Metglas is a thin amorphous metalalloy ribbon produced by using rapid solidification process of approximately 1,000,000 °C/s (1,800,000 °F/s; 1,000,000 K/s). This rapid solidification creates unique ferromagnetic properties that allows the ribbon to be magnetized and de-magnetized quickly and effectively with very low core losses of approximately 5 mW/kg[1] at 60 Hz and a maximum relative permeability of approximately 1,000,000.[2]
Historyedit
Metglas is based on technology developed at AlliedSignal research facilities in Morristown, New Jersey and Vacuumschmelze in Hanau, Germany. The development of amorphous metals began in 1970. Over the years, many new alloys have been found using the same principles of rapid solidification.
Metglas, also known as metallic glass alloys, differ from traditional metals in that they have a non-crystalline structure and possess unique physical and magnetic properties that combine high permeability, strength and hardness with flexibility and toughness.
^"Core Losses in Metglas Alloy 2714A", Metglas 2012-03-30 at the Wayback Machine
^"Metglas Magnetic Alloy 2714A", Metglas 2012-02-06 at the Wayback Machine
April 16, 2024
metglas, this, article, relies, excessively, references, primary, sources, please, improve, this, article, adding, secondary, tertiary, sources, find, sources, news, newspapers, books, scholar, jstor, july, 2021, learn, when, remove, this, template, message, t. This article relies excessively on references to primary sources Please improve this article by adding secondary or tertiary sources Find sources Metglas news newspapers books scholar JSTOR July 2021 Learn how and when to remove this template message Metglas is a thin amorphous metal alloy ribbon produced by using rapid solidification process of approximately 1 000 000 C s 1 800 000 F s 1 000 000 K s This rapid solidification creates unique ferromagnetic properties that allows the ribbon to be magnetized and de magnetized quickly and effectively with very low core losses of approximately 5 mW kg 1 at 60 Hz and a maximum relative permeability of approximately 1 000 000 2 History editMetglas is based on technology developed at AlliedSignal research facilities in Morristown New Jersey and Vacuumschmelze in Hanau Germany The development of amorphous metals began in 1970 Over the years many new alloys have been found using the same principles of rapid solidification Metglas also known as metallic glass alloys differ from traditional metals in that they have a non crystalline structure and possess unique physical and magnetic properties that combine high permeability strength and hardness with flexibility and toughness See also editAmorphous metal transformerReferences edit Core Losses in Metglas Alloy 2714A Metglas Archived 2012 03 30 at the Wayback Machine Metglas Magnetic Alloy 2714A Metglas Archived 2012 02 06 at the Wayback Machine Retrieved from https en wikipedia org w index php title Metglas amp oldid 1033517205, wikipedia, wiki, book, books, library,
