what is the most abrasion resistant wire rope for sale

In selecting the right steel wire rope, it is important to determine how important the various properties are in relation to the application and then to assign priorities to these. It is also important to be aware of the relevant standards and regulations. If you are in any doubt, please contact our sales consultants or our Technical Department.

The tensile strength of the steel wire rope depends on the rope’s dimensions, the tensile strength of the wires and the construction. The minimum guaranteed tensile strength for the different kinds of rope is shown in the Randers Reb product catalogue.

The design of the steel wire rope does not significantly affect the tensile strength (up to approx. 5%). A change of core from fibre to steel makes slightly more difference (approx. 10%). The greatest change is achieved by changing the dimensions, usage of Compacted steel wire ropes or tensile strength of the wires (see also fig. 28).

It is often required that the steel wire rope must have a specific SWL value (Safe Working Load), also known as a WLL value (Working Load Limit). This means the steel wire rope’s tensile strength divided by the safety factor required for the relevant application.

Steel wire ropes with thick outer wires (e.g. 6x7 Standard or 6x19 Seale) provide good abrasion resistance. Lang lay ropes provide better abrasion resistance than regular lay steel wire ropes (see also fig. 28). Abrasion resistance can also be increased by using wires with greater tensile strength.

The greater the number of wires in the strand, the greater the bending fatique resistance and flexibility. Lang lay ropes provide better bending fatique resistance than regular lay steel wire ropes. Bending fatique resistance can also be increased by using pre-formed steel wire ropes (see also fig. 28).

Galvanised and rustproof wires provide excellent protection against corrosion. Lubrication with special types of grease or oil will also increase resistance to corrosion. If the steel wire rope is subjected to significant corrosive influences, it is recommended that strands with thick outer wires are used.

Steel wire ropes with fewer wires (e.g. 1x7 Standard and 1x19 Standard) are subject to the least elongation (have the greatest elasticity modulus). This type of steel wire rope is ideally suited for guy ropes, but is not suitable to be run over sheaves/blocks. If only a small degree of elongation when running over sheaves is required, 6x7 or 6x19 steel wire rope should be used, in each case with a steel core or with certain special constructions. For larger dimensions, 6x36 steel wire rope with a steel core can also be used (see also Elongation and Pre-stretching, page 8-28).

Standard 6-lay and 8-lay steel wire ropes will rotate when they hang free and carry a load. Regular lay steel wire rope provides greater resistance to rotation than lang lay steel wire rope. A steel wire rope with a steel core rotates less than a steel wire rope with a fibre core. The type of rope that provides greatest resistance to rotation is, as the name suggests, low-rotation and rotation-resistant steel wire rope (special constructions, see also ”Low-Rotation and Rotation-Resistant Steel Wire Rope”, page 8-10).

A steel core provides better support for the strands than a fibre core, which is why the risk of flattening is less in a steel wire rope with a steel core. Strands with fewer, thicker wires have greater resistance to flattening/crushing. Also, a 6-lay steel wire rope has greater crushing resistance than an 8-lay rope (see also fig. 28).

Vibrations, from wherever they might come, send shock waves through the steel wire rope, which will be absorbed by the steel wire rope at some point, and in some cases they may cause localised destruction of the steel wire rope (not necessarily on the outside). This may, for example, be at places where the steel wire rope comes into contact with a sheaf/block, or enters the drum, and by the end terminals. In general, those steel wire ropes with the greatest flexibility also have the greatest vibration resistance.

Changes in the tension of a steel wire rope, depending on the size and frequency, will reduce the rope’s life expectancy. In general, steel wire ropes with the greatest flexibility can cope better with intermittent loading. Great care should be taken in the use of end terminals or fittings, as their pulsation resistance is equally as important as the selection of the right steel wire rope.

Lang lay steel wire ropes are the ones most suited to running over sheaves and are the most durable, but if they are to be used, three things must be observed:

The reason for Lang lay steel wire ropes’ excellent qualities of abrasion resistance and pliability is that the wires are affected/loaded in a different way and have a larger load-bearing surface than a regular lay steel wire rope (see fig. 29). Note that the largest wearing surface is on the Lang lay steel wire rope.

There are many different sizes, configurations, and materials that form wire rope, and these are different types including stainless steel wire rope, galvanized wire rope, and bright wire rope.

Looking for accessories to use with wire ropes? Our rigging supplies include hardware and accessories for use with cranes, hoists & winches, and oilfield applications.

Diameter:To properly measure the diameter of steel wire ropes, measure the rope at its widest point. This is an industry standard with wire cable manufacturers and steel cable suppliers.

Grade of Steel – EIPS, EEIPS: EIPS is Extra Improved Plowed Steel and has roughly 10% more strength than IPS. EEIPS is Extra Extra Improved Plowed Steel and is approximately 10% stronger than the EIPS. We offer every variety of EIPS Wire Rope and have a one day lead time on any EEIPS ropes.

Direction of Lay: Right hand and left hand designates which way the strands wrap around the core of the steel rope. Regular lay and Lang lay specify which way the wires are formed in the helix pattern. Regular lay means the wires are rotated opposite the direction of the strands around the core. Lang lay means the wires are twisted in the same direction as the strands are wrapped around the wire rope core.

Finish – Bright Wire, Galvanized Wire, and Stainless Steel: Most wire ropes have a bright, self-colored finish hence the name. Wire ropes generally have a coating of lubricant to reduce friction and protect from corrosion. However, there are wire ropes that are galvanized, stainless steel, or coated in vinyl and other plastics.

