Learning how to solder w/ proper soldering techniques is a fundamental skill every maker should master. In this tutorial, we outline the basics of soldering irons, soldering stations, types of solder, desoldering and safety tips. Whether you’re building a robot or working with Arduino, knowing how to solder will come in handy.
FREE EBOOK (PDF) – Learn How To Solder (17 Page Ebook)
If you were to take apart any electronic device that contains a circuit board, you’ll see the components are attached using soldering techniques. Soldering is the process of joining two or more electronic parts together by melting solder around the connection. Solder is a metal alloy and when it cools it creates a strong electrical bond between the parts. Even though soldering can create a permanent connection, it can also be reversed using a desoldering tool as described below.
The good thing about learning how to solder is the fact that you don’t need a lot to get started. Below we’ll outline the basic tools and materials you will need for most of your soldering projects.
Soldering Iron
A soldering iron is a hand tool that plugs into a standard 120v AC outlet and heats up in order to melt solder around electrical connections. This is one of the most important tools used in soldering and it can come in a few variations such as pen or gun form. For beginners, it’s recommended that you use the pen style soldering iron in the 15W to 30W range. Most soldering irons have interchangeable tips that can be used for different soldering applications. Be very cautious when using any type of soldering iron because it can heat up to 896′ F which is extremely hot.
Soldering Station
A soldering station is a more advanced version of the basic standalone soldering pen. If you are going to be doing a lot of soldering, these are great to have as they offer more flexibility and control. The main benefit of a soldering station is the ability to precisely adjust the temperature of the soldering iron which is great for a range of projects. These stations can also create a safer workspace as some include advanced temperature sensors, alert settings and even password protection for safety.
Soldering Iron Tips
At the end of most soldering irons is an interchangeable part known as a soldering tip. There are many variations of this tip and they come in a wide variety of shapes and sizes. Each tip is used for a specific purpose and offers a distinct advantage over another. The most common tips you will use in electronics projects are the conical tip and the chisel tip.
Conical Tip – Used in precision electronics soldering because of the fine tip. Because of its pointed end, it’s able to deliver heat to smaller areas without affecting its surroundings.
Chisel Tip – This tip is well-suited to soldering wires or other larger components because of its broad flat tip.
Brass or Conventional Sponge
Using a sponge will help to keep the soldering iron tip clean by removing the oxidation that forms. Tips with oxidation will tend to turn black and not accept solder as it did when it was new. You could use a conventional wet sponge but this tends to shorten the lifespan of the tip due to expansion and contraction. Also, a wet sponge will drop the temperature of the tip temporarily when wiped. A better alternative is to use a brass sponge as shown on the left.
Soldering Iron Stand
A soldering iron stand is very basic but very useful and handy to have. This stand helps prevent the hot iron tip from coming in contact with flammable materials or causing accidental injury to your hand. Most soldering stations come with this built in and also include a sponge or brass sponge for cleaning the tip.
Solder
Solder is a metal alloy material that is melted to create a permanent bond between electrical parts. It comes in both lead and lead-free variations with diameters of .032″ and .062″ being the most common. Inside the solder core is a material known as flux which helps improve electrical contact and its mechanical strength.
For electronics soldering, the most commonly used type is lead-free rosin core solder. This type of solder is usually made up of a Tin/Copper alloy. You can also use leaded 60/40 (60% tin, 40% lead) rosin core solder but it’s becoming less popular due to health concerns. If you do use lead solder, make sure you have proper ventilation and that you wash your hands after use.
When buying solder, make sure NOT to use acid core solder as this will damage your circuits and components. Acid core solder is sold at home improvement stores and is mainly used for plumbing and metal working.
As mentioned earlier, solder does come in a few different diameters. The thicker diameter solder (.062″) is good for soldering larger joints more quickly but it can make soldering smaller joints difficult. For this reason, it’s always a good idea to have both sizes on hand for your different projects.
