What is Gas Welding: Definition, Types, Applications, and Advantages
What Is Gas Welding?
Gas welding is the process of joining two metal items together by melting and cooling parts of both. This is achieved by creating a very hot flame using oxygen and a fuel gas. There are a few main types of gas welding that use different gases such as acetylene, gasoline, MAPP (methylacetylene-propadiene propane), butane, propane, or hydrogen. Gas welding has been overtaken by electrical forms of welding in many applications, however, the portability, effectiveness, and simplicity of gas welding mean it still sees widespread use in most manufacturing industries.
Gas welding is a general term that covers a few subcategories of welding. Acetylene welding is another term used interchangeably with gas welding because acetylene is the most common welding fuel. Specific types of gas welding include oxy-acetylene, oxy-gasoline, MAPP, butane, propane, or hydrogen gas welding. Gas welding is important in the fabrication of metal products. It’s a simple, mobile, and economical method for joining metal parts.
How Gas Welding Works
Gas welding works by feeding both oxygen and fuel gas out of the end of a torch to produce a highly concentrated flame that can melt metal. Material is melted at the seam between two parts to create what is known as a weld pool. The pool then cools and bonds the pieces together to form a strong joint. The welder’s flame must be moved slowly to allow the joint to cool without oxidation which can create brittle connections.
There are certain parameters which, when altered, will have an effect on the weld being produced. Most welders use acetylene as fuel, so gas welding is often referred to as oxy-acetylene welding. However, hydrogen, propylene, and butane are also options. The fuel type will have an effect on the four main parameters of the welding process:
➤Temperature: The temperature of the gas welding flame is controlled by the oxygen-to-fuel ratio. More fuel means a lower temperature while less means a higher temperature. Different materials demand different temperatures based on their melting points.
➤Pressure: By adjusting the pressure ratio between the delivery of oxygen and the fuel gas, different flames can be obtained. Three distinct flames are possible: neutral, oxidizing, and carburizing. The neutral flame is the most common and is identifiable by its small bright white inner flame and larger blue flame. It is made by mixing near-equal amounts of oxygen and fuel gas. An oxidizing flame is created by mixing more oxygen than fuel gas. Its inner flame is much shorter and more pointed than the neutral flame and burns slightly hotter. Oxidizing flames are important for welding cast iron, brass, bronze, and zinc alloys. The carburizing flame, by contrast, is created by mixing more fuel gas than oxygen and is identifiable by a visible secondary flame between the short inner flame and the larger envelope flame. The carburizing flame is used for aluminum and aluminum alloys.
➤Speed: The speed at which a proper weld move is dictated by the time it takes to properly form a weld pool. The welder must be careful not to move so fast that the weld fails to complete, but must also not linger so long that they burn a hole through the metal.
➤Gun Position: The gun position and feed rate of the filler metal will determine the weld pool size. A weld pool that grows too large indicates that it has received too much heat, so the operator must move the gun parallel to the weld to deflect heat. Conversely, if the weld pool is too small, it is too cold and therefore the welder must position the gun nearly perpendicular to the weld. Additionally, more filler material necessitates more heat, so if the weld pool is too hot the welder can add filler material faster and vice versa.
The Five Main Types of Gas Welding
There are five main different types of gas welding. They differ by the fuel gas involved.
➤ Butane or propane welding
➤ Hydrogen gas welding
➤ MAPP gas welding
➤ Oxy-acetylene gas welding
➤ Oxy-gasoline gas welding
Applications of Gas Welding
One of the primary uses of gas welding services is repair work. This technique is better than most at bridging gaps between parts. Other applications of gas welding include:
➤ Fabrication of sheet metal
➤ Joining of aircraft parts
➤ Automotive chassis and frame fabrication
➤ Joining of high-carbon steel
Using a Gas Welder
The process for using a gas welder is below:
➤ Check if the setup is safe and secure. Ensure that the torch, hoses, regulators, and cylinders are attached correctly, and check that the nozzle is clear.
➤ Adjust the fuel gas with the nozzle’s regulator closed. Open the cylinder shut-off valve, and then slowly open the regulator to the right pressure. Once the right pressure is achieved, close the fuel gas shut-off valve at the torch.
➤ Repeat step two with the oxygen supply.
➤ Turn on only the fuel gas at the torch and ignite the flame. The flame will let off black smoke from unburnt carbon, so be careful not to inhale it. Open the fuel valve at the torch until the smoke has stopped.
➤ Open the oxygen valve at the torch and adjust it until you have the neutral, oxidizing, or carburizing flame that you need.
➤ Make sure the metal to be welded is correctly positioned on a heat-resistant material such as fire bricks.
➤ Before fully welding, place a tack weld at each end of the joint to prevent the pieces from moving during the process. To do this, hold the torch at a 45-degree angle close to the metal and move in a zigzag pattern between the metals, heating them until a weld pool forms. Once a weld pool forms, remove the heat.
➤ To weld the joint, create a weld pool by zigzagging the flame at a 45-degree angle across the two pieces of metal until a melted pool starts to form. Push the pool along by slowly moving the torch from one end to the other.
➤ Once the weld is complete, leave the metal to air-cool. Do not use water as this will make the weld brittle.
➤ When turning off the welding equipment, always turn off the fuel gas first and then the oxygen. If there is no more welding to be done, make sure to close the shut-off valves at the cylinders.
Advantages and Disadvantages of Gas Welding
Gas welding has many advantages, the best of which is its low cost. Other advantages are:
➤ It can join parts made of both ferrous and non-ferrous metals.
➤ It does not require electricity which means it can be used in isolated areas.
➤ It does not require high-rated skills.
➤ Welding equipment is portable, requiring only a fuel and oxygen tank, control valves, and a torch.
The main disadvantage of gas welding versus other forms is that it is limited to relatively thin sections of metal. Other disadvantages of gas welding are:
➤ It usually requires post-processing if aesthetics are important.
➤ The heat affects the mechanical properties of high-strength steel.
➤ It is slower than other methods because it doesn’t get as hot.
➤ Its lack of flux shielding can cause weld defects.