Air carbon arc cutting: Difference between revisions
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'''Air carbon arc cutting''', also referred to as '''metal arc gouging''', and previously as '''air arc cutting''',<ref>{{Citation | last = Jeffus | first = Larry | title = Welding: principles and applications | page = 191 | publisher = Cengage Learning | year = 1997 | edition = 4th | url = https://books.google.com/books?id=iXAmL8HEMfkC&lpg=PA191 | isbn = 978-0-8273-8240-4 | postscript =.}}</ref> is an arc [[cutting]] process where [[metal]] is [[cutting|cut]] and [[melted]] by the [[heat]] of a carbon arc. Molten metal is then removed by a blast of [[air]]. It employs a consumable carbon or graphite electrode to melt the material, which is then blown away by an air jet. |
'''Air carbon arc cutting''', also referred to as '''metal arc gouging''', and previously as '''air arc cutting''',<ref>{{Citation | last = Jeffus | first = Larry | title = Welding: principles and applications | page = 191 | publisher = Cengage Learning | year = 1997 | edition = 4th | url = https://books.google.com/books?id=iXAmL8HEMfkC&lpg=PA191 | isbn = 978-0-8273-8240-4 | postscript =.}}</ref> is an arc [[cutting]] process where [[metal]] is [[cutting|cut]] and [[melted]] by the [[heat]] of a carbon arc. Molten metal is then removed by a blast of [[air]]. It employs a consumable carbon or graphite electrode to melt the material, which is then blown away by an air jet. |
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This process is useful for cutting a variety of materials, but it is most often used for cutting and gouging aluminum, copper, iron, magnesium, and carbon and stainless steel. Because the metal is blown away by the air jet, it does not need to be oxidized. This process differs from [[plasma cutting]] operations because in air carbon cutting an open, unconstricted arc is used, and the arc operates separately from the air jet. |
This process is useful for cutting a variety of materials, but it is most often used for cutting and gouging aluminum, copper, iron, magnesium, and carbon and stainless steel. Because the metal is blown away by the air jet, it does not need to be oxidized. This process differs from [[plasma cutting]] operations because in air carbon cutting an open, unconstricted arc is used, and the arc operates separately from the air jet.<ref>WeldGuru.com, "''Let the Weld Guru guide you through the world of CAC, Carbon Arc Cutting''", 2008, http://www.weldguru.com/CAC.html (April 17, 2008)</ref> |
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Air pressure for the jet usually varies from 60 to 100 psi (4-7 bar). The carbon electrode can be worn away by oxidation due to heat buildup. This can be reduced by coating the electrodes with copper. |
Air pressure for the jet usually varies from 60 to 100 psi (4-7 bar). The carbon electrode can be worn away by oxidation due to heat buildup. This can be reduced by coating the electrodes with copper. |
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Revision as of 11:34, 20 January 2021
Air carbon arc cutting, also referred to as metal arc gouging, and previously as air arc cutting,[1] is an arc cutting process where metal is cut and melted by the heat of a carbon arc. Molten metal is then removed by a blast of air. It employs a consumable carbon or graphite electrode to melt the material, which is then blown away by an air jet.
This process is useful for cutting a variety of materials, but it is most often used for cutting and gouging aluminum, copper, iron, magnesium, and carbon and stainless steel. Because the metal is blown away by the air jet, it does not need to be oxidized. This process differs from plasma cutting operations because in air carbon cutting an open, unconstricted arc is used, and the arc operates separately from the air jet.[2]
Air pressure for the jet usually varies from 60 to 100 psi (4-7 bar). The carbon electrode can be worn away by oxidation due to heat buildup. This can be reduced by coating the electrodes with copper.
As the sharpened carbon electrode is drawn along the metal, an arc forms and melts the metal. The air jet is used to blow away molten material. This can be dangerous, as the molten material can be blown substantial distances.[3] The process is also very noisy. Metal removal is rapid, and when properly done, a smooth half-cylindrical cavity is created.[4]
See also
References
- ^ Jeffus, Larry (1997), Welding: principles and applications (4th ed.), Cengage Learning, p. 191, ISBN 978-0-8273-8240-4.
- ^ WeldGuru.com, "Let the Weld Guru guide you through the world of CAC, Carbon Arc Cutting", 2008, http://www.weldguru.com/CAC.html (April 17, 2008)
- ^ Serope Kalpakjian, Steven R. Schmid, Manufacturing Engineering and Technology (Upper Saddle River, NJ: Pearson Prentice Hall, 2006)
- ^ Miller, Duane (2017). "Appendix A4". Welded Connections. Design Guide. Vol. 21 (2nd ed.). American Institute of Steel Construction. p. 38.
External links
- SweetHaven Publishing Services, “Fundamentals of Professional Engineering”, 2001, [1] (April 17, 2008).