Oxy-fuel welding and cutting
Oxy-fuel welding (commonly called oxyacetylene welding, oxy welding, or gas welding in the U.S.) and oxy-fuel cutting are processes that use fuel gases and oxygen to weld and cut metals, respectively. French engineers Edmond Fouché and Charles Picard became the first to develop oxygen-acetylene welding in 1903. Pure oxygen, instead of air, is used to increase the flame temperature to allow localized melting of the workpiece material (e.g. steel) in a room environment. A common propane/air flame burns at about 2,250 K (1,980 °C; 3,590 °F), a propane/oxygen flame burns at about 2,526 K (2,253 °C; 4,087 °F), an oxyhydrogen flame burns at 2,800 °C (5,070 °F), and an acetylene/oxygen flame burns at about 3,773 K (3,500 °C; 6,332 °F).
Acetylene burnerAcetylene torchBlowtorch gogglesBlowtorching gogglesBrazing torchCutting torchFlame cuttingFlashback (in welding)Flashback (welding)Gas axeGas cuttingGas weldingHot wrenchOxy-Fuel Welding and CuttingOxy-acetyleneOxy-acetylene burnerOxy-acetylene torchOxy-acetylene weldingOxy-fuel weldingOxy-gas torchOxy acetyleneOxy cuttingOxyacetaleneOxyacetyleneOxyacetylene torchOxyacetylene weldingOxyacetylene welding torchOxyacetylene welding torchesOxyfuel weldingOxygen gas torchOxyhydrogen weldingSteel profilingWelding torch
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Oxy-fuel welding and cutting
Oxy-fuel welding (commonly called oxyacetylene welding, oxy welding, or gas welding in the U.S.) and oxy-fuel cutting are processes that use fuel gases and oxygen to weld and cut metals, respectively. French engineers Edmond Fouché and Charles Picard became the first to develop oxygen-acetylene welding in 1903. Pure oxygen, instead of air, is used to increase the flame temperature to allow localized melting of the workpiece material (e.g. steel) in a room environment. A common propane/air flame burns at about 2,250 K (1,980 °C; 3,590 °F), a propane/oxygen flame burns at about 2,526 K (2,253 °C; 4,087 °F), an oxyhydrogen flame burns at 2,800 °C (5,070 °F), and an acetylene/oxygen flame burns at about 3,773 K (3,500 °C; 6,332 °F).
has abstract
Autogeen lassen, ook wel gassm ...... etyleen) met zuivere zuurstof.
@nl
Das autogene Brennschneiden od ...... Elektronenstrahl-Bearbeitung.
@de
El oxicorte es una técnica aux ...... usión inferior a la del acero.
@es
L'oxycoupage est un procédé de ...... les pièces les plus massives.
@fr
La Saldatura ossiacetilenica ( ...... ssere adattata all'ossitaglio.
@it
Oxy-fuel welding (commonly cal ...... d brazing but not for welding.
@en
Palnik acetylenowo-tlenowy – u ...... o wodoru w wodór cząsteczkowy.
@pl
Газовая, или газоплавильная св ...... ы основного металла — диаметр.
@ru
لحام الأوكسي-أستيلين والقطع به ...... منز صور وملفات عن: لحام بالغاز
@ar
ガス溶接(ガスようせつ、英語: oxy-fuel weldi ...... 英語: oxy-fuel cutting)についても述べる。
@ja
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Autogeen lassen, ook wel gassm ...... etyleen) met zuivere zuurstof.
@nl
Das autogene Brennschneiden od ...... s Verfahren in der DIN 2310-6.
@de
El oxicorte es una técnica aux ...... ón u otros elementos ferrosos.
@es
L'oxycoupage est un procédé de ...... oupage. Ce procédé nécessite :
@fr
La Saldatura ossiacetilenica ( ...... a torcia ossiacetilenica può e
@it
Oxy-fuel welding (commonly cal ...... 3,773 K (3,500 °C; 6,332 °F).
@en
Palnik acetylenowo-tlenowy – u ...... spalanie całkowite acetylenu:
@pl
Газовая, или газоплавильная св ...... ы основного металла — диаметр.
@ru
لحام الأوكسي-أستيلين والقطع به ...... الكيميائي: CH2 + O2 → 2CO + H2
@ar
ガス溶接(ガスようせつ、英語: oxy-fuel weldi ...... 英語: oxy-fuel cutting)についても述べる。
@ja
label
Autogeen lassen
@nl
Autogenes Brennschneiden
@de
Oxicorte
@es
Oxy-fuel welding and cutting
@en
Oxycoupage
@fr
Palnik acetylenowo-tlenowy
@pl
Saldatura ossiacetilenica
@it
Газовая сварка
@ru
لحام بالغاز
@ar
ガス溶接
@ja