Arc welding produces electromagnetic radiation over a wide range of wavelengths. These wavelengths cover three distinct types of 'non-ionizing' radiation, namely, Ultraviolet (UV), Visible Light and Infrared (IR). MMA welding does not produce ionizing radiation.

Burns to the skin and eyes due to exposure to arc radiation may not become apparent until some time after welding has ceased.

Some points to bear in mind are:

- Radiation is only generated while the arc is generated and the amount emitted generally increases as the welding current increases.

- Burns can be avoided by wearing proper protective clothing and ensuring no areas of skin are left exposed.

Sources of heat include welded components, the electrode holder and hot or discarded electrodes, and any of these can cause burns to the skin.

A hot environment can cause the body to overheat, and this is known as Heat Stress.

However those working in welding shops can reduce the risk by adhering to the following recommendation:

Always assume all metal objects in a welding shop are hot.

Welding fume is an unavoidable by-product of MMA welding. The welder should be aware of what fume is likely to be generated while welding is taking place and the potential hazards of exposure to the welding fume.

Fume consists of particulate fume, the part you can see, and gaseous fume, the part you cannot see, but can sometimes smell.

Particulate fume is mostly formed from vapourisation of the welding consumable. Fume from MMA welding aluminium is mostly aluminium oxide, chlorides and fluorides.

With MMA welding there is very little gaseous fume produced under normal circumstances.

Whilst all components of welding fume may present a risk to health, given a high enough concentration, some present a greater hazard than do others. The potential effect of exposure to welding fume depends upon:

- The composition of the fume.

- The volume of fume produced.

The MMA welding processes, like all others, generates noise. Some power sources emit more than others and some additionally may generate higher frequency noise that can affect hearing.

Back injuries are one of the most common industrial injuries suffered by workers. Cartons, packets, or tins of electrodes stored high off the ground can create a 'falling' hazard.

Any of the hazards associated with MMA welding will be exacerbated when welding is carried out in a confined space.

General workshop safety is really a matter of common sense and good housekeeping and the following actions may be used to avoid accidents:

- Maintain a tidy work area, especially free from trip hazards.
- Keep walkways clear and free from welding cables, spare material, consumables, etc.

The advice given above is general in nature but forms a good overview of the potential hazards associated with the process. There are, however, things that can be done to help reduce the possibility of problems occurring in the workplace:

There is a considerable amount of misinformation in the fabrication industry about the health hazards associated with welding. There is also a lack of understanding among welders as the how they can influence the type and severity of hazard. The main cause for this is often poor training and some welders appear to be unwilling to operate at welding conditions that will keep fume production to a minimum.

Simple routine maintenance and a formalised system of safety audits on welding equipment has been shown to help reduce the number of safety related incidents within the industry.

Welders should ensure that they wear appropriate clothing for the operation they are carrying out. Flame-retardant boiler suits, gloves or gauntlets, safety shoes, leather aprons, etc, should be in good condition and as free from oil, grease and moisture as is physically possible as these can reduce the effectiveness of the safety equipment.