops, and scientific labs.