Helping Hand (Third Hand)
A helping hand is a device that has 2 or more alligator clips and sometimes a magnifying glass/light attached. This clips will assist you by holding the items you are trying to solder while you use the soldering iron and solder. A very helpful tool to have in your makerspace.
Now that you know what tools and materials are required, it’s time to briefly discuss ways of staying safe while soldering.
Soldering irons can reach temperatures of 800′ F so it’s very important to know where your iron is at all times. We always recommend you use a soldering iron stand to help prevent accidental burns or damage.
Make sure you are soldering in a well ventilated area. When solder is heated, there are fumes released that are harmful to your eyes and lungs. It’s recommended to use a fume extractor which is a fan with a charcoal filter that absorbs the harmful solder smoke you can visit sites like Integrated Air Systems for air filtration systems.
It’s always a good idea to wear protective eye wear in case of accidental splashes of hot solder. Lastly, make sure to wash your hands when done soldering especially if using lead solder.
Before you can start soldering, you need to prep your soldering iron by tinning the tip with solder. This process will help improve the heat transfer from the iron to the item you’re soldering. Tinning will also help to protect the tip and reduce wear.
Step 1: Begin by making sure the tip is attached to the iron and screwed tightly in place.
Step 2: Turn on your soldering iron and let it heat up. If you have a soldering station with an adjustable temp control, set it to 400′ C/ 752′ F.
Step 3: Wipe the tip of the soldering iron on a damp wet sponge to clean it. Wait a few seconds to let the tip heat up again before proceeding to step 4.
Step 4: Hold the soldering iron in one hand and solder in the other. Touch the solder to the tip of the iron and make sure the solder flows evenly around the tip.
You should tin the tip of your iron before and after each soldering session to extend its life. Eventually, every tip will wear out and will need replacing when it becomes rough or pitted.
To better explain how to solder, we’re going to demonstrate it with a real world application. In this example, we’re going to solder an LED to a circuit board.
Step 1: Mount The Component – Begin by inserting the leads of the LED into the holes of the circuit board. Flip the board over and bend the leads outward at a 45′ angle. This will help the component make a better connection with the copper pad and prevent it from falling out while soldering.
Step 2: Heat The Joint – Turn your soldering iron on and if it has an adjustable heat control, set it to 400’C. At this point, touch the tip of the iron to the copper pad and the resistor lead at the same time. You need to hold the soldering iron in place for 3-4 seconds in order to heat the pad and the lead.
Step 3: Apply Solder To Joint – Continue holding the soldering iron on the copper pad and the lead and touch your solder to the joint. IMPORTANT – Don’t touch the solder directly to the tip of the iron. You want the joint to be hot enough to melt the solder when it’s touched. If the joint is too cold, it will form a bad connection.
Step 4: Snip The Leads – Remove the soldering iron and let the solder cool down naturally. Don’t blow on the solder as this will cause a bad joint. Once cool, you can snip the extra wire from leads.
A proper solder joint is smooth, shiny and looks like a volcano or cone shape. You want just enough solder to cover the entire joint but not too much so it becomes a ball or spills to a nearby lead or joint.
Now it’s time to show you how to solder wires together. For this process, it’s recommended to use helping hands or other type of clamp device.
Begin by removing the insulation from the ends of both wires you are soldering together. If the wire is stranded, twist the strands together with your fingers.
Make sure your soldering iron is fully heated and touch the tip to the end of one of the wires. Hold it on the wire for 3-4 seconds.
Keep the iron in place and touch the solder to the wire until it’s fully coated. Repeat this process on the other wire.
Hold the two tinned wires on top of each other and touch the soldering iron to both wires. This process should melt the solder and coat both wires evenly.
Remove the soldering iron and wait a few seconds to let the soldered connection cool and harden. Use heat shrink to cover the connection.
The good thing about using solder is the fact that it can be removed easily in a technique known as desoldering. This comes in handy if you need to remove a component or make a correction to your electronic circuit.
