single wire rope sling brands

In the case of the "U" shaped sling, lifting is accomplished by firmly attaching the eyes to a hook or hoist, though both ends are then simultaneously lifted in order to wrap around or cradle the supplies or finished goods to be lifted.

Unlike synthetic or fiber slings, wire rope offers increased resistance to wear and abrasion and can be used for both hot and cold materials as well as in corrosive applications such as those in marine, construction, aerospace, manufacturing, assembly, transport, shipping, and other industries where wire rope slings are commonly used. Wire ropes fitted with slings in these applications also serve to improve connectivity and prevent fraying of the rope.

Like stranded wire ropes, the slings that they attach too are strictly regulated and must be inspected regularly as mechanical failure puts both machinery and employees at serious risk. To prevent such disruptions, it is important to select the proper sling for a given application.

Slings are most commonly constructed simply by looping or folding the end of a wire rope back onto itself and holding it in place with a firm fitting such as a clamp. Alternatively, the folded segment of wire may be braided or twisted along the main body of rope and otherwise held in place through welding or similar processes.

The rope itself is comprised of cold drawn filaments that are twisted or braided into strands which in turn are helically wrapped around a core. The multilayered formation of wire rope acts as a safety measure as individual strands are more likely to fail than the rope as a whole, allowing the other strands to act as a backup.

Popular materials for wire rope and sling construction include aluminum, nickel alloy, bronze, copper, and titanium, although steel and stainless steel are the most common due to their increased strength and availability.

Additional considerations include the wire rope sling"s dimensions, fatigue strength, its ability to bend without distortion, to withstand abrasion, and environmental conditions as well as the intended use for the sling.

We are confident you have neverseen a sling like the Mazzella 7-Part™Wire Rope Sling before:It’s strong—can be made from 1/8″ to 2-3/4″ component rope (vertical capacities from 1.2 to over 400 tons).

We also provide wire rope assemblies—both large and small. We manufacture bridge cables, crane cables, steel mill cables and thousands of OEM assemblies.

We fabricate wire rope slings in all diameters and lengths. Standard product orders placed before 2 PM EST will ship same day. Custom sling orders are also available, but delivery times will be subject to the order specifications.Call us at 800.362.4601 or click here if you need wire rope slings!

Manufacture of material handling gripper slings made from 304 or 316 stainless steel, 4130 heat-treated alloy steel, exotic alloys and neoprene. Features include polyurethane plastic-covers, wire mesh construction, interwoven and tolerate abrasive loads. Suitable for handling all types of products such as coiled strips, thin-walled tubing, polished shafting, lumber, paper machine rolls, precast hollow core concrete beams, structural beams, cold drawn flats and irregularly shaped objects. Serves the marine, automotive, beverage, cement, energy, food and mining industries.

We offer inspections and mobile proof test services for product verification, break testing, and load testing to ensure compliance for all wire rope slings we sell and repair. Our mobile proof test services are available throughout the United States. In addition to our mobile load testing services we have stationary test beds to service Oklahoma, Texas, Kansas, Wyoming, North Dakota, New Mexico and all surrounding areas.

Wire rope slings are common components of wire rope assemblies that serve as a point of attachment for cranes, hooks and hoists in many heavy lifting or pulling applications.

Unlike synthetic or fiber slings, wire rope offers increased resistance to wear and abrasion and can be used for both hot and cold materials as well as in corrosive applications such as those in marine, construction, aerospace, manufacturing, assembly, transport, shipping and other industries where wire rope slings are commonly used. Wire ropes fitted with slings in these applications also serve to improve connectivity and prevent fraying of the rope. Though the majority have predetermined dimensions, they may be adjustable to accommodate for a change in the size of cargo while maintaining a secure fit.

Slings are most commonly constructed simply by looping or folding the end of a wire rope back onto itself and holding it in place with a firm fitting such as a clamp. Alternatively the folded segment of wire may be braided or twisted along the main body of rope and otherwise held in place through welding or similar processes.

