Aluminum disc

Last updated

In the field of audio recording, an aluminum disc (aluminium in the UK and elsewhere) is a phonograph (gramophone in the UK) record made of bare aluminum, a medium introduced in the late 1920s for making one-off recordings. Although sometimes used for making amateur studio or home recordings or in coin-operated "record-your-voice" booths at fairs and arcades, during the first half of the 1930s bare aluminum discs were primarily used to record radio broadcasts for the private transcription disc archives of performers or sponsors. [1]

In the recording process, a sufficiently amplified audio signal was sent to a heavily weighted electromagnetic recording head with a blunt diamond stylus that indented/embossed, rather than cut or engraved, a sound-modulated groove into the surface of the metal. Normally, a completely blank disc was used and the recording head was slowly carried toward its center by a dedicated fixed-pitch feed mechanism. Some lower-end recording units economized by eliminating the feed mechanism, relying instead on the use of discs already cut with a narrow blank groove that guided the stylus This simply impressed its vibrations into the relatively quiet by comparison upper region of the existing groove, leaving the noisy groove bottom blank. This cost-cutting approach produced recordings with a very limited dynamic range and generally inferior sound. In either case, because of the grain structure of the metal and its resistance to the side-to-side motions of the recording stylus, even with leaving the groove bottom blank, significant surface noise was inherent and the high-frequency signal content was heavily attenuated.

Subsequent vertically-modulated versions fared better acoustically, but with their incompatibility with standard home phonographs of the period, were discontinued fairly rapidly.

The recording had to be played back with a fiber needle such as cut and pointed bamboo or a plant thorn, as an ordinary steel needle in a typical heavy pickup would severely damage the soft aluminum surface. Even when playing a bare aluminium disc with a modern lightweight magnetic cartridge, a hard stylus that does not correctly fit the contour of the groove will score its surface and tend to skip and repeat, damaging the disc as well as degrading the quality of the recovered audio. Because the blunt recording stylus typically bore down on the aluminum at a substantial angle, it produced a disproportionately shallow groove, so that optimum playback with modern equipment requires a custom stylus with an unusually large tip radius.

In 1934, the Pyral Company in France and the Presto Recording Corporation in the United States independently created the so-called acetate disc by coating a layer of nitrocellulose lacquer onto the aluminum, which now served only as a rigid support. [1] The difference here is, rather than embossing the audio, the signal was engraving the groove onto an easily cut and grainless lacquer. This made it possible to produce a broadcast-quality recording that preserved high-frequency detail and was nearly noiseless when new. As a result, professional recording services soon abandoned the use of bare aluminum blanks, although some amateur and novelty use persisted into the 1940s.

Combinations of the two technologies addressed above involved embossing onto a soft resin-based blank with no metal or fiber substrate. Made chiefly for the emerging dictation market during World War II, the two most well known are the SoundScriber (vertical modulation) and the Gray Audograph, the latter of which, along with the CGS Rieber unit, recorded in an inches-per-second Constant Linear Velocity mode (like the modern CD/DVD - starting off faster in the center and gradually getting slower as the disc progressed towards the edge instead of recording in revolutions-per-minute. Memovox machines, like the SoundScriber recorded in a RPM type format. Cylindrical versions such as the Dictabelt applied the same technology to resin-based loops to get around the decrease of fidelity from the outside to the inside of the disc when recording in RPM/Constant Angular Velocity.

From an archival perspective, the changeover traded long-term stability for superior sound quality. A bare aluminum disc can remain unchanged indefinitely if carefully stored, while the coating on a lacquer disc or the entirety of a resin-based disc is subject to chemical deterioration, tending to shrink and become brittle due to the loss of unstable plasticizers the same as with celluloid film, which can cause the lacquer or acetate to develop cracks, split off from the aluminum base disc, and in severe cases disintegrate into an unsalvageable rubble of tiny flakes. [2]

Most recordings on bare aluminum are believed to have perished in the scrap metal drives held during World War II. [1] Aluminum was declared to be a critical war material and civilians in the US were urged to do their patriotic duty by finding and turning in anything made of it. The collected "scrap" was melted and recycled. [1]

A selection of recently found EKCO aluminium discs containing home recordings of BBC radio broadcasts from 1932 to 1937 which escaped the above fate may be seen and heard at http://www.greenbank-records.com

In other fields, aluminum disc may refer to the aluminum core discs used for the "platters" in hard disk drives, or to discs used in various other products or manufacturing processes.

