a current of electricity. Copper conducts electricity really well; by comparison, stainless steel isn’t a great conductor of electricity.
❯❯ Strength is pretty self-explanatory: How much external force can a metal withstand without breaking? This one is very important for welding. Steel is a strong metal, but zinc isn’t.
You can read up on many more properties of metal, and the more you know, the more easily you can make smart decisions about how to weld those metals effectively.
Not all metals are widely used for welding, of course, and you probably won’t work with a huge range of metals in your welding shop until you’ve been welding for a while. That’s completely fine, however, because plenty of exciting welding projects – both fabricating and repairing – involve only a few select metals. (See “If You Can’t Beat ’Em, Join ’Em: Understanding Why Welding Matters” earlier in the chapter for more on those divisions.) For example, most of the welding practice exercises I walk you through in this book, as well as the welding projects I detail in Part 5, focus on three metals: steel, stainless steel, and aluminum. These three are the most commonly used metals for beginning welders, and you should take the time to get to know them. In the following sections, I give you a quick look at each one.
Steel is a strong, versatile metal that you’ll use all the time in your welding projects. You may not realize it, but steel is really an alloy made up of iron and less than 2 percent of another material. Carbon is often used in steel alloys, and you can find three different levels of carbon steel: low-, medium-, and high-carbon steel. The more carbon in the steel, the stronger the alloy is.
You should use steel in your welding projects when you’re looking for a strong metal that’s pretty easy to weld and doesn’t break the bank when you’re buying your materials. You can use any welding process I describe in this book on steel, so versatility is also one of its strong suits. But steel also has its downsides. For one, it’s heavy. If you want your fabricated project to be light, steel probably isn’t your best bet. Steel is also prone to rusting and scaling (flaking off due to oxidation), so you have to spend a fair amount of time cleaning it up (often with a grinder) before and sometimes during welding.
Stainless steel is amazing stuff. It has a lot of the good qualities that regular steel has (see the preceding section), but it also offers one added bonus: It resists corrosion (rust, for example) like a champ. You can put a piece of stainless steel out in the yard and let it get rained on for six weeks, and when you bring it back inside it probably won’t have a single spot of rust on it. Incredible!
How does stainless steel provide such remarkable resistance to corrosion? Its alloy contains 10 to 30 percent chromium (the rest is iron, although sometimes other metals, such as nickel, are also added to the alloy).
You can weld stainless steel with all three of the major types of arc welding (stick, mig, and tig). It’s a great choice if you want your project to resist rusting or to have hygienic surfaces (those that don’t harbor bacteria and other microscopic critters).
Like stainless steel, aluminum is great at resisting corrosion. And aluminum offers another pretty terrific characteristic: It’s lightweight. Compared to steel and stainless steel, aluminum is a real featherweight.
Pure aluminum is a popular choice for welders, but aluminum alloys are also frequently used. Copper, manganese, and zinc are just a few of the metals that are often alloyed with aluminum to produce enhanced characteristics in the finished product.
If you’re going to be welding aluminum, I recommend going with tig welding. It just makes for a cleaner, easier job. If tig isn’t an option, take mig welding; you can stick weld aluminum, but it’s not ideal – your choices for stick electrodes are going to be limited, and you’re probably going to have a difficult time maintaining the correct arc length.
Taking the Time to Understand Welding Safety
Welding utilizes some pretty extreme forces and materials. Most modern welding requires tremendous amounts of electricity, which of course can create a risk for electric shock. No matter what kind of welding you pursue, you’re always going to be working around some incredible levels of heat, too, and those kinds of temperatures can harm you, other people, and your property in myriad ways. The metals you weld are sometimes sharp and often heavy, so with them you can get that rare and unfortunate double threat for lacerations and back injuries. Finally, you can’t forget other potential hazards that welding can create, including rays that can do serious damage to your eyes and fumes that can hurt your lungs and make you very sick.
Exploring Welding Methods
You can use heat to join metals in several different ways, but by far the most common welding methods used today are the arc welding methods. Arc welding is really pretty simple in theory: A large amount of electricity creates an arc between an electrode and a base metal, and that arc generates enough heat to melt the materials in the weld area and join them together to make a weld. In practice, however, arc welding includes three different welding processes (stick, mig, and tig) and has many different variables. For example, some kinds of arc welding use a shielding gas, whereas others don’t. The electrodes that you use in arc welding may be consumable, meaning they get melted and incorporated into the weld, or they may be non-consumable. The electricity used in arc welding is the source of many other variables, including amperage (which can vary a lot) and current (either alternating current or one of a couple different forms of direct current).
Because the three main types of arc welding are the most commonly used throughout the world and the easiest to pick up, those are the three that I devote the most attention to in the following sections (and throughout the book). However, they aren’t the only game in town, so I also include some information on those other types in case you want to branch out a bit.
Stick welding (also called shielded metal arc welding or SMAW) is an arc welding technique that has the distinction of being the most commonly used welding practice in the United States today. (More than 40 percent of all welding done now in the United States is stick welding.) The prevalence of stick is even stronger in construction; more than half of all construction-related welding uses stick. And the percentage is even higher in the maintenance industry.
Stick welding enjoys such popularity for three primary reasons. First off, it’s cheap. You can get into stick welding for less money than you’d spend to get