The rope itself is composed of cold drawn filaments that are twisted or braided into strands which in turn are helically wrapped around a core. The multilayered formation of wire rope acts as a safety measure as individual strands are more likely to fail than the rope as a whole, allowing the other strands to act as a backup.

Additional considerations include the wire rope sling"s dimensions, fatigue strength, its ability to bend without distortion, to withstand abrasion and environmental conditions as well as the intended use for the sling. Wire rope slings are stress tested during manufacturing to determine breaking point and safe usage guidelines which should be carefully considered.

The term sling can refer to one of two configurations for lifting and hoisting apparatus. Slings as wire rope fittings involve the addition of a loop at the end of a length of wire through which hooks and other apparatus may be looped or fastened. The term may also apply to a length of cable that has this same “U” or teardrop shaped eye, but on either end of the cable.

In the case of the "U" shaped sling, lifting is accomplished by firmly attaching the eyes to a hook or hoist, though both ends are then simultaneously lifted in order to wrap around or cradle the supplies or finished goods to be lifted.

Popular materials for wire rope and sling construction include aluminum, nickel alloy, bronze, copper and titanium, although steel and stainless steel are the most common due to their increased strength and availability.

Like stranded wire ropes, the slings that they attach too are strictly regulated and must be inspected regularly as mechanical failure puts both machinery and employees at serious risk. To prevent such disruptions, it is important to select the proper sling for a given application.

When it comes to using wire rope slings in or on your jobsite, there are a few things to keep in mind in order to make sure that your wire rope sling is ready for use and that it will last for years to come. For starters, be sure to designate a qualified person to inspect all of your slings, fastenings, and attachment each day before use for damage or defects. A thorough inspection of your wire sling should check for:

By regularly performing these inspections that check the condition of your rope, you’ll not only be able to give your wire rope sling the care and maintenance that it needs to work at its best, you’ll be protecting your entire team and jobsite from the potential dangers that can occur if a wire rope sling snaps during use.

Wire rope slings are widely used in the lifting applications and engineering industries for extremely heavy loading. They can be used on wire rope hoist, pulley and block, crane and winch pulling equipment at dockyards and large construction sites.

They are available in single leg or multi legs like the chain slings, however, the wire rope slings are more safety than chain slings for wire rope sling can still hold the load if 1 or 2 wires are broken, while the chain sling will fail for 1 link broken result to the whole chain sling failed.

Usually, we use a less flexible or a stiffer wire rope to assembly for they are more crush and abrasion resistance than a very flexible one since wire rope slings are used in a straight line for lifting connect with a master link on one end and a hook or hooks on the other end, need more load strength than flexibility.

Stainless Steel Slings, Fiber Core Slings with reduced Work Load Limits, Cable Laid Slings with galvanized finish and larger diameter slings are also available.

When wire rope is bent around a load, or diameter, the rope strength is decreased. The D/d ratio is diameter of the object around which the rope is bent (D), divided by the diameter (d) of the rope. D/d affects slings used in basket hitches and must be taken into consideration. When the diameter of the load is 4 times the diameter of the wire rope sling the D/d ratio is 4/1 and the sling efficiency is 75% of the Basket WLL.

• Tensile Strengths are determined in accordance with Cordage Institute 1500.2. Test Methods for Fiber Rope. Minimum Tensile Strength (MTS) published assumes spliced eye tenninations at each end of the rope. Weights actually calculated at linear density under state preloaded (200d’J plus 4%. Diameter and circumference size published is nominal and reflects rope size after loading (10 cycles) to 50% ofMTS. See reverse side for application and safety information .

Plasma® 12 strand is the highest strength synthetic rope available. Plasma® 12 strand is manufactured from High Modulus Polyethylene (HMPE) that has been enhanced by Cortland’s patented recrystallization process. This process is especially effective in medium to large diameter ropes where strengths are over 50% higher and creep is significantly less than that of standard Spectra® 12 strand.

The steel core single leg wire rope sling is a type of suspension device that can be used to lift and move objects. It consists of only one leg, with an oval master link on the…