Regardless of the material, toe caps for safety shoes must meet the same requirements. They are tested in a drop test (200 joules of drop energy, which is equivalent to approximately 20 kg from a drop height of one metre) and a static pressure test (15 kilonewtons). At maximum load, the residual height under the toe cap is determined and compared with a minimum requirement, depending on the shoe size. The caps used for uvex safety shoes far exceed these requirements. Plastic caps are lighter than steel caps, do not become cold as quickly and are not magnetic, and can therefore be used in areas with metal detectors or induction loops, for example.

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Non-metal, penetration-resistant insoles are made of multilayer, highly tear-proof textiles, while steel insoles are made of a steel strip. Attention: Please note that the penetration resistance of this kind of footwear has been measured in the laboratory using a truncated test nail with a diameter of 4.5 mm and a force of 1,100 N. Higher forces or nails of smaller diameter can increase the risk of penetration. In such circumstances, alternative preventative measures should be considered.

Two generic types of penetration-resistant insole are currently available in PPE footwear. These are made from metallic and non-metallic materials. Both types meet the minimum requirements for penetration resistance in accordance with the standard marked on the shoe but each has different additional advantages or disadvantages, including the following:
Metal: Is less affected by the shape of the pointed object / hazard (e.g. diameter, geometry, sharpness). Due to the limitations of the shoe manufacturing process, the entire tread of the shoe is not covered.
Non-metal: May be lighter and more flexible, and covers a greater area when compared with metal but the penetration resistance may be affected more by the shape of the sharp object / hazard (e.g. diameter, geometry, sharpness).

For more information about the type of penetration-resistant insoles in your footwear, please contact the manufacturer or supplier.

The uvex multiple fit system means that in many product groups, each shoe size is available in three or four different widths. Details can be found in the product descriptions for each item.  We recommend that you measure your shoe size and width using the uvex fit advisor app before purchasing uvex safety shoes. The app uses two calibrated photos to determine the measurements via your mobile and then recommends the right uvex safety shoes for the application area you have selected. Alternatively, you can follow the instructions on our website here, measure your feet yourself and then find the uvex shoe size you need in the uvex Mondopoint chart, which is published in our catalogue and on our website.

Determining shoe size and width requires the wearer's foot to be precisely measured, including the exact length and breadth in millimetres. We recommend that you measure your shoe size and width using the uvex fit advisor app before purchasing uvex safety shoes. The app uses two calibrated photos to determine the measurements via your mobile and then recommends the right uvex safety shoes for the application area you have selected. Alternatively, you can follow the instructions on our website heer measure your feet yourself and then find the uvex shoe size you need in the uvex Mondopoint chart, which is published in our catalogue and on our website. In case of doubt, the uvex customer service team will be happy to assist you.

It is not generally possible to give an expiration date due to a variety of factors. As a guide, you should assume five to eight years from the date of production. The service life depends on the degree of wear, where the shoe will be worn and external factors such as heat, cold, moisture, UV radiation, chemical substances and mechanical loads.

The shoes must be checked for externally visible damage before each wear and replaced if any damage is present – e.g. integrity of outer shoe material and outsole, sufficient tread, functionality of fasteners (where applicable). Footwear that is no longer usable must be disposed of as either industrial or household waste. Footwear must be stored and transported properly, preferably in cardboard packaging in a dry environment. Footwear should not be stored at temperatures over 25°C or in environments with humidity levels of over 70%. The month and year of production can be found on the tongue label of the footwear in the format month/year.

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Safety Footwear

On this page

• What should I know about safety footwear?
• How is footwear selected?
• What should I know about the fit and care of safety footwear?
• What symbols will be on the footwear?

What should I know about safety footwear?

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If you are at risk for foot injury at your workplace, you should wear the appropriate protective footwear.

• If foot protection is required, set up a complete foot safety protection program, including selection, fit testing, training, maintenance and inspection.
• Safety footwear is designed to protect feet against a wide variety of injuries. Impact, compression, and puncture are the most common types of foot injury.
• Choose footwear according to the hazard. Refer to CSA Standard Z195-14 (R) "Protective footwear" or other standards that are required in your jurisdiction.
• Select CSA-certified footwear (or other certified footwear if permitted in your jurisdiction). Make sure that it has the proper rating for the hazard and the proper sole for the working conditions.
• Use metatarsal protection (top of the foot between the toes and ankle) where there is a potential for injury.

The OSH Answers section on Foot Comfort and Safety at Work has more information on foot care and selection of protective footwear.

How is footwear selected?

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Footwear must be chosen based on the hazards that are present. Assess the workplace and work activities for:

• Materials handled or used by the worker.
• Risk of objects falling onto or striking the feet.
• Any material or equipment that might roll over the feet.
• Any sharp or pointed objects that might cut the top of the feet.
• Objects that may penetrate the bottom or side of the foot.
• Possible exposure to corrosive or irritating substances.
• Possible explosive atmospheres, including the risk of static electrical discharges.
• Risk of damage to sensitive electronic components or equipment due to the discharge of static electricity.
• Risk of coming into contact with energized conductors of low to moderate voltage (e.g., 220 volts or less).
• Type of walking surface and environmental conditions workers may be exposed to (e.g., loose ground cover, smooth surfaces, temperature, wet/oily, chemicals, etc.).

Also, evaluate the following risks:

• Ankle injury from uneven walking surfaces or rough terrain.
• Foot injury due to exposure to extreme hot or cold.
• Slips and falls on slippery walking surfaces.
• Exposure to water or other liquids that may penetrate the footwear causes damage to the foot and the footwear.
• Exposure to rotating or abrasive machinery (e.g., chainsaws or grinders).

What should I know about the fit and care of safety footwear?

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Fit:

• Try on new boots around midday. Feet normally swell during the day.
• Walk in new footwear to ensure it is comfortable.
• Boots should have ample toe room (toes should be about 12.5 mm from the front). Do not expect footwear to stretch with wear.
• Make allowances for extra socks or special arch supports when buying boots. Try on your new boots with the supports or socks you usually wear at work. Check with the manufacturer if adding inserts affects your level of protection.
• Boots should fit snugly around the heel and ankle when laced.
• Lace up boots fully. High-cut boots provide support against ankle injury.

Care:

• Use a protective coating to make footwear water-resistant.
• Inspect footwear regularly for damage (e.g., cracks in soles, breaks in leather, or exposed toe caps).
• Repair or replace worn or defective footwear.
• Electric shock resistance of footwear is greatly reduced by wet conditions and wear.
• Footwear exposed to sole penetration or impact may not have visible signs of damage. Therefore, it is advisable to replace footwear after an event.

What symbols will be on the footwear?

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The following symbols, or markings, will help you determine which footwear is appropriate for the job.

NOTE: Footwear will also be marked to indicate the level of slip resistance. These markings may be on the packaging, the footwear, or on the product sheet.

Note: Certain CSA Group standards are available for online viewing. To access these, you must first create an account with “CSA Communities”.
Go to: https://community.csagroup.org/login.jspa?referer=%252Findex.jspa
Once you are logged in, click on the text below the “OHS Standards / View Access” graphic.
Click on the jurisdiction of your choice to see the CSA Standards as referenced in that legislation. 
Standards may also be purchased from CSA Group: https://store.csagroup.org/
 

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• Fact sheet last revised: -02-04