To desolder a joint, you will need solder wick which is also known as desoldering braid.
Step 1 – Place a piece of the desoldering braid on top of the joint/solder you want removed.
Step 2 – Heat your soldering iron and touch the tip to the top of the braid. This will heat the solder below which will then be absorbed into the desoldering braid. You can now remove the braid to see the solder has been extracted and removed. Be careful touching the braid when you are heating it because it will get hot.
Optional – If you have a lot of solder you want removed, you may want to use a device called a solder sucker. This is a handheld mechanical vacuum that sucks up hot solder with a press of a button.
To use, press the plunger down at the end of the solder sucker. Heat the joint with your soldering iron and place the tip of the solder sucker over the hot solder. Press the release button to suck up the liquid solder. In order to empty the solder sucker, press down on the plunger.
FREE EBOOK (PDF) – Learn How To Solder (17 Page Ebook)
FAQs
How do you solder for beginners? ›
You'll need a soldering iron something with which to clean your tip like a wet sponge or a brass
How do you solder step by step? ›- Step 1 – Melting the Solder. This is the very first step in the entire wave soldering process. ...
- Step 2 – Cleaning the Components. This is a very crucial step to be carried out. ...
- Step 3 – Placement of the PCB. ...
- Step 4 – Application of Solder. ...
- Step 5 – Cleaning.
- Step 1: Solder. For Simple Bots, the ideal solder is . ...
- Step 2: Turn It On. Before any soldering can be done, the soldering iron needs to be turned on and heated to the desired temperature. ...
- Step 3: Picking It Up. ...
- Step 4: Putting It Down. ...
- Step 5: Tin the Tip. ...
- Step 6: Strip Wires. ...
- Step 7: Twist. ...
- Step 8: Solder.
Everyone can learn how to solder. And it's an important skill to know want to build electronics. Basic soldering is easy. All you need is a soldering iron and some solder.
What is the most common mistake in soldering? ›- Disturbed Joint. A disturbed joint typically occurs as a result of movement while the alloy is solidifying. ...
- Solder-Starved Joint. A solder-starved joint is just that: a joint that does not have enough solder. ...
- Untrimmed Leads. ...
- Cold Solder Joint. ...
- Solder Bridge.
To solder, heat the connection with the tip of the soldering iron for a few seconds, then apply the solder. Heat the connection, not the solder. Hold the soldering iron like a pen, near the base of the handle. Both parts that are being soldered have to be hot to form a good connection.
What are the 4 stages of soldering? ›- Step One: Good Fit. This just means that the two pieces of metal that you are joining together, fit as closely as possible. ...
- Step 2: Clean Metal/Solder/Flux/Hands. ...
- Step 3: Heat. ...
- Step 4: Flux.
When joining two metals in a soldering process, like used in PCB assembly, flux is required to achieve a true metallurgic bond. That ensures the solder joint doesn't crack or come loose even with the day-to-day wear-and-tear.
What are the 3 types of soldering? ›- Soft soldering (90 °C – 450 °C) The solder melts alloys containing lead that has a low melting point. ...
- Hard soldering (above 450 °C) Brass and silver are usually hard soldered, with the use of a flame via blowtorch to melt the filler metal. ...
- Brazing (above 450 °C)
It is essential to have the right tools to work with when practicing soldering. You need a soldering iron, solder, flux, solder wick, and a sponge. The soldering iron is an essential tool because it heats up the solder and melts it. You also need to have a clamp or helping hands to hold the wire in place.
How do you prepare metal for soldering? ›
Metal must be clean. Solder won't flow on a dirty or greasy surface. Make sure that the metal is clean before soldering. Clean your metal by giving it a quick scrub with a non-bleach cleanser like "Bar Keepers Friend", metal cleaner like "Penny Brite" or place it in your pickle pot and let sit for a few minutes.