See also

Related Research Articles

<span class="mw-page-title-main">Phonograph</span> Device for the analogue recording of sound

A phonograph, in its later forms also called a gramophone or since the 1940s called a record player, or more recently a turntable, is a device for the mechanical and analogue recording and reproduction of sound. The sound vibration waveforms are recorded as corresponding physical deviations of a spiral groove engraved, etched, incised, or impressed into the surface of a rotating cylinder or disc, called a "record". To recreate the sound, the surface is similarly rotated while a playback stylus traces the groove and is therefore vibrated by it, very faintly reproducing the recorded sound. In early acoustic phonographs, the stylus vibrated a diaphragm which produced sound waves which were coupled to the open air through a flaring horn, or directly to the listener's ears through stethoscope-type earphones.

<span class="mw-page-title-main">Optical disc</span> Flat, usually circular disc that encodes binary data

An optical disc is a flat, usually disc-shaped object that stores information in the form of physical variations on its surface that can be read with the aid of a beam of light. Optical discs can be reflective, where the light source and detector are on the same side of the disc, or transmissive, where light shines through the disc to be detected on the other side.

<span class="mw-page-title-main">Dictabelt</span> Audio recording medium

The Dictabelt, in early years and much less commonly also called a Memobelt, is an analog audio recording medium commercially introduced by the American Dictaphone company in 1947. Having been intended for recording dictation and other speech for later transcription, it is a write-once-read-many medium consisting of a 5-mil (0.13 mm) thick transparent vinyl plastic belt 3.5 inches (89 mm) wide and 12 inches (300 mm) around. The belt is loaded onto a pair of metal cylinders, put under tension, then rotated like a tank tread. It is inscribed with an audio-signal-modulated helical groove by a stylus which is slowly moved across the rotating belt. Unlike the stylus of a record cutter, the Dictabelt stylus is blunt and in recording mode it simply impresses a groove into the plastic rather than engraving it and throwing off a thread of waste material. The Dictabelt system was popular, and by 1952, made up 90% of Dictaphone's sales.

<span class="mw-page-title-main">Edison Records</span> Early record label

Edison Records was one of the early record labels that pioneered sound recording and reproduction, and was an important player in the early recording industry.

<span class="mw-page-title-main">Edison Disc Record</span> Type of phonograph record produced by Edison Inc. from 1912 to 1929

The Edison Diamond Disc Record is a type of phonograph record marketed by Thomas A. Edison, Inc. on their Edison Record label from 1912 to 1929. They were named Diamond Discs because the matching Edison Disc Phonograph was fitted with a permanent conical diamond stylus for playing them. Diamond Discs were incompatible with lateral-groove disc record players, e.g. the Victor Victrola, the disposable steel needles of which would damage them while extracting hardly any sound. Uniquely, they are just under 14 in thick.

<span class="mw-page-title-main">Acetate disc</span> Type of phonograph record

An acetate disc is a type of phonograph record generally used from the 1930s to the late 1950s for recording and broadcast purposes and sees limited use as of 2009.

<span class="mw-page-title-main">Unusual types of gramophone records</span> Gramophone records with non standard features

The overwhelming majority of records manufactured have been of certain sizes, playback speeds, and appearance. However, since the commercial adoption of the gramophone record, a wide variety of records have also been produced that do not fall into these categories, and they have served a variety of purposes.

<span class="mw-page-title-main">Sound recording and reproduction</span> Recording of sound and playing it back

Sound recording and reproduction is the electrical, mechanical, electronic, or digital inscription and re-creation of sound waves, such as spoken voice, singing, instrumental music, or sound effects. The two main classes of sound recording technology are analog recording and digital recording.

<span class="mw-page-title-main">Compact disc manufacturing</span> Mass replication process for CDs

Compact disc manufacturing is the process by which commercial compact discs (CDs) are replicated in mass quantities using a master version created from a source recording. This may be either in audio form (CD-DA) or data form (CD-ROM). This process is used in the mastering of read-only compact discs. DVDs and Blu-rays use similar methods.