Material of the Core: Fiber Core (FC) or Independent Wire Rope Core (IWRC) – Fiber cores are made of natural (sisal, etc.) or synthetic (polypropylene, etc.) fibers and allow for increased flexibility. IWRC offers more support to the outer strands, and have a higher resistance to crushing. IWRC also offers more resistance to heat, reduces the amount of stretch, and increases the strength of the rope.

Strands: Another variable in wire rope is how many strands make up the rope and how many wires make up one strand. For instance, a 6×26 wire rope has 6 strands around a core with 26 wires making up each strand. The 6×19 class is the most common and offers higher resistance to abrasion whereas the 6×37 class offers higher flexibility.

Although there are exceptions for special applications, the constructions in 6×36 classification are primarily designed to be the most efficient for each rope diameter. As the rope size increases, for instance, a large number of wires can be used to achieve required fatigue resistance, and still those wires will be large enough to offer adequate resistance to abrasion.

The 6×19 classification of wire ropes includes standard 6 strand, round strand ropes with 16 through 26 wires per strand. This is a good rope to withstand abrasion or crushing on the drum. Ropes with independent wire rope strands and a core (IWRC) in general, are more crush resistant than fiber core ropes.

When you purchase our 6×19 Class of wire ropes, you get more than just another rope. Manufactured in an ISO 9001 certified factory and backed by the industry’s largest staff of professional engineers, we do more than meet published specifications.

The 6×26 WS has better resistance to abrasion than a 6x25FW. It features a compact construction with solid support for the wires; therefore it has a high resistance to crushing. Its number and relative size of the inner wires add to the stability of the strand and gives it a fatigue resistance comparable to a 6×25 FW. A standard 6×26 WS construction provides the best rope for a wide range of applications. In general, we recommend the use of the 6x26WS in any application where a 6x25FW is used.

Mast Raising Lines, also called Bull Lines or Bridle Lines, are usually two pieces: each having sockets on both ends. These lines can be fabricated from either right regular lay rope or right lang lay rope. They must be fabricated from IWRC ropes.

Premium ropes may be used for specific applications. PFV cushions the strands, distributes internal stresses, keeps in wire rope lubricant and keeps out dirt and debris, extending the service life.

Flex-X® 9 features compacted strands and swaging for extra drum crushing resistance and increased stability. Its high-density strands deliver extra strength and resistance to abrasion. Flex-X® 9 is manufactured with a dual compaction process to produce a compact cross-section with minimum voids and greater surface area on outer wires that contact drums, sheaves and the rope, itself during operation. The high-density compacted strands minimize nicking at strand-to-strand contact points. Flex-X® 9 was specifically designed for boom hoist applications and tubing line applications where drum crushing is a challenge.

Flex-X® 6 users receive superior performance and increased service life in many applications compared to the ropes they had previously employed. When compared to conventional six-strand ropes, Flex-X® 6 ropes provide greater surface area and more steel per given diameter. This increases rope stability and strength. This results in a longer service life and less sheave and drum wear.

Flex-X® 19, a Category 2 rotation resistant rope, is made from 19 strands. Six strands are laid around a core strand in one direction, and then 12 strands are laid around this first operation in the opposite direction. Because of its tightly compacted smooth design, Flex-X® 19 offers more crushing resistance than standard 19×7 rope, higher strength-to-diameter, resistance to bending fatigue, exceptional stability, reduced wear to sheaves and drums, and improved handling, operating and spooling characteristics.

6x37 Classification Wire Ropes have a third layer of wires which makes them more flexible, although less abrasion-resistant, than ropes of the 6x19 classification. Each strand contains numerous, small-diameter wires. As the number of wires in each strand is increased, flexibility is increased… as wires per strand decreases, flexibility is decreased.

As specialist for manufacturing quality steel wire ropes over 20 years, our company can supply strong, durable and reliable ropes that capable to minimize your downtime and maximize cost effectiveness. Decades of experience we owned make us know clearly the work you do and capable to provide professional guidance.

We select the best steel or stainless steel as raw material for wire rope manufacturing. Our products are manufactured under strict quality managements and test before they leave the factory.

Our engineers can provide professional advice about picking up optimal steel wire ropes for their application, installation guidance to ensure maximum return in their wire rope system.

As one of the largest manufacturers in China, we can purchase better materials at a lower price. Then we transmit this saving to our customers by providing the most competitive price.

If you are going to pick up steel wire ropes that suit your project perfectly, you must have an ideal about the construction about them. Our company can supply bright wire rope, galvanized wire rope, stainless steel wire rope, compacted wire rope, rotation resistant wire ropes, mining wire rope, elevator wire rope, crane wire rope and gas & oilfield wire ropes. Here are some details to solve the problem that may puzzle you whether you are browsing the web or picking up steel wire ropes.

Bright steel wire ropes mean no surface treatment is applied to the rope. Therefore, they have the lower price among these three wire ropes. Generally, they are fully lubricated to protect the rope from rust and corrosion.

Galvanized steel wire ropes feature compressed zinc coating for providing excellent corrosion resistance. With higher break strength yet lower price than stainless steel, galvanized steel wire ropes are widely used in general engineering applications such as winches and security ropes.

Stainless steel wire ropes, made of quality 304, 305, 316 steels, are the most corrosive type for marine environments and other places subjected to salt water spray. Meanwhile, bright and shiny appearance can be maintained for years rather than dull as galvanized steel wire ropes.

Steel wire ropes are composed of multiple strands of individual wires that surrounding a wire or fiber center to form a combination with excellent fatigue and abrasion resistance. These wires and strands are wound in different directions to from different lay types as follows:

Beside above lay types, alternative lay ropes which combine regular lay and lang lay together and ideal for boom hoist and winch lines, can also be supplied as your request.

