We will reply to your message within an hour.
Protect against chemical spills and splashes as well as other workplace hazards, such as accidental impacts, water, and oil.
Boots extend above the ankle to provide more coverage than shoes. They protect your feet against workplace hazards, such as accidental impacts, water, and oil.
Also known as firefighters' boots, these meet the NFPA 1971 standard for structural firefighting. They withstand ambient heat up to 500° F.
Keep feet warm and dry in frigid temperatures with these insulated boots.
Lightweight and breathable, these shoes provide the protection of a safety shoe with an athletic feel.
Wear over mid-calf and knee-high boots. They protect boots from water, wear, and abrasion.
These covers protect shoes from water, wear, and abrasion.
These boot covers are made of PVC to hold up in wet and oily environments.
These covers hold up in wet and oily environments.
Wear over knee-high boots. They are rated ASTM F2413 for protection against electrical hazards.
These covers are rated ASTM F2413 for protection against electrical hazards.
Taller than shoe covers, boot covers protect mid-calf and knee-high boots. They are lightweight and protect boots from dirt, grime, and liquid splashes.
These covers are lightweight and protect shoes from dirt, grime, and liquid splashes.
Step into the dispenser and this plastic film clings to the bottom of your shoes and boots, so you don’t track dirt into your home or worksite.
Designed to meet clean room standards, these boot covers act as a barrier between the worker and the room to prevent pollutants such as dust particles and microbes from contaminating a space.
Keep dust and other particles on your shoes from contaminating clean rooms.
Apply and remove Clean Room Shoe Covers without bending down and contaminating your hands.
Often used in steel mills, foundries, and glass plants, these covers reflect radiant heat and protect against sparks.
Extend the life of your footwear with these abrasion- and water-resistant epoxies.
Use these waders to stay dry when you’re in deep water, mud, and sludge.
These waders go up to your chest to keep you dry in deep water, mud, and sludge.
Made of multiple layers of rubber, these insoles reduce leg pain and fatigue.
Protect your feet when working around sharp objects, such as glass, nails, and scrap metal.
Studs dig in and hold tight on icy surfaces.
Repair rips, split seams, and detached soles to stop leaks in shoes, boots, and waders.
Shield toes and feet from accidental impact.
Hang wet boots to dry them out.
Replace laces on boots and shoes.
Thinner than other round bellows with cuff ends, these flexible bellows are meant for light duty applications.
These thick, rigid bellows provide excellent durability.
Made of FDA listed materials, these rigid bellows are suitable for food and beverage applications.
Add cuff inserts to these flexible bellows for a custom fit.
Sewn seams let these bellows breathe, so they retract quickly in fast-cycling applications.
Suitable for tight spaces, these highly compressible bellows have sealed seams to keep contaminants out.
Attach the cuff end with a hose clamp and screw mount the flange end.
Made of Kevlar, these are the most durable breathable round bellows with flange ends. They also protect against sparks and weld spatter.
These fiberglass bellows withstand temperatures up to 450° F—about twice as much as standard breathable round bellows with flange ends. They also protect against flames and sparks.
No need to disassemble equipment—these bellows wrap around moving parts. Sewn seams let them breathe, so they retract quickly in fast-cycling applications.
Interlock bellows, mounting flanges, and links to create a custom-length bellows. These molded bellows are airtight to keep contaminants out.
Attach the cuff end with a hose clamp, and screw mount the flange end.
Secure the cuff ends with hose clamps.
Made of coiled spring steel, these bellows protect equipment from hot and sharp chips.
Similar to a window shade, pull these covers out to protect surfaces and equipment in tight spaces.
Guard flat moving surfaces on machinery.
These bellows withstand temperatures up to 500° F—more than twice as much as standard flat bellows.
Slide these bellows over flat moving surfaces on machinery, such as guideways.
Slide these bellows over square rods and shafts.
Slip these bellows over hydraulic cylinder rods to keep them free from debris for a long service life.
Guard 9" and 12" travel Bridgeport milling machines by covering their rear knee/upper column and front knee.
Secure these bellows to punch presses to prolong the life of their die sets.
Also known as linear way covers, these bellows install on guide rails to protect the rails as carriages move across them.
Install these bellows over gas springs to protect their piston rods.
Also known as lift table skirts, these bellows cover the working parts at the base of a lift table.
Protect U-joints to keep lubricants in and contaminants out.
Enclose ball joint linkages to keep lubricants in and contaminants out.