The history of sound recording - which has progressed in waves, driven by the invention and commercial introduction of new technologies — can be roughly divided into four main periods:

Absolute Time in Pregroove (ATIP) is a method of storing information on an optical medium, used on CD-R and CD-RW. ATIP information is only readable on CD-R and CD-RW drives, as read-only drives do not need the information stored on it. The information indicates if the disk is writable and information needed to correctly write to the disk.

Record restoration, a particular kind of audio restoration, is the process of converting the analog signal stored on gramophone records into digital audio files that can then be edited with computer software and eventually stored on a hard-drive, recorded to digital tape, or burned to a CD or DVD. The process may be divided into several separate steps performed in the following order:

  1. Cleaning the record, to prevent unwanted audio artifacts from being introduced in the capture that will necessitate correction in the digital domain, and to prevent unnecessary wear and damage to the stylus used in playback.
  2. Transcription of the record to another format on another medium ;
  3. Processing the raw sound file with software in order to remove transient noise resulting from record surface damage ;
  4. Using software to adjust the volume and equalization;
  5. Processing the audio with digital and analogue techniques to reduce surface/wideband noise;
  6. Saving the file in the desired format.
<span class="mw-page-title-main">SoundScriber</span>

SoundScriber is a dictation machine introduced in 1945 by The SoundScriber Corp.. It records sound with a groove embossed into soft vinyl discs with a stylus. Similar competing recording technologies are the Gray Audograph and Dictaphone DictaBelt. The machine can record 15 minutes of dictation on each side of a thin (.01-inch) flexible 6-inch vinyl disc spinning at a rate of 33+13 RPM, at a density of 200 grooves per inch. The discs originally cost about 10 cents each. The machine has two tonearms: a recording arm driven by a worm gear that creates the groove with a diamond stylus, and a pickup arm with a sapphire stylus for playback. A foot-operated playback/pause—and-reverse switch is used for transcribing.

Teldec is a German record label in Hamburg, Germany. Today the label is a property of Warner Music Group.

<span class="mw-page-title-main">Direct metal mastering</span> Analog audio disc mastering technique

Direct metal mastering (DMM) is an analog audio disc mastering technique jointly developed by two German companies, Telefunken-Decca (Teldec) and Georg Neumann GmbH, toward the end of the 20th century after having seen the same technology used by RCA Princeton Labs for its SelectaVision videodiscs in the late-1970s.

In the production of phonograph records – discs that were commonly made of shellac, and later, vinyl – sound was recorded directly onto a master disc at the recording studio. From about 1950 on it became usual to have the performance first recorded on audio tape, which could then be processed and/or edited, and then dubbed on to the master disc.

<span class="mw-page-title-main">Herbert Morrison (journalist)</span> American journalist (1905–1989)

Herbert Oglevee Morrison was an American radio journalist who recorded for broadcast his dramatic report of the Hindenburg disaster, a catastrophic fire that destroyed the LZ 129 Hindenburg zeppelin on May 6, 1937, killing 36 people.

<span class="mw-page-title-main">Electrical transcription</span> Phonograph recordings made for radio broadcasting

Electrical transcriptions are special phonograph recordings made exclusively for radio broadcasting, which were widely used during the "Golden Age of Radio". They provided material—from station-identification jingles and commercials to full-length programs—for use by local stations, which were affiliates of one of the radio networks.

<span class="mw-page-title-main">Disc cutting lathe</span> Equipment used for transferring a sound recording to disc for the production of vinyl records

A disc cutting lathe is a device used to transfer an audio signal to the modulated spiral groove of a blank master disc for the production of phonograph records. Disc cutting lathes were also used to produce broadcast transcription discs and for direct-to-disc recording.

IRENE is a digital imaging technology designed to recover analog audio stored on fragile or deteriorating phonograph cylinders, records, and other grooved audio media. It is in use by several archives and preservation institutions in the United States seeking to preserve and digitize historical audio.

References

  1. 1 2 3 4 Documenting Early Radio: A Review of Existing Pre-1932 Radio Recordings, Elizabeth McLeod, 1988-9
  2. "Preserving Sound Recordings - Save Our Sounds: America's Recorded Sound Heritage Project (The American Folklife Center, Library of Congress)". loc.gov. Archived from the original on 23 May 2010. Retrieved 8 May 2010.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.