Where do you put flux when soldering? ›Flux may be solid, pasty, or liquid in form depending on how and where it will be used. For hand soldering, flux can be applied by a flux pen or is usually in the core of the solder wire that most technicians use.
How hard is soldering done? ›Hard soldering means soldering with solders of a liquidus temperature that lies above 450 ° C. In practice, the operating temperature is higher than 600 ° C. Hard soldering differs from welding in that: The melting temperature of the solder is lower than that of the base material.
How do you solder smoothly? ›Making Smooth Solder Seams and Touch-Up Soldering - YouTube
Why is soldering so hard? ›If you let the solder sit on the iron, the flux quickly boils off (the fumes are from flux, not the lead). And without flux, soldering becomes almost impossible. Flux removes oxidation from metals, and it's crucial because solder won't stick to oxidized metals, and metals oxidize very quickly at soldering temperatures.
Is soldering a good skill? ›Soldering is one of the best ways to fix the components to the circuit and also an important skill in mastering the guitar basics quickly.
How long does it take solder to set? ›Solder won't fill spots that are cooler than its melting point. Fill the joint until solder drips out, then move on to the next joint. Give the joint 30 to 45 seconds to cool and harden before putting pressure on it.
What should you not do when soldering? ›1) Soldering Iron Safety • Never touch the element or tip of the soldering iron. It is very hot (about 400°C) and will burn. Hold wires to be heated with tweezers, pliers or clamps to avoid receiving burns from objects that are heated. Keep the cleaning sponge wet during use.
Why will my solder not stick? ›This issue is usually caused by the soldering iron being set to an improper temperature, or the iron itself has a wattage that is too low for the solder size you are using. If you notice your solder isn't sticking, check your solder material and compare it to the wattage of your soldering iron.
Why does my solder ball up? ›Solder balls are caused by gassing and spitting of the flux on the surface of the wave or by solder literally bouncing back from the solder wave. This is caused by excessive back flow in air or too high a drop in nitrogen environments.
What is the correct sequence in using a soldering iron? ›
Procedure: (1) Create a mechanical connection (e.g., by twisting wires together); (2) let iron heat up; (3) apply solder to tip of iron (called tinning); (4) heat wires with iron; (5) bring solder in contact with heated wires until solder melts and flows; and (6) let wires cool.
How do you solder two pieces of metal together? ›How to Solder Metal - YouTube
What should I solder on top of? ›Ceramic soldering boards are an ideal surface to do all types of soldering and annealing on. Ceramic is a really good material for distributing heat, as the surface both reflects and absorbs heat. These boards are great for beginners, because they're so versatile, and also quite durable.
Is soldering a permanent fixing? ›Soft soldering, brazing and welding are permanent methods of joining metal parts using intense heat. In simple terms, soldering and brazing cannot melt the metal parts together but the joint can be heated and filled with a 'filler metal' ensuring a strong and permanent bond.
What temperature should I reflow solder? ›The typical reflow temperature range for Pb-Free (Sn/Ag) solder is 240-250°C with 40-80 seconds over 220°C.
Is flux used in soft soldering? ›Fluxite is a traditional grease paste flux used for Soft Soldering. It can be brushed onto the surfaces to be soldered and will also adhere to the solder stick prior to applying the heat. Fluxite is also Zinc Chloride activated and residues require removal when the soldering process is complete.
Can I use Vaseline as flux? ›Can You Use Vaseline as Flux? Yes, Vaseline works just as well as commercial flux, and you can even buy a generic brand. Petroleum jelly is primarily made from waxes and mineral oils so that it won't corrode your components. Plus, it cleans away the gunk and eliminates metal oxides that could compromise your bond.
Can vinegar be used as flux? ›Vinegar is acid. That is exactly what fluxes are. Use it for a flux if you want.
What will happen if you solder without flux? ›It's ok, if you can do it, but it's very difficult to solder without flux. The flux breaks down the oxide layers on the metal surfaces and allows the solder to "wet" them. If it doesn't wet, it doesn't make a connection.
