LPG Equipment, Gas Welding - Usages and Safety Tips

  The popular jewelry manufacturing procedure was already recognized for the use of gas welding in mid nineteenth century, but only a blend of hydrogen and oxygen was used in the process as, together, they formed a very intense and hot blaze https://sultanigas.co.uk/. It was the invention of acetylene at the end of the same century that shaped gas weld what it is today.

Acetylene is a gas that is formed by the chemical grouping of water and calcium carbide; in gas welding, this amalgam may provide flames up to 4000 degrees Fahrenheit. Currently, it is pretty common to use a combination of acetylene and oxygen in gas weld to acquire a higher temperature of 6000 deg. F.

The advantages of gas welding include lower costs, mobility of LPG equipment transport and flexibility, compared to the use of electric set ups.

Moreover, there is no difference in terms of performance since any metal can be welded, cut or heated using a gas weld tool on oxygen and acetylene. If you choose gas weld, ensure that cylinders need to be kept in a vertical order, and that the caps of valve should be in right place when the cylinders are not in use.

The cylinders are associated between them and the torch with all sorts of hoses, available in various sizes; one prominent mention here is that all hoses used in gas welding need to be marked with the kind of repair level they are meant for: light, normal, or heavy.

When purchasing the LPG equipment, make sure that you know all the details for the rubber weld hoses. The user of Gas welding is exposed to the danger of combustion in the hoses and regulators; hence, daily valve tests are required in order to ward off flashbacks.

Some of the gas welding tools are specifically designed to curb flashbacks; which is acquired with the help of a flashback arrestor.

This device is identical to a check valve, but it also includes a trap that cuts of the gas flow when flashback occurs; hence, arrestors are a must-have type of LPG equipment that is important for those who use gas welding equipments.

Gas Welding Safety Tips

To lift up gas cylinders, use the LPG equipments that are designed to perform that task.

Check torches and clean only using suitable tools.

While welding use blowback guard torches.

Always keep a watch on the LPG equipment and fix any leakages at all connections.

Check hoses for worn and leaks spots.

Keep fire extinguishers at handy places, at the welding site.

Keep cylinders and hoses away from flames, sparks, to avoid any holes on it.

Use a flint lighter to fire the flame in welder.

Analyst suggests welding supplies like Lpg Equipment and Gas Equipment, so whether you need gas welding equipment or lpg welding equipment you can find reliable and consistent welding services in NSW, Australia. Terry Burch is an industrial Welding Equipment and supplies analyst in Sydney, Australia.

Gas Welding is alive and well!

* If you want to create artistic projects, many people will choose gas welding exclusively.

* At some point, most arc welders will want to, or NEED to use gas welding. I'll help you get started. Then YOU need lots of practice!

Seriously, practice is CRITICAL for running great beads.

* If you're doing artistic stuff, you'll want it to LOOK great.

* Eye-hand coordination gets tougher because you're doing more multi-tasking then arc welding.

Being able to DIRECTLY be shown details about how to do special jobs like gas welding is the BEST way to get started.

Here's the "scoop" for this article:

1) I'll give you a brief introduction to the gas welding world...

2) Then I'll hit on some safety tips...

3) Next the equipment itself...

4) Getting started:

* The flame.

* Adjustments.

* Angles.

5) Filler rod, tacking, the puddle, problem solving.

6) Brazing Tips.


* Gas welding in this page refers to oxygen-acetylene welding of metals.

* Your are actually WELDING two pieces of metal together, whereas brazing doesn't melt the parent material, just the material used to join the pieces.

* The torch itself needs to be able to melt the metals being used: filler rod, & "parent metals".

* Having an oxygen-acetylene torch around enables you to not only WELD, but also to cut the materials, heat & bend materials, & loosen tight-fitting materials via heating.

* Safety is paramount! You are working with extremely hot & potentially explosive materials!


SERIOUSLY gas welding can really be fun, interesting, & profitable!


* The tuned gas flame can exceed 6,000 F.

* Un-protected eyes can be fatigued & permanently harmed in a short time.

* The acetylene tank could explode under certain conditions: dropping, in a fire, from an arc or torch flame penetrating the casing, etc.

* The oxygen tank starts with 2000 PSI & can literally go like a rocket if the top valve assembly breaks off.

* Hitting something already burning with the high pressure torch valve can really accelerate the fire.

So, be careful!


The Flame:

* Set the gas and oxygen pressures MUCH lower than for cutting.

* Some gas setting charts call for the 02 & gas pressures to be the same as the tip size being used: tip size 1 = 1 PSI for gas & O2.

* Tip size 5 = 5 PSI for gas & O2, etc.

* I simplify things even farther! I just set both pressures at 10 PSI then crack the valves open at the torch handle to where I need them to be. Just start EASY & work them up to the capabilities of the tip. (or just do it as above).

* Also, tip sizes vary for the size metal being welded: Tip size 1 = 1/16" metal and tip size 5 = 1/4" as examples.

* It really isn't hard to figure out if the tip your using is too small or too big for the job. (Too small won't get everything hot enough, & too large will tend to blow everything away).

* Crack open the gas & light it right away.

* Crank up the gas till it separates from the tip then back it off.

* Hit the O2 until the blue flame first gets short & bright. This is a "neutral flame", used for most jobs.

Note that the torch tip & the filler rod should be about at a 45 degree angle.

*Too steep can make the penetration too deep & not pre-heat / too shallow can cause too little penetration.

Let's do it:

* Starting out, it can give you good practice to just put the flame on metal without a filler rod. This helps you get used to the process without worrying about the filler rod too.

* Heat the metal till there's a puddle, then begin moving the flame to create a bead.

* Get the blue part of the flame nearly touching the metal.

* Move in a circular or semi-circular fashion to make it into a bead.

* Aim the flame in the direction you're trying to make the bead. (forehand welding).

* Don't get ahead of the bead or it can make it not hot enough at the puddle.

* Do this for a few times before using a filler rod.

Introduce a filler rod: (usually the same diameter as the pieces that are being welded).

* start the same way as above and keep the rod at a 45 degree angle also.

* Dip the rod in the puddle frequently, but try not to heat the rod with the flame. (heat the puddle, not the rod).

* Practice running straight beads then work up to following curved paths. (some schools have you write your name with a gas welding bead).

THEN PRACTICE till you can run decent looking beads.

Note that you should be tacking pieces together at least at both ends of where you're welding, to prevent moving of the gap.

Problem solving:

* Your flame is fluctuating: gas pressure or supply may be low.

* Popping sound: Hot tip, plugged tip, pressure too high.

* Flame stops: 02 pressure high.

* Whistling noise & the flame backs up into the torch: (backfire), 02 or gas too low, the tip is clogged or dirty, or the tip touched the puddle.


* Many things are similar about gas welding and brazing: but remember that with brazing you aren't melting the parent metal, just the brazing material (such as brass).

* The brass and the parent metal MUST be clean and hot enough for there to be a good joint. (Use flux! In a can, or coated rods).

* Think of soldering, if you don't get everything hot enough, it might come apart (or not be a good electrical connection).