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Applying Fuel Gas Welding (FGW) Processes and Techniques

Applying Fuel Gas Welding (FGW) Processes and Techniques. Next Generation/Common Core Standards Addressed!. CCSS.ELALiteracy.RST.9‐10.1 Cite specific textual evidence to support analysis of science and technical texts, attending to the precise details of explanations or descriptions.

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Applying Fuel Gas Welding (FGW) Processes and Techniques

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  1. Applying Fuel Gas Welding (FGW) Processes and Techniques

  2. Next Generation/Common Core Standards Addressed! • CCSS.ELALiteracy.RST.9‐10.1 Cite specific textual evidence to support analysis of science and technical texts, attending to the precise details of explanations or descriptions. • CCSS.ELALiteracy.RST.9‐10.3 Follow precisely a complex multistep procedure when carrying out experiments, taking measurements, or performing technical tasks, attending to special cases or exceptions defined in the text • CCSS.ELALiteracy.RST.11‐1Follow precisely a complex multistep procedure when carrying out experiments, taking measurements, or performing technical tasks; analyze the specific results based on explanations in the text2.3

  3. Agriculture, Food and Natural Resource Standards Addressed! • PST.01.03. Apply physical science principles to metal fabrication using a variety of welding and cutting processes (e.g., SMAW, GMAW, GTAW, fuel-oxygen and plasma arc torch, etc.). • PST.01.03.01.b. Analyze the situation and determine the best welding and cutting process to be used in metal fabrication.

  4. Bell Work ! • Explain the fundamentals of fuel gas welding. • Explain how to select fuel gas welding equipment and supplies. • Describe how to set-up fuel gas welding equipment. • Explain how to operate fuel gas welding equipment. • Describe fuel gas welding techniques. • Identify safety practices that should be observed in fuel gas welding.

  5. Interest Approach • Here is an arc welder and fuel gas welder exhibited side by side. • What is the difference between them? • The differences are not only physical in appearance, but also in the heat generated and processes that can be completed with each.

  6. Acetylene Blowpipe Carburizing flame Flashback Flash arrestors Neutral flame Oxidizing flame Oxygen Regulator Terms

  7. What are the fundamentals of fuel gas welding?

  8. Oxy-fuel welding is a process by which two pieces of metal are joined together. Acetylene is the most common fuel gas, but propane and MAPP gas may be used! Acetylene is the preferred fuel gas for welding.

  9. Oxyacetylene welding • This process is built upon two fundamental principles. • 1. Acetylene burned with oxygen produces a flame so intensely hot that it can be used to melt and fuse metals.

  10. Oxyacetylene Cutting • 2. A stream of oxygen directed against a piece of iron or steel, which has been heated to its kindling temperature, causes the metal to burn away so that it can be used to cut or shape the metal as desired.

  11. Each of the fuel gases have advantages and limitations.

  12. Acetylene (C2H2) • Acetylene is a fuel gas made of carbon and hydrogen, and is produced from the chemical reaction between calcium carbide and water. • Acetylene is colorless, but it has a distinct odor.

  13. Acetylene • The acetylene flame produces a theoretical temperature of 6300°F and a measurable temperature of 5800°F. • Acetylene is stored in a free state under a maximum pressure of15 psi. • Acetylene is very unstable! It can be made to break down by heat or shock and explode.

  14. The results of storing/handling/transporting acetylene improperly!

  15. Proper transportation of Acetylene! Cylinders should remain upright to avoid pressure changes. Cylinders should not be laid over at more than a 45 degree angle. If a cylinder is laid down it should be given 24 hrs. to stand upright before use.

  16. Acetylene • Under a pressure of 29.4 psi, or greater it becomes self-explosive and the slightest shock will set it off. • Acetylene, when dissolved in acetone, can be compressed into cylinders at pressures up to 250 psi.

  17. Acetylene • The acetylene cylinder is filled with porous materials such as balsa wood, charcoal, shredded asbestos, organic pith, or Portland cement. • These materials are used to decrease the size of the open spaces in the cylinder.

  18. Acetylene • Acetone, a colorless, flammable liquid, is added until about 40 percent of the porous material is filled. • The filler material acts as a sponge and absorbs the acetone, which in turn absorbs the acetylene.

  19. Acetylene • The acetylene cylinder is equipped with safety plugs with a low-melting alloy center that melts at 212°F. • Holes are too small to permit a flame to burn back into the cylinder, should the escaping acetylene become ignited.

  20. MAPP • MAPP, methylacetylene propadiene, is a stabilized methylacetylene. A gas refining by product. (requires special torch tips) • It combines the high energy characteristics of acetylene with the handling and storage features of liquefied petroleum gases.

