Welding helmet settings are an often overlooked part of the welding process. You need to get them right for each job, so you don’t suffer from migraines or, in extreme cases, permanent blindness.
When it comes to choosing the right welding helmet setting, you need to consider a few things.
It is a very important decision to make when you are getting started in this hobby. You need to familiarize yourself with all the different settings and the ones that you will use the most.
Knowing about welding helmet setting for MIG is crucial because it affects visibility and weld quality. These two are interrelated, so this article discusses how you can improve both of them by setting your welding helmet correctly.
Welding Helmet Setting For MIG
For MIG welding, the recommended helmet setting is number 10 to 13 shade. The best way to achieve this is by turning the knob on your helmet until it reaches your desired setting. This should be done before you begin any welding.
In order to set up your welding helmet for MIG, you need to make sure that it is set to the appropriate voltage. This will vary depending on the type of metal you are welding, but generally speaking, you want to set your voltage to between 10 and 24 volts.
You can also adjust the current (how much power is flowing) according to how thick or thin your material is. It’s a good idea to use as low of a current as possible without causing distortion or melting of your metal.
For thin materials like aluminum or steel sheets, you should aim for around 100 amps. For thicker materials like stainless steel or cast iron, aim for about 300 amps.
How Can you Set the Helmet Settings for MIG Welding?
When you’re ready to weld, your helmet should be set to the appropriate parameters. You can use these instructions to find the best settings for MIG welding.
Step 1: Set the time delay for your helmet. This will allow you to have more control over your welding hand movements and reduce the risk of burns.
Step 2: Set the helmet to a suitable display mode for your needs, such as Auto-Darkening or Transflective Mode.
Step 3: Make sure that you are using an arc voltage control setting between 10-15 volts. This will help prevent thermal shock and ensure that the arc is stable enough to complete a weld without any issues.
Step 4: Adjust the wire feed speed until it matches your material thickness and type; this ensures that there are no gaps between each layer of metal being laid down by your electrode.
Step 5: If you do not have auto darkening welding helmet, then adjust the shade of your welding helmet according to welding task requirements.
Important Guide to Choosing the Right Shade Lens for MIG Welding
It is important to choose the right shade lens for MIG welding. Shade lenses control the amount of light that enters your eyes during welding. They are made from different materials, depending on their purpose and how much protection they offer.
There are many different types of shade lenses available. Now, I will guide you about various shade levels on the basis of different amperages & different MIG welding types in the form of a table:
|No.||MIG Welding Type||Amps Range||Shade Number|
|1.||MIG aluminum welding||80-100||10|
|2.||MIG aluminum welding||100-175||11|
|3.||MIG aluminum welding||175-250||12|
|4.||MIG aluminum welding||250-350||13|
|5.||MIG flux core welding||125-175||10|
|6.||MIG flux core welding||175-225||11|
|7.||MIG flux core welding||225-275||12|
|8.||MIG flux core welding||275-350||13|
|9.||MIG mild steel welding||80-100||10|
|10.||MIG mild steel welding||100-175||11|
|11.||MIG mild steel welding||175-300||12|
|12.||MIG mild steel welding||300-500||13|
Things to Consider Before Choosing a Helmet Lens Shade
When you’re looking for a welding helmet lens shade, there are a few things to consider.
First, pay attention to the lens shade’s tinting capabilities. The best ones have several different shades that you can use depending on what kind of light conditions you’re working in. The tinting capabilities will also help protect your eyes from injury when working with hot metal or sparks.
Second, what kind of environment do you work in? If you’re outside all day, you’ll want something that offers maximum protection from UV rays and glare. If you work inside, you may prefer something more lightweight so as not to get too hot during use.
Third, how much do you want to spend? There are many different types of welding lens shades available at various price points for every budget!
How Can you Find the Right Shade Number for MIG Welding?
Finding the right shade number for MIG welding is not a difficult task. The process involves several steps, and it is important to stay organized throughout the process.
The first step in finding the right shade number for MIG welding is to determine what type of metal you are working with. This will help determine whether or not it is necessary to use a filler rod when welding.
The second step in finding the right shade number for MIG welding is determining how much heat will be required to melt your metal during welding. This will help determine whether or not it is necessary to use more than one type of wire while welding.
The third step in finding the right shade number for MIG welding is determining what color you would like your welded metal to be after it has been melted by the heat from an arc produced by an electric current from a welder (also known as an electrode).
Also See: Best Professional Auto Darkening Welding Helmet
Advantages of Welding Helmets
Welding helmets protect the wearer from intense heat and prevent harmful ultraviolet (UV) rays from reaching the eyes and face. They have a protective shield that covers the eyes, as well as a visor that protects them from flying sparks and other debris.