Two main methods about seizing steel wire ropes in conjunction with soft or annealing wire or strands to protect cut ends of the ropes form loosening.

6 strands, nominally 19 wires per strand This class is the most widely used and is found in its many variations throughout many industries. With its good combination of flexibility and wear resistance, rope in this class is suited to the specific needs of many kinds of machinery and equipment. The designation 6x19 is only nominal; the number of wires ranges from 15 to 26. The following constructions are included in this class:

6x25 Filler Wire. In this construction, there are 19 main wires in each strand, plus six small filler wires. The filler wires are located between the outer layer of 12 wires and the inner layer of six. They provide support and stability to the strand. This construction is the best combination of flexibility and abrasion resistance found in the 6x19 Class.

6x19 Warrington. Each strand is made up of 19 wires. The outer layer of 12 wires has two different sizes of wire; the inner layer of six is one size of wire. The Warrington construction is somewhat less flexible than 6x25 Filler Wire, but more flexible than 6x21 Filler Wire.

6x21 Filler Wire. Each strand is made up of 21 wires. The rope has an outer layer of 10 large wires, an inner layer of five smaller wires and a still smaller center wire. There are five filler wires, located between the outer layer of ten wires and the inner layer of five. The 6x21 Filler Wire ropes are more wear-resistant but less flexible than Warrington, and less abrasion-resistant but more flexible than 6x19 Seale constructions.

6x26 Warrington Seale. This construction is composed of 26-wire strands. It has the same size outer wires as the 6x21 Filler Wire, with an inner wire configuration similar to the 6x36 Class ropes. Thus, it combines the wear resistance of a 6x19 rope with a flexibility between 6x19 and 6x36 Class ropes.

6x19 Seale. This construction has an outer layer of nine large wires, an inner layer of nine smaller wires and a single center wire. The Seale ropes are the least flexible of the 6x19 Class ropes. However, the large outer wires, solidly supported, provide resistance to abrasion and crushing.

The 6x36 Class of wire rope is characterized by the relatively large number of wires in each strand. Ropes of this class are more flexible than the 6x19 Class, but their resistance to abrasion is less than the 6x19 Class ropes.

The designation 6x36 is only nominal, as is the case with 6x19 Class. Ropes in the 6x36 Class may contain 27 to 49 wires per strand. Improvements in wire rope design, as well as changing machine designs, resulted in the use of strands with widely varying numbers of wires and geometry.

Larger wire ropes frequently incorporate a larger number of wires, resulting in a more complex geometry than found in the 6x19 or 6x36 Class wire ropes. WW’s 6x61 Class Bethlehem Mining Ropes generally are designed to comply with ASTM A 1023 geometry, although we added some innovations. WW strands the 6x61 Class Bethlehem Mining Ropes in a single operation, relying on dense, well fitted geometry to provide exceptional rope performance and the flexibility normally associated with 6x61 Class ropes.

The 6x61 Class ropes have a Seale-Filler Wire-Seale design, as shown in the cross sections below, containing from 50 to 77 wires per strand. WW further enhances Bethlehem Mining Rope performance by wire metallurgy and wire properties which are selectively modified to augment the specific rope geometries.

Many wire rope users have observed that heavily loaded ropes fail internally due to the failure of the IWRC. Such conditions illustrate that heavy IWRC stresses exist, which promote fewer fatigue cycles and create short rope life. WW designed Maxi-core to improve rope life under these conditions.

Maxi-core utilizes an IWRC design which features eight strands around a strand center. Maxi-core’s IWRC provides longer life, and, therefore, increases the overall service life of the rope. Because of its specialized IWRC, Maxi-core is resilient and able to accommodate shock loads better than conventional IWRC designs. Maxi-core also adds 33% more core support to the outer strands, thereby reducing internal stresses and promoting longer rope life. As with all Bethlehem Excavator Family Ropes, WW does not publish Maxi-core rope strengths. WW relies on specific rope improvements and specialized features to provide rope designs which give proven, superior field service.

This plastic jacket acts as a cushion or shock absorber between adjacent main strands and at main strand-to-IWRC contact points. The improved internal support is especially significant for ropes subjected to continual bending stresses and fluctuating loads (shock loading). Reduction of wear and damage at internal contact points results in longer and more predictable service life.

Compacted Strands: Beth Pac Beth Pac refers to rope manufactured by compacting each individual strand before closing the rope. In comparison to conventional wire rope, Beth Pac has a higher metallic area, improved crushing resistance and a smoother surface contacting sheaves and drums.

Beth Pac is offered in Excavator and Excavator-AR in diameters 21/4" through 23/4" in 8x36 construction for hoist ropes. Beth Pac can be combined with other Bethlehem Mining Rope features, such as En-core. For more information and help in determining your need for Beth Pac and other available sizes, please contact WW’s Sales and Engineering Departments.

BXL is furnished as right regular or lang lay, Form-set, IWRC wire rope manufactured in the 6x19, 6x36 and 8x36 Classes. Available grades are Excavator and Excavator-AR. For specific information, please refer to the table. For information on smaller diameters for mining applications, please contact our Customer Service Department.

BXL provides the characteristics common to Bethlehem Mining Rope, enhanced by the plastic-infusion. BXL starts with WW’s special wire grades used in the manufacture of mining rope. Excavator grade is designed to provide excellent resistance to bending fatigue, such as those conditions found with hoist ropes. Excavator-AR is intended for those applications where more abrasive operating conditions exist, such as in drag line applications. Enhanced by plastic infusion, BXL offers several improved features.