Shield ball joint rod ends to keep lubricants in and contaminants out.
Slide these protectors over gas springs to keep debris out of their seals.
Slide or zip these protectors around shocks and other moving parts to keep debris out of their seals.
Protect RJ45 connectors on Ethernet cables from strain when cables are pulled and bumped.
Use these connectors and cords to make Ethernet connections in wet location environments.
Audio/video HDMI connectors and cords are rated IP67 when mated.
Transmit audio, video, and data through coaxial cable.
Protect your mated connections from moisture and light splashing.
Protect plugs and sockets in washdown environments when not in use.
Protect high-current connectors when not in use.
Protect harsh environment M12 connectors when not in use.
Protect screw-together M12 connectors when not in use.
Protect mini connectors when not in use.
Protect harsh environment mini connectors when not in use.
Protect Mil. Spec. connectors when not in use.
Caps are watertight to protect safe-break plugs when not in use.
Caps are watertight to protect hazardous location safe-break plugs when not in use.
Tap and splice multiple wires together at the same time.
Screw these caps onto the socket end of wet-location USB cords. They maintain an IP67 rating when cords are not in use.
Cover unused electrical outlets or plug prongs to protect them from dust, dirt, liquids, and other contaminants.
A different shrink ratio on each end allows this tubing to fit over cable assemblies and wire harnesses with large connections, or around connectors with a 90° elbow.
Also known as breakout boots, these splitters insulate and seal the point where wire splits off from cable, or where cables exit from conduit.
Organize and route wire and cable in an enclosure—this tubing bundles wires together while allowing them to reach different connection points.
Trim the rubber cap to fit a range of pipe sizes.
Use these gaskets on plumbing vent pipes and two-walled, air-insulated vent pipes (also known as Type B roof vents).
Slide these seals over roof flashings for added protection and to create an extra-watertight seal without the need for caulk. They’re also known as storm or rain collars.
The metal spikes on the bottom of these shoe covers prevent damage to the finish of self-leveling coatings as well as your shoes.
Create a sanitary seal on through-wall piping, tubing, and cables in food-, cosmetic-, and pharmaceutical-processing areas.
Snap these grommets into place to hold wire, cable, and cords in wet locations and form a seal against dust, debris, and water.
Cover battery terminals to protect against corrosion and short circuits.
Protect the connection point of 9V batteries with these caps.
Create a seal around the base of a toggle while leaving the actuator exposed.
Install these covers without removing switches from the panel—covers fit over mounting hardware.
Protect toggle switches from moisture and dust by replacing panel mounting nuts with these rubber covers.
A nickel-plated brass cap protects toggles from impact.
Seal the panel cutout around a toggle switch.
These rubber covers protect switches from splashing liquid.
Made of stainless steel, these covers protect push-button actuators from impact.
With extended flaps to shield the entire switch, these covers protect rocker switches from moisture and dust.
Create a seal around a potentiometer shaft to keep out moisture and dust.
No need for clamps or connectors—duct and fittings have a male end that is slightly smaller than its female end for simple assembly.
Built to withstand temperatures up to 1000° F, these vent pipes and fittings are for use with boilers, furnaces, stoves, and other equipment that is fired by coal, gas, oil, propane, or wood.
For use with gas-fired equipment, such as boilers and furnaces, these vent pipes and fittings withstand temperatures up to 400° F. Also known as type B gas vents.
Made of neoprene rubber, these feet are a good choice for use in oily environments.
Cover the bottom of furniture legs.
Great for use outdoors, these feet are EPDM rubber, which withstands exposure to direct sunlight.
Great as nonslip feet, thread these rubber suction cups to the bottom of your lightweight equipment.
Press these feet into tubular legs of tables, chairs, and other furniture.
A swiveling base compensates for angled legs and uneven surfaces.
These feet have angled or rounded bottoms to work with tubular furniture legs that meet the floor at an angle.
Place these feet under furniture and equipment.
An integral cushion reduces noise and vibration.
These feet are made of UHMW polyethylene plastic, so they won’t dry out and become brittle.
Use these feet on furniture with wood legs.
Screw these feet to the bottom of wood furniture legs.
Peel back the film to stick these feet to the bottom of furniture and equipment legs.
Excellent chemical resistance makes these PTFE plastic feet the best choice for harsh environments.
Meant for light duty applications, these mounts are not rated for capacity.
Often used to reach overhead lights, pipe, and electrical wiring, these stilts give you mobility at step ladder height.