Handbook-Oxy-Acet Flame

Hard- Surfacing, Building Fusion Welding Carbon Welding Non-Ferrous Metals Heating & Heat Treating Braze Welding Welding Cast Iron Welding Ferrous Metals Brazing & Soldering Equipment Set-Up Operation Equipment For OXY-Acet Structure of Steel Mechanical Properties of Metals Oxygen & Acetylene OXY-Acet Flame Physical Properties of Metals How Steels Are Classified Expansion & Contraction Prep For Welding OXY-Acet Welding & Cutting Safety Practices Manual Cutting Oxygen Cutting By Machine Appendices Testing & Inspecting

3 Continued on next page... It is this two-stage combustion process which produces the well-defined inner cone in the oxy-acetylene flame. The first stage of reaction takes place at the boundary between the inner cone and the pale blue outer flame. The second stage takes place in the outer flame. If the proportion of acetylene supplied to the tip is increased, a white ”feather” appears around the inner cone. This feather contains white-hot particles of carbon which, for lack of sufficient oxygen in the original mixture, cannot be oxidized to carbon monoxide at the inner cone boundary. On the other hand, if the proportion of oxygen fed to the tip is increased, the inner cone will shorten noticeably and the noise of the flame will increase. Flame Adjustment For most welding, a neutral flame is desired. Not even a skilled welder can distinguish visually between a true neutral flame and a slightly oxidizing flame. But anyone who knows what to look for can tell the difference between a neutral flame and a flame with a slight excess acetylene feather. Therefore, we always adjust the flame to neutral from the excess-acetylene side. We start with an excess of acetylene when we light the torch and then increase the flow of oxygen until the excess-acetylene feather just disappears. If the flame is then too large for our purposes, we reduce the oxygen flow first, to produce a feather, then cut back on the acetylene flow until the feather just disappears. Occasionally, you will read instructions which call for a slight excess of oxygen, or a slight excess of acetylene. Generally speaking, such instructions imply that a slight excess of one gas cannot cause trouble, but that a slight excess of the other gas may. Unless otherwise defined, a slight excess of acetylene means that you can just see a short ”feather”. A slight excess of oxygen means that you’ve reduced the acetylene flow until the ”feather” has disappeared, then reduced it a bit more to cause a slight shortening of the inner cone. For some operations, a substantial excess of acetylene is desired. The amount of excess is then expressed numerically, as ”2X”, ”3X”, or perhaps ”1-1/2X”. As shown in Fig. 4-4, in a ”2X” excess acetylene flame the feather (measured from the end of the torch tip, not the end of the inner cone) is twice as long as the inner cone. When a precise statement of amount of excess oxygen is required, it is always expressed in terms of the shortening of the inner cone from the neutral flame length. Again, this is shown in Fig. 4-4.