Improved fatigue resistance is one key feature of BXL. BXL’s polymer cushions each wire and strand, minimizing interstrand and interlayer nicking. BXL also offers improved abrasion resistance. The polymer acts as a barrier between the individual strands, preventing penetration of any adverse material, such as dust, dirt and metal particles. The polymer also distributes and reduces contact stresses between the rope and sheave, reducing the wire rope wear normally associated with uncoated wire rope. Perhaps the most important feature of BXL, however, is the polymer’s ability to maintain the balance of the rope. When a rope is in operation, or simply wound upon a drum, the rope’s components move and adjust accordingly.

Due to the nature of wire rope, this movement may cause accelerated wear, and in uncoated rope, may also produce a flattening or ovaling of the rope. The polymer in BXL minimizes this movement by locking the individual wires and strands in place. With the rope’s holding its intended shape during operation, operating stresses such as vibration are evenly distributed to all wires and strands, thereby reducing fatigue breaks and increasing service life.

This rope is particularly suitable where severe crushing and abrasion on a drum occur, or where a higher strength design is required than can be obtained with a similar round strand rope. The triangular strand shape not only provides better resistance to crushing, but also offers a greater exposed surface area for contact with sheaves, drums or underlying areas of spooled rope.

This feature, combined with Lang lay, distributes the abrasive wear over a greater number and longer length of wires. The broad, smooth surface of the rope also helps to minimize wear on drums and sheaves.

We make a full line of tail ropes customized to meet your requirements of strength and weight to balance your friction hoist system. Please contact your salesman or customer service with your specifications and we will supply a quotation to meet your needs.

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This construction is used where ropes are dragged on the ground or over rollers, and resistance to wear and abrasion are important factors. The wires are quite large and will stand a great deal of wear. In fact, this construction is sometimes called “coarse laid” because of the large wires. The 6x7 is a stiff rope and needs sheaves and drums of large size. It will not withstand bending stresses as well as ropes with smaller wires. Because of the small number of wires, with the resulting higher percentage of load carried by each wire, a larger factor of safety should be considered with 6x7 ropes than with ropes having a larger number of wires.

The 6x19 Classification of wire rope is the most widely used. With its good combination of flexibility and wear resistance, rope in this class can be suited to the specific needs of diverse kinds of machinery and equipment. The 6x19 Seale construction, with its large outer wires, provides great ruggedness and resistance to abrasion and crushing. However, its resistance to fatigue is somewhat less than that offered by a 6x25 construction. The 6x25 possesses the best combination of flexibility and wear resistance in the 6x19 Class due to the filler wires providing support and imparting stability to the strand. The 6x26 Warrington Seale construction has a high resistance to crushing. This construction is a good choice where the end user needs the wear resistance of a 6x19 Class Rope and the flexibility midway between a 6x19 Class and 6x37 Class rope.

The 6x36 Class of wire rope is characterized by the relatively large number of wires used in each strand. Ropes of this class are among the most flexible available due to the greater number of wires per strand, however their resistance to abrasion is less than ropes in the 6x19 Class. The designation 6x36 is only nominal, as in the case with the 6x19 Class. Improvements in wire rope design, as well as changing machine designs, have resulted in the use of strands with widely varying numbers of wires and a smaller number of available constructions. Typical 6x37 Class constructions include 6x33 for diameters under 1/2", 6x36 Warrington Seale (the most common 6x37 Class construction) offered in diameters 1/2" through 1-5/8", and 6x49 Filler Wire Seale over 1-3/4" diameter.

Alternate Lay, sometimes referred to as reverse lay, is a stranded rope where the type of lay of the outer strands is alternately regular lay followed by lang lay such that three of the outer strands are regular lay and three are lang lay. Alternate lay wire rope has the extra flexibility of lang lay in combination with the structural stability of regular lay. It unites the best features of both types of wire rope. Alternate lay is made with relatively large outer wires to provide increase of abrasion resistance to scrubbing against sheaves and drums. Finer inside wires and flexibility enable alternate lay ropes to absorb severe bending stresses. It is well suited to winding applications where abrasion and crushing can occur. Alternate lay wire rope applications include boom hoists and numerous types of excavating equipment like clamshells, shovels, cranes, winches and scrapers.

The 8x19 Classification rotation resistant ropes are recommended for hoisting unguided loads with a single-part or multipart line. The eight outer strands are manufactured in right lay, with the inner strands being left lay. These ropes are slightly stronger and significantly more rugged than the 19x7 construction. However, the rotation-resistant properties of the 8x19 rotation-resistant ropes are much less than those of the 19x7 construction. These ropes are manufactured in right regular lay in the 8x19 Seale and 8x25 Filler Wire constructions.

19x7 is recommended for hoisting unguided loads with a single-part line. The rotation-resistant properties of this rope are secured by two layers of strands. The inner strands are left lay, while the 12 outer strands are right lay, which enables one layer to counteract the other layer"s rotation. The rotation-resistant characteristics of the 19x7 wire ropes are superior to those of the 8x19 Class wire ropes.

SFP 19 is recommended for both multipart load and single-part fast line applications where rotational stability of the lifted load is needed, such as for use as a long fall on offshore pedestal cranes, rough and all terrain cranes, and crawler cranes. SFP 19 provides:

Fatigue Resistance. Improved fatigue properties are derived through the combination of the flexible 19x19 construction and die drawn strands. The drawn strand surfaces minimize the interstrand and interlayer nicking that take place in round rotation resistant ropes.

Abrasion Resistance. Die drawn ropes provide improved abrasion resistance as compared with round wire ropes because of the greater wire and strand bearing surfaces contacting sheaves and drums.