Here are some advantages of using welding helmets:
1. Protects Against UV Rays:
Welding helmets protect you from ultraviolet (UV) rays that can cause eye damage. UV rays can be extremely harmful when you’re exposed to them for long periods of time, so it’s important to protect your eyes when you’re working outdoors or inside without proper ventilation.
2. Keeps Out Dust:
Welding helmets also keep out dust particles and other contaminants that might get into your eyes while working on projects outdoors or indoors. This can help prevent eye irritation and infections that can develop if there are too many particles in your field of vision while you’re working on something important!
3. Keeps Out Debris:
When working with metal pieces or parts that could fall off while they’re being shaped by a machine (like a lathe), this type of helmet also helps keep out anything else flying around in the air, such as small pieces of metal shavings or other debris that could damage your eyesight if they hit mistakenly.
4. Auto-Darkening Feature:
Some helmets have an auto-darkening function that will automatically adjust its viewing screen as soon as you start welding so that it doesn’t get damaged by high temperature or bright light.
This makes it easy for you to work on any project without having to worry about damaging your helmet’s viewing screen or changing settings on the fly every time you want to do something different with your equipment.
5. Clear Vision:
Another advantage of these helmets is that they provide a clear view of what you are doing without losing sight of any part of the object being worked on or any part of the environment around it.
They are also very durable and have adjustable straps so they can fit snugly on your head without causing discomfort while working for long periods of time.
How Many Types of Welding Helmet Shades Exist?
There are a few different types of shades that you can choose from when you’re purchasing a welding helmet.
The most common shades are #8, #10, #12, and #13. These shades each refer to how dark they are, which means that they have varying levels of protection against light.
The #13 shade is the darkest shade available, while the #8 or 10 shade is the lightest shade available. You may also come across shades like #7 and #5 while shopping for welding helmets online or in stores, and these aren’t as common as some of the other shades, but they do exist nonetheless.
The darker your shade is (i.e., if it’s a 13), then the more protection your eyes have against the light; however, wearing a darker shade will also make it harder for you to see clearly because less light will be able to enter through its protective lens.
Safety Tips to Use Welding Helmets
Welding helmets are important safety tools that can help you avoid burns, eye damage, and other injuries during the welding process. However, like any tool, they need to be used correctly to be effective. Here are some tips for using welding helmets properly:
- Use a lens shade or filter on your helmet when welding outside or in bright light. This will protect your eyes from the glare that can cause eye strain and fatigue.
- Make sure your helmet is properly adjusted and fits snugly against your head so it doesn’t shift during use.
- Adjust your headband so that most of its weight sits on top of your head rather than at the back of your neck, where it might cause discomfort over time as you work with heavy equipment throughout the day (or night).
- Use hearing protection if necessary since there is always some noise associated with welding; this includes wearing earplugs while using a torch at night when others around may not be able to hear any warning signals coming from inside their own homes nearby (such as smoke alarms going off).
- Make sure that the lens of the lens is clean and clear before wearing it so that you can see everything clearly without any obstructions; otherwise, it could cause an accident while working with hot materials like molten metal!
How Can you Maintain your Welding Helmet?
With proper maintenance, your welding helmet can provide you with years of protection from the dangers of the job site.
However, if you neglect to keep up with regular cleaning and repair, not only will you be putting yourself at risk for serious injury, but you may also lose out on some of the benefits that come with a quality welding helmet.
Here are some tips for keeping your welding helmet in top condition:
- Clean the face shield regularly with soap and water or a solution of mild detergent and warm water. Rinse thoroughly with clean water and dry with a soft cloth.
- Remove any debris from inside the helmet with a soft brush or vacuum cleaner attachment (if applicable).
- Check all straps, buckles, and fasteners once per month to make sure they are secure and working properly. Repair or replace them if necessary according to the manufacturer’s instructions or if they show signs of wear or damage (i.e., broken stitching).
- If a replacement is required for any part of your helmet system (visor assembly, face shield), consult an authorized service provider for recommendations on replacement parts that meet ANSI Z87 standards.
If you were to take the time to fine-tune your helmet settings, you’d get a much better experience from your welding helmet.
MIG is among the most common welding processes, and it’s helped build some of the most iconic structures in history. This guide helped you with welding helmet setting for MIG welding.
Make sure to remember this article’s tips & guidelines in mind whenever you want to adjust your welding helmet settings for MIG welding purposes.
What setting should my welding helmet be?
It all depends on what you’re welding and for how long, but the most important thing to remember is that the lower the setting of your helmet’s shade, the more protection you receive. You also need to factor in that too low means you can’t see properly; I recommend starting at 10 or higher and adjusting from there.
How dark should your welding helmet be?
When deciding how dark your helmet should be, it is important to consider the environment in which you typically work. Considerations include where you will be working, with what material, and how much arc welding you will be performing. A good way to figure out the answer for yourself is to use your welding helmet for a day or two, note how dark it is when in use, then go back and look at its specifications. Shade 8 to 13 is recommended for welding projects.