Type I Occupational Footwear Designed to be used in labor activities where the wearer It is only exposed to minor risks, such as cuts, lacerations, bumps, and others that do not require special protection.

Type II Footwear with forefoot protection Designed to give full protection to the toes, where impact and compression risks may occur.

Type III Dielectric Protective Footwear Designed to protect the wearer from electric shocks.

Type IV Metatarsal Protective Footwear Designed to protect the instep from direct metatarsal impacts in addition to protection provided by forefoot protection footwear.

Type V Conductive Protection Footwear Designed to dissipate the static electricity from the body to the floor to reduce the likelihood of igniting explosive or flammable substances.

Type VI Protection Footwear Resistant to Penetration Designed to protect the wearer from stepping on sharp objects that can penetrate the footwear’s sole.

Type VII Antistatic Protective Footwear It is the one designed to reduce the build up of static electricity dissipating it from the body to the floor maintaining high insulation resistance to offer the wearer limited protection against possible electric shock risks.

Steel toe cap covered with anticorrosive paint. Brings protection against impact and compression. Its impact resistance is approximately 101.7J and its compression resistance is 11.135kN.

Dielectric composite ABS polymer toe cap. It has shape memory, restoring up to 80% to its original shape after distortion through impact or compression. It has an impact resistance of 101.7J and 11.135kN compression.

Vulcanized rubber sole with good resistance to water absorption, abrasion, oils and solvents in small amounts. It is recommended for semi-rough use. Ideal for pavements, mountain rocks, warehouses, etc.

Vulcanized rubber sole for rough use, good resistance to abrasion, rips and tears, gasoline and oils in normal conditions as well as water absorption. Ideal for pavements, asphalt, maintenance areas, mechanical workshops, stones, gravel, etc. Used by Lockstitcher construction.

Compared to rubber, this is an extremely light polyurethane sole, perfect for lighter, and semi-heavy industrial work. It is made to to be adaptable and comfortable with low deformation. Low density Shore A 40-60 polyurethane. It is recommended for polished concrete floors, ceramic floors and wet floors.

Vulcanized rubber sole for rough use, low deformation when compressed, good resistance to water absorption, gasoline and oils in normal conditions, stable in temperatures of -20°C a 100°C, excellent resistance to abrasion, rips and tears. Ideal for pavement, asphalt, mountain and volcanic rocks, maintenance areas, among others. It is used in the Welt construction system.

Sole made of polyvinyl chloride and thermoplastic rubber with excellent non-slip characteristics when dry or wet. Good resistance to oils, gasoline and hydrocarbons. Ideal for rough work in a semi-rough industry and wet areas.

Compared to rubber, this is an extremely light, bidensity polyurethane sole with low deformation when compressed. Resistant to low quantities of oil and gasoline. Polyurethane floor, rubber like, light and lasting with non-slip characteristics perfect for wet floors. Recommended for polished concrete floors, ceramic floors and wet floors.

Armento Made with Italian technology using direct injection where the sole is melted and filtered into the pores of the leather resulting in a soft material buffering the impact of every and an ultra-resistant inner shoe making it very resistant to chemical substances and fossil fuels, in addition to more mechanical and biological resistance.

100% 2.0 - 2.2mm cowhide. The chemical treatment is free of heavy metals which makes the tanning leather very solid under wet conditions and its physical characteristics are more suitable for longer durability.

Polyester lining that keeps the footwear cool because of its fabric which has been previously treated with agents that inhibit the build-up of fungi and bacteria preventing foul odors.

Polyurethane and rubber materials that are resistant to bending and abrasion make the non-slip properties of this footwear possible. The sole’s design has canals that stop liquids from spreading, allowing the sole more contact with the floor and generate more friction.

The soil’s properties and structure is resistant to vegetable oil, grease and gasoline. The resistance to such fuels do not guarantee non-slip properties. More resistance to chemical substances increases the durability and the proportion of slipperiness increases when there are more oily substances.

It has a strong EEE mold design to fit every foot. Out footwear is designed to simulate natural conditions when walking and remaining still. The body distribution becomes more uniform and it improves posture and the alignment of the spine which helps avoid physical fatigue during working hours and allows the worker to work effectively.

Metal free footwear is a worldwide concept because the footwear manufacturing process is free of metals with the aims of reducing the electric shock risks and to have safe footwear since there are no sharp objects in its building.

Because the materials we use are made with rubber and acrylonitrile, plus fire retardant technology, it means that our footwear can take temperatures of up to 300°C per contact-minute.

Our footwear can take low temperatures and lose minimal heat creating microclimate at a satisfactory temperature to the wearer allowing them to perform their activities with no risk of by isolating cold, wind and humidity.

Designed to be used in labor activities where the wearer is only exposed to minor risks that do not require special protection.

Designed to give full protection to the toes, where impact and compression risks may occur, it has an impact resistance of 101.7J + 2J and a compression resistance of 11.135 kN + 0.02 kN.

Electrical resistance of 14,000 volts. The dielectric properties of this type of footwear can decrease considerably in wet environments and/or when the soles and heels are worn-out and/or when they have been contaminated by other materials. This type of footwear must not be used under flammable or explosive conditions or environments.

Designed to protect the instep against direct metatarsal impacts up to 101.7J + 2J, caused by a 22.7KG _ 0.23KG object in freefall.

Designed to dissipate static electricity from the body to the floor to reduce the possibility of combustion of explosive or flammable substances.

Designed to protect the wearer from stepping on sharp objects that can penetrate the footwear’s sole.

Designed to reduce the build-up of static electricity, dissipating it from the body to the floor maintaining high resistance to offer the wearer limited protection against possible electric shock risks. Its properties can decrease in wet environments and if the soil wears down considerably, is not recommended to use this footwear in flammable or explosive environments