Resistance to Drum Crushing. SFP 19 wire ropes are resistant to the effects of drum crushing due to the compacted strands and smoothness of the rope surface.

Superior Rotation Resistance. The SFP 35 rope is the most rotation resistant rope manufactured by WW. Due to its rotation resistant properties, SFP 35 may be used with a swivel in both single part and multipart reeving.

Flexibility. SFP 35"s multiple strand construction provides increased flexibility which improves service life and high speed spooling. The compacted compacted multiple strand construction also reduces sheave and drum abrasion and provides excellent resistance to drum crushing.

6-PAC is recommended for use where the rope is subjected to heavy use or where conditions are extremely abusive, such as offshore pedestal, crawler and lattice boom equipped truck crane boom hoist applications. 6-PAC is also recommended for winch lines, overhead cranes, multipart hoist lines where rotation-resistant ropes are not required, and other applications where flexibility, high strength and resistance to crushing are important, and a cost-effective 6-strand rope is desired.

Fatigue Resistance. Improved fatigue properties are derived from the combination of 6-PAC"s flexible constructions and the compacted strands. The compacted strand surface minimizes the interstrand and interlayer nicking that take place in standard 6-strand ropes.

Abrasion Resistance. 6-PAC"s compacted strand design provides improved abrasion resistance as compared to standard 6-strand ropes because of the increased wire and strand surfaces contacting sheaves and drums.

Drum Crushing. 6-PAC dramatically increases the amount of wire contact with the drums and sheaves, reducing the wire rope, sheave and drum wear normally associated with standard wire rope.

Recommended for applications where abrasion and fatigue resistance is required, such as for winch lines, chokers, skylines, and haul backs, as well as any application where a swaged rope is used

8-PAC is recommended for hoist ropes for steel mill ladle cranes and hoist and trolley ropes for container cranes, or other hoisting applications with heavy duty cycles or where severe bending occurs.

Superior Performance. 8-PAC has higher breaking strength and gives superior performance in difficult hoisting applications compared to standard 6-strand and 6-strand compacted ropes.

Abrasion Resistance. 8-PAC compacted strand design provides improved abrasion resistance as compared to standard 6 and 8 strand ropes because of the increased wire and strand surfaces contacting the sheaves and drums.

SUPER-PAC is a double compacted product ideal for applications where abrasion and drum crushing are an issue. When compared with standard ropes, SUPER-PAC provides: Better resistance to multi-layer drum crushing. SUPERPAC dramatically reduces the damage at cross over points on smooth face drums, such as those found on many boom hoist systems on mobile cranes. This is achieved by compaction of the strands and the rope, making a tough but flexible product.

Superior Fatigue Resistance. SUPER-PAC is engineered for overall performance, its wire tensile strength being the key to its superior fatigue resistant properties. In addition to contribution to SUPERPAC’s EEEIP breaking strength, the wire used in the manufacture of SUPER-PAC remains ductile, minimizing the occurrences of external and internal wire breaks caused by operating stresses.

TRIPLE-PAC was developed for the most demanding hoist applications. TRIPLE-PAC offers the extra high strength and crushing resistance needed for applications such as boom hoist ropes, boom pendants and multipart load lines.

TRIPLE-PAC provides superior abrasion and fatigue resistance as compared with most compacted ropes due to WW’s unique design of compacting the IWRC, individual strands and the rope itself. Other benefits include:

High Strength. TRIPLE-PAC is designed to provide a nominal strength of 35% above EIP. WW achieves this strength through selected grades of steel and TRIPLEPAC’s unique design and manufacturing processes.

Superior Resistance to Multilayer Drum Crushing. TRIPLE-PAC provides superior resistance to crushing through its design. Its triple compaction provides a denser cross section, enabling the rope to withstand the rigors of multilayer spooling. Damage at the cross over points is also significantly reduced.

BXL is infused with a specially- engineered polymer, creating a well-balanced matrix. BXL is recommended for numerous hoist, marine and logging rope applications. BXL provides: Fatigue Resistance. Improved fatigue resistance is derived from the cushioning and dampening effect of the polymer on the wires and strands. BXL also evenly distributes stresses which may lead to fatigue breaks.

Abrasion Resistance. The polymer acts as a barrier between the individual strands, preventing penetration of any adverse material. BXL distributes and reduces contact stresses between the rope and sheave, reducing wire rope wear.

Service Life. BXL minimizes corrugation and wear normally associated with standard rope usage by restricting water and dirt penetration and eliminating pickup of abrasive materials.

This rope is particularly suitable where severe conditions of crushing and abrasion are encountered on the drum or where a higher strength design factor is required than can be obtained with a similar round rope.

The triangular strand shape not only provides better resistance to crushing, but also offers a greater exposed surface area for contact with sheaves, drums or underlying layers of spooled rope. This feature, in connection with the use of Lang lay construction, distributes the abrasive wear over a greater number and length of wires. The smooth surface of the rope also helps minimize wear on drums and sheaves.

ROEPAC is a three strand compacted rope with high breaking strength and stable construction making it perfect as a pulling rope for overhead transmission lines and underground conduits. It’s flexibility and flat surface provides snag-free guidance of the attached lines.

Abrasion Resistance. Compacted design provides improved abrasion resistance compared to standard 6 strand ropes because of the increased wire and strand surfaces contacting the sheaves and drum.

Rasmussen Equipment has been helping customers fulfill their wire rope needs since 1947. Our wide range of wire rope options are made of the highest quality materials and components, making them perfect for anything from large construction projects to small DIY home improvements.