What are the 3 types of soldering? ›- Soft soldering (90 °C – 450 °C) The solder melts alloys containing lead that has a low melting point. ...
- Hard soldering (above 450 °C) Brass and silver are usually hard soldered, with the use of a flame via blowtorch to melt the filler metal. ...
- Brazing (above 450 °C)
Do I need flux to solder? ›
When joining two metals in a soldering process, like used in PCB assembly, flux is required to achieve a true metallurgic bond. That ensures the solder joint doesn't crack or come loose even with the day-to-day wear-and-tear.
How do you solder two pieces of metal together? ›How to Solder Metal - YouTube
What equipment is needed for soldering? ›The common tools include soldering iron, hot air guns, and de-soldering tools. A soldering station is commonly used to solder sensitive electronic components as you can set the precise temperature of the soldering tip. You have to plug the soldering station into a power outlet and set the temperature to the lowest.
What makes soldering become bad soldering? ›Poor tip maintenance is one of the leading causes of badly hand-soldered joints. Any contaminants or oxidation on the tip would decrease the solder iron's ability to conduct heat, which in turn would reduce the quality of your solder joints.
What type of solder is strongest? ›A 60-40 solder (60% tin, 40% lead) is the most expensive, but it makes the strongest bond and is easiest to work with because of its low melting point.
What size solder do I need? ›For work that involves surface mounted devices, I prefer 0.5 mm diameter solder. For leaded parts and connectors, I use 0.7 mm diameter solder. For most electronics work, solder in the range of 0.4 - 1.0 mm in diameter will work well.
Can you use Vaseline as flux for soldering? ›Yes, Vaseline works just as well as commercial flux, and you can even buy a generic brand. Petroleum jelly is primarily made from waxes and mineral oils so that it won't corrode your components. Plus, it cleans away the gunk and eliminates metal oxides that could compromise your bond.
Can vinegar be used as flux? ›Vinegar is acid. That is exactly what fluxes are. Use it for a flux if you want.
Why does my solder not stick? ›This issue is usually caused by the soldering iron being set to an improper temperature, or the iron itself has a wattage that is too low for the solder size you are using. If you notice your solder isn't sticking, check your solder material and compare it to the wattage of your soldering iron.
What metal Cannot be soldered? ›| Solderability | Metal |
|---|---|
| Fair | Carbon steel Low alloy steel Zinc Nickel |
| Poor | Aluminium Aluminium bronze |
| Difficult | High alloy steel Stainless steels |
| Very Difficult | Cast iron Chromium Titanium Tantalum Magnesium |
What metals does solder not stick to? ›
For example you will never get solder to stick to Aluminum. With compatible metals, however, you must use a suitable flux after preparing the metal surface to remove any oxidation. The flux will prevent new oxidation from forming when you heat the metal.
How do you prepare metal for soldering? ›Metal must be clean. Solder won't flow on a dirty or greasy surface. Make sure that the metal is clean before soldering. Clean your metal by giving it a quick scrub with a non-bleach cleanser like "Bar Keepers Friend", metal cleaner like "Penny Brite" or place it in your pickle pot and let sit for a few minutes.
What is the most important hand tool in soldering? ›A soldering iron is a hand tool that plugs into a standard 120v AC outlet and heats up in order to melt solder around electrical connections. This is one of the most important tools used in soldering and it can come in a few variations such as pen or gun form.
Is soldering difficult? ›A good soldering technique is not hard, and it's in fact incredibly easy. It doesn't take years and years of practice to master the art of soldering. You just need the right tools and know very simple techniques. A good quality soldering is a piece of cake and anyone can master it within few attempts.
What are the different types of soldering? ›Soldering methods fall into three main categories: hand soldering, reflow soldering, and wave soldering. Hand soldering forms each joint individually by simultaneously applying a hot soldering iron and a wire made of solder to the two surfaces to be joined.