  21. MAPP • C3H4 has a flame temperature of 5300°F. • The bushy flame makes welding difficult with MAPP gas.

  22. Propane • Propane, C3H8 , has a maximum flame temperature of 5300°F. (Again it requires a different torch tip.) • The volume of oxygen required to develop the 5300°F produces an oxidizing flame that is unacceptable for welding iron and steel.

  23. The oxygen used in the oxyacetylene process is manufactured from liquid air and stored in hollow steel cylinders.

  24. Oxygen • Oxygen is a tasteless, colorless, odorless gas that is slightly heavier than air, and is nonflammable. • When combined with other elements, it will support combustion.

  25. Oxygen • Commercial oxygen is supplied to users in seamless steel cylinders that are charged with oxygen to a pressure of about 2200 psi at 70°F. • The pressure will increase and decrease as the temperature changes.

  26. Oxygen • The oxygen cylinder has a valve made of tobin bronze.( Bronze will not produce sparks) • Since bronze is soft, protection must be provided to prevent it from being broken or knocked off. • Such protection is provided by a steel cap that is threaded to the top of the cylinder that covers the valve during transportation and storage.

  27. Oxygen • The oxygen cylinder valve has a double-seat, the second seat serving to prevent leakage around the valve stem and the valve when it is fully opened.

  28. How are fuel gas welding equipment and supplies selected?

  29. Purchase equipment of good quality from a reliable dealer who will give you service.

  30. There are several pieces of equipment and procedures necessary for safe fuel gas welding.

  31. Welding Equipment • Several sizes of cylinders are available for use in fuel gas welding. • Large cylinders hold 244 cu. ft., medium cylinders hold 122 cu. ft., and small cylinders hold only 80 cu. ft. of oxygen. • Common acetylene cylinders have volumes of 125 to 250 cu. ft.

  32. Welding Equipment • Oxygen and acetylene fittings are not interchangeable. • Oxygen fittings have right-handed threads • Acetylene fittings have either left-handed threads or a smaller size right-hand connection.

  33. Acetylene Fittings Acetylene torch and hose fittings always have a groove machined into the middle of the fitting as a reminder that the threads are reversed.

  34. Welding Equipment • There is a regulator attached to each of the tank valves. • The regulator is a device used to vary line pressure on a tank. • Each regulator has a diaphragm adjusting screw to vary the line pressure, and has two gauges: one showing cylinder pressure and one showing line pressure.

  35. Welding Equipment • The hoses used are colored: one green and one red. • The green hose is used for oxygen and has fittings with right-hand threads. • The red hose is used for the fuel gas and has left-handed fittings.

  36. Welding Equipment • The hoses connect the blowpipe to the regulators. • The blowpipe is a mixing chamber. • The two gases are mixed and delivered to the tip ready to burn. • The blowpipe has a valve to control the oxygen and one to control the acetylene.

  37. Torch Blow pipes Welding tip assortment

  38. Welding Equipment • There are different tips that are attached to the blowpipe to perform different tasks. • A welding tip is used for welding pieces together and a cutting attachment with a tip is used to cut metal. • Special tips are available to perform other tasks such as heating.

  39. Welding Equipment • Welding goggles or face shields, filter out ultraviolet and infrared rays and protect the operator’s eyes. • A No. 5 lens is satisfactory for light-duty oxy-fuel gas welding. • A friction lighter should be utilized to light the blowpipe.

  40. Welding Equipment • Gauntlet gloves, made of leather, asbestos, or other material that does not burn readily, should be worn when welding or cutting. • Be sure the gloves are free from oil or grease because such materials are dangerous when in contact with oxyacetylene equipment.

  41. Welding Equipment • The cylinders should be chained in an upright position when used and stored. • The safety caps should not be removed until the cylinders are secured. • Oxy-fuel gas cylinders should be equipped with both reverse flow check valves and flash arrestors. • Check valve annually by simply blowing through them opposite of the gas flow!

  42. Welding Equipment • A flashback is a fire inside the blowpipe. • When a flashback occurs in an oxyacetylene unit, flame physically travels up the welding tip and through one or both of the hoses to the regulator.

  43. How is fuel gas welding equipment set-up for use?

  44. Following proper procedures when setting-up the fuel gas welding equipment will insure that there are no gas leaks and accidents can be avoided.

  45. General procedures are as follows:

  46. Fuel Gas Welding Eqt. Set-Up • Place the cylinders in a cart and fasten them together with a chain or fasten the cylinders in some other manner to prevent them from being tipped over while in storage or use. • If an acetylene cylinder is tipped on its side, it should be set upright for at least 30 minutes before being used.

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