We only work with the best wire rope manufacturer on the market, so you feel comfortable knowing our wire rope can withstand any project. Choosing the right general wire rope for your next project can be challenging. Here’s some helpful information about our products to guide your choice. If you need additional help deciding what wire rope you should buy, our specialists are always happy to answer your questions.

6×7 Wire rope is your go-to solution for heavy duty, coarse laid, construction wire. This rope is meant to withstand more resistance to wear and tear, impact, and abrasion than other wire rope options. With fewer, but sturdier chords, this wire rope option is stiff and will require large drums and sheaves. It is not ideal for bend stressors like rope with finer wire. With 6 chords, each wire will bear a more significant portion of load. Safety must always be top of mind when using load-bearing 6×7 wire.

The 6×19 classification of wire rope is the most widely used rope configuration. This rope boasts a mix of flexibility and durability, meeting a wide variety of construction needs and making it the preferred wire rope for most projects. The seale class refers to a strand construction where one size of outer wires covers the same number of smaller sized wires within the inner layer This rope is ideal as your go-to, versatile wire rope solution.

The 6×19 Warrington’s fiber core construction has alternating large and small outer wires, providing excellent flexibility and strength. With the increased flexibility, this construction has lower abrasion and crush resistance. This wire rope may not be suited for all job sites. If you have more questions, or are wondering if the 6×19 Warrington wire rope is right for your project, give Rasmussen a call.

The 6×25 possesses the best combination of flexibility and wear resistance in the 6×19 Class due to the filler wires providing support and stability to the strand. This rope has an independent wire rope core (IWRC) that improves durability.. If you have more questions, or are wondering if the 6×25 filler wire with IWRC is right for your project, give Rasmussen a call.

The 6×26 Warrington Seale construction has a high resistance to crushing. This wire rope is a good choice for projects that need the wear resistance of a 6×19 Class Rope and the flexibility midway between a 6×19 class and 6×37 class rope.

For whatever your project requires, Rasmussen Equipment Company has an expansive selection of rope and rigging supplies in Salt Lake City. If you’re unsure what exact tools you’ll need for your specific job, our sales team will be happy to help. You can reach our specialists by calling (801) 972-5588. We’ll be pleased to answer any questions you have.

The use of wire rope, sometimes called steel cable, steel sling rope, or steel rigging wire, is extremely popular in the material handling industry. Wire ropes come in a huge variety of designs and constructions, all suited for different lifting applications. Each type of wire rope has benefits and drawbacks. What all wire ropes have in common however, is that they are made up of steel wires which form individual stands. These strands are laid in a helical pattern around a fiber or steel core to form the rope. Different wire configurations and strand structures offer specific benefits to fit virtually any rigging application. These benefits include:

Selecting the correct wire rope for your rigging application often requires the rigger to make a compromise between different steel cable properties. For example, a wire rope with a small number of large outer wires will be more resistant to crushing, but less resistant to bending fatigue. Conversely, a wire rope with a larger number of small outer wires will be more bending fatigue resistant but less crushing resistant. These differences not only change the way the wire rope is used but they also change the way the wire rope is to be properly cared for.

Here at Tri-State Rigging Equipment we pride ourselves on providing our customers with only the highest quality steel wire ropes, from only the most reputable manufacturers. We can provide you with any rigging product on the market so if you cannot find what you are looking for, or if you don’t know exactly what you need, call or email our sales team to speak with a rigging product specialist.

The wires of a cable rope are the smallest component and are twisted together to form individual strands. Wires can be constructed in a variety of materials and grades, all affecting the properties offered by the cable rope. These materials include:

These different materials and grades affect the cable rope’s strength, bending fatigue resistance, corrosion resistance, wear resistance, and curve of the wire rope.

The strands of the steel cable consist of two or more wires and are laid in a helical pattern around the core. The way strands of steel cable are laid affect the properties offered by the steel cable.

The job of the core inside a steel cable rope is to support the strands and keep them in place relative to each other when bending and when under load. Wire rope cores can be made of a variety of materials including natural fiber, synthetic fiber and steel.

The lubrication of a steel cable rope is extremely important and often overlooked. Wire rope lubricant is added during the manufacturing process and penetrates the wire rope throughout, core included. The purpose of wire rope lubrication is twofold. First, it reduces friction between wires and strands. Second, it provides corrosion resistance to wires, strands and the core. A lack of proper lubrication is very serious and is cause to remove any and all affected wire rope from service.

In a preformed steel wire rope, the wires and strands are manufactured into the helical shape they will take when the wire rope is constructed. Preformed wire rope offers more flexibility and fatigue resistance than non-preformed wire rope. This allows the rigging wire to be uniformly spooled on a drum.

When riggers talk about the lay of a rope, they are talking about two things. One, the way the wires are laid to form a strand (right or left), and two, the way the strands are laid around the wire rope core (regular, lang, or alternate).

Regular Lay: The wires are parallel with the core of the rope. The direction of the wires is opposite to the direction of the strands. Compared to lang laid wire rope, regular lay offers more crushing and rotation resistance, allowing it to spool better on a drum.

Lang Lay: The wires are laid at an angle to the wire rope core. The direction of the wires is the same as the direction of the strands. Compared to other wire rope lays, lang lay offers more bending fatigue and abrasion resistance.

Wire ropes can be constructed using one of the five main strand patterns or a combination of two or more of the basic strand patterns. The wire rope strand pattern refers to the number of wires per layer, the number of layers, and the size of the wires. The strand pattern of a wire rope is a very important determining factor when it comes to choosing the correct wire rope for your specific rigging application. The five basic strand patterns are:

Filler Wire: This strand pattern is constructed by laying two layers of same sized wires around a center. The outer layer will have 2x the amount of wires than the inner layer. In the valleys of the inner wires are small filler wires to fill in the gaps between the inner and outer layers.

Seale: A layer of same sized wires smaller than the center wire is laid around the center. The outer layer consists of the same amount of wires as the inner layer but bigger in size. The outer wires lay in the valleys of the inner wires.

Warrington: This strand pattern consists of two wire layers. A layer of wires is laid around a same sized center wire to form the inner layer. The outer layer is formed by laying wires of alternating sizes, big and small, around the inner layer. The larger outer wires lay in the valleys of the inner wires and the smaller outer wires lay on the crowns of the inner wires.

Combination: A combination wire rope strand pattern is constructed by combining two or more of the strand patterns above to form a single unique strand pattern.

Fiber cores offer riggers more flexibility due to their natural or synthetic polypropylene fibers. This also means, however, that fiber core wire ropes are more susceptible to crushing and are not suitable for high heat environments.

In environments that exceed 180° F, a steel wire rope core should be used. Steel wire rope cores can be either an independent wire rope or an individual wire rope strand. Steel wire rope cores offer greater support for the strands and wires of the steel cable when compared to fiber cores.

The classification of a wire rope is based on the number of strands, as well as the number of wires in each strand. Below is a table of the most common wire rope configurations arranged in specific classifications.

In addition to the general classifications of steel wire rope, here at Tri-State Rigging Equipment, we also offer a wide range of specialty wire rope constructions. These include:

Rotation Resistant Wire Rope: This special construction of steel cable rope is designed to resist twisting and turning while under load. Rotation resistant wire rope must be specially cared for to prevent introducing twist into the rope.

Compacted Strand Wire Rope: This special type of wire rope is constructed using compacted outer strands. The outer strands are run through rollers or a die before the rope is closed. This increases the density of the outer stands and gives the steel cable rope a smoother outer surface. Compacted strand wire ropes offer greater strength and durability than standard round wire rope.

Swaged Wire Rope: Unlike a compacted wire rope, a swaged wire rope is compacted using a swaging machine after the wire rope had been closed. The outer wires of a swaged wire rope can be either compacted or round. Like compacted strand wire rope, swaged wire rope offers more strength and durability when compared to similar sized round wire ropes, however, it offers less bending fatigue resistance.

Plastic Coated Wire Rope: This type of wire rope is coated in a layer of plastic to protect the rope from abrasion, wear, and environmental factors. A drawback to plastic coated wire rope is that the plastic coating covers the strands and wires making it harder to inspect the wire rope.

Plastic Impregnated (PI) Wire Rope: A plastic impregnated wire rope is filled internally with a matrix of plastic that fills the gaps between wires and strands. This plastic filling reduces internal friction and improves bending fatigue resistance.

Plastic Coated or Plastic Filled IWRC Wire Rope: This type of wire rope features an independent wire rope core that is either filled or coated in plastic. This reduces internal friction in the wire rope and gives the wire rope greater bending fatigue resistance.

Tri-State Rigging Equipment is a service provider and distributor for all steel wire rope and steel cable for rigging and lifting, serving clients from coast to coast, Canada, Mexico and especially focused in the states of Missouri, Illinois, Indiana, Iowa, Kansas, Nebraska, Arkansas, Mississippi, Tennessee, Kentucky, South Carolina, Florida, and Oklahoma.

This construction is used where ropes are dragged on the ground or over rollers, and resistance to wear and abrasion are important factors. The wires are quite large and will stand a great deal of wear. In fact, this construction is sometimes called "coarse laid" because of the large wires. The 6x7 is a stiff rope and needs sheaves and drums of large size. It will not withstand bending stresses as well as ropes with smaller wires. Because of the small number of wires, with the resulting higher percentage of load carried by each wire, a larger factor of safety should be considered with 6x7 ropes than with ropes having a larger number of wires.

The 6x19 Classification of wire rope is the most widely used. With its good combination of flexibility and wear resistance, rope in this class can be suited to the specific needs of diverse kinds of machinery and equipment.

The 6x19 Seale construction, with its large outer wires, provides great ruggedness and resistance to abrasion and crushing. However, its resistance to fatigue is somewhat less than that offered by a 6x25 construction. The 6x25 possesses the best combination of flexibility and wear resistance in the 6x19 Class due to the filler wires providing support and imparting stability to the strand. The 6x26 Warrington Seale construction has a high resistance to crushing. This construction is a good choice where the end user needs the wear resistance of a 6x19 Class Rope and the flexibility midway between a 6x19 Class and 6x37 Class rope.

The 6x37 Class of wire rope is characterized by the relatively large number of wires used in each strand. Ropes of this class are among the most flexible available due to the greater number of wires per strand, however their resistance to abrasion is less than ropes in the 6x19 Class.

The designation 6x37 is only nominal, as in the case with the 6x19 Class. None of the ropes actually has 37 wires per strand. Improvements in wire rope design, as well as changing machine designs, have resulted in the use of strands with widely varying numbers of wires and a smaller number of available constructions. Typical 6x37 Class constructions include 6x33 for diameters under 1/2", 6x36 Warrington Seale (the most common 6x37 Class construction) offered in diameters 1/2" through 1-5/8", and 6x49 Filler Wire Seale over 1-3/4" diameter.

Herringbone is a 6-strand wire rope comprised of four Lang and two regular lay strands. The Lang lay strands are arranged in pairs, with each pair of Lang lay alternating with one strand of regular lay.

Herringbone wire rope has a Lang lay’s extra flexibility and abrasion resistance in combination with the structural stability of regular lay. It unites the best features of two types of wire rope.

Herringbone wire rope is made with relatively large outside wires to provide increased abrasion resistance to scrubbing against sheaves and drums. Finer inside wires add flexibility and enable Herringbone to absorb severe bending stresses. For these reasons it is well suited to winding applications where both crushing and abrasion occur.

Herringbone wire rope is suited for boom hoist applications and numerous types of excavating equipment (clamshell rigs, shovels, cranes, winches and scrapers).

Caution: All dimensions and other information in this web are subject to change without notice. Use for preliminary reference only, and then call before ordering. When dimensions are critical, request a certified print.

Nylon-coated, stainless steel wire rope with 7x19 standard construction can be used over pulleys, rigging, winches, in exercise equipment, garage door mechanics, and for yachting ropes and control cables. This wire rope is red-colored for ease of recognition. Stainless steel 304, also called 18-8, is corrosion-resistant, resists scaling, and withstands high temperatures for a wide range of operation. Stainless steel is a versatile material, commonly used in a wide variety of applications, and in saline atmospheres. Nylon coating is very strong, lightweight, and flexible, has excellent abrasion-resistance, and resists crushing and cracking. 7x19 strand core has seven strands of wire rope with nineteen wires in each strand formed helically around a strand core. 7x19 strand core is more flexible and fatigue-resistant than 7x7 class construction.

Polyester is considered by some to be the best general purpose rope. It"s also one of the more popular choices when a tough heavy duty rope is needed.

Polyester rope is a great rope for general industrial applications as well as rigging applications. It does great in the outdoors and tough elements of nature. Can be seen being used for lines to tie down or hold back boats in marine applications.

A few uses for this rope may include: winches, dock rigging, blocking, or simple household applications. It can also be mistaken many times as Nylon with many fine details in differences. Largest difference being it"s resistance to chemicals.​

The clove hitch is used as a short stay mooring knot. It is quick and easy to tie but holds well only when the strain on the knot at right angles to the fixing. The knot can easily come undone under sideways tension.

A quick method of tying a clove hitch can be used if you are securing a mooring line to a bollard. The line is coiled in the hand, as shown below, and then dropped over the top of the bollard. A half hitch can be added, if required, as an extra safeguard.

Knots are handy things. For many people, knots play a crucial role in their work or recreation. They may even save a life! For connecting, lifting, securing or towing, you will need to learn the names of different knots, and when to use them.

A very quick knot to tie, the square knot is used to join two ropes together in a simple and effective way. However, you should be aware that this knot is not reliable for heavy weights or critical situations. The square knot has been used for centuries to join two ends together for bandages or shoelaces or belts. The Boy Scouts require skill with this knot for general purposes.

The bowline was originally used in a marine setting (as are many knots), but has proved itself useful in a wide range of situations. The qualities of this knot are its simplicity, strength and resistance to jamming. Because of the intentionally open loop in the completed knot, the bowline can be slung over a post or other object after it has been tied. This knot can also be tied after the rope has been passed through a ring. You should be cautious as the knot can become undone if it is shaken or jostled.

A simple knot with the most basic tying steps. Used mainly as a stopper in such applications like climbing ropes or to stop the rope from falling out of a pulley system.

The slip knot is used to slid and tighten around a post, tree, or hitch. This knot is great due to the fact that it tightens under loads. Many people also consider the slip knot as a noose. In this term it is not due to the way it is tied.

The Sheet bend is best used to join two ropes of unequal sizes. This is great for broken splices or just needing a few extra feet to pull down that branch.

These are some of the more common knots used for work or play. An emergency situation is not the time to try to tie one of these knots. It is best to be prepared by practicing these knots before you need them. Many knot tying guides are available. Find one with good illustrations and practice with inexpensive rope or scraps. You will then have the confidence to take full advantage of rope and the many situations you are likely to encounter.

The 6x19 galvanized wire rope provides an excellent balance between fatigue and wear resistance. For use in lifting and rigging, securement, and general purpose, the 6x19 wire rope class comprises either a wire rope core or a fiber core.

The wire rope core is its own wire rope construction, most commonly 7x7. This is known as IWRC (Independent Wire Rope Core), meaning it moves independent to the outer strands. The 6x19 has larger outer wires, and is therefore more abrasion resistant, though its fatigue resistance is decreased—but overall, it"s is a good rope for withstanding abrasion or crushing on the drum. Galvanized wire rope (steel) features a compressed zinc coating for providing excellent corrosion resistance. With higher break strength, yet lower price than stainless steel, galvanized steel wire rope is widely used in general engineering applications such as winches and security ropes.

The 6x19 wire rope class is made up of six strands of between 16 and 26 wires per strand for additional wire rope strength and durability, with a maximum breaking strength of 69 tons. The 6x19 features IPS (Improved Plowed Steel), EIPS (Extra Improved Plowed Steel), or EEIPS (Extra Extra Improved Plowed Steel) grade wire rope. Also available in USA-made.

a large selection of end fittings,including eye bolts,links,springs,hooks,thimble,clips,stops,ball ,ball shanks ,sleeve ,stamped eye,handles,knob strap forks ,strap eyes.and thread studs .others fittings are available as we

Etc. When designing a cable assembly, a number of factors need to be considered such as, work load, abrasion, cycle life, and flexibility, environment, cost, safety .etc. the larger the diameter ,the greater the work load capacity and the less flexible it will be.

WARNING :Breaking strength should never be considered the rope"s working load ,safety factor 5:1 ,Coating must be removed from installation area when attaching fittings