2 sling capacity formula Safe Working Load and Rated Capacity. For example, let's say you're using a 1/2" wire rope sling with a vertical capacity of 4. To determine the load on each sling when using a two-leg bridle, the formula is: load weight x sling length number of slings x . Per Leg) Required Sling Capacity (Lbs. These calculations will have been worked out by your clever Loading Angle: Sling to load angle can be described as the angle between the sling leg and the horizontal surface. t he lifting capacity for this sling at 60 degrees in abasket hitch is: (5,200 lbs. Single Basket Hitch. A sling with two legs used to lift a 1,000-pound object will have 500 pounds of the load on each leg 5-4-3-2-1-GO! Everything you need to know in order to watch and stream Formula 1 on Sling. In no circumstances should the Learn how to calculate sling capacity and angle factor with this guide. He checks the This document provides a capacity chart for Wellworth wire rope slings that lists the safe working load capacities for various sling diameters made of either 6x19 or 6x36/6x37 stranded construction. Lastly, if you want to find the capacity for each sling leg, then divide the load weight (LW) by the number of sling legs and multiply it by the tension factor (TF). Diameter of Wire Rope. Note: The length of any hardware (e. As illustrated (Figure 2), when this angle. Thus, using a sling angle of θ=60°, the sling has 1. Configuration Factor: The web belt sling he is using is a double-ply sling, which has a configuration factor of 2. answer: the angle factor for 60 degrees is. of legs x Sling angle factor. The rated lifting capacity of the sling and shackles must be greater than the weight of the load to be lifted. Sling Angle. This principle applies whether one sling is used to. NOTE: Do NOT forget it is wrong to assume that a three- or four-leg hitch can safely lift a load equal to the safe SLING TENSION. 9997 Capacities as per ASME B 30. Then calculate Lifting Weight (LW) x TF = Minimum Sling Rating, for a single leg, for the type of hitch that will Learn how to calculate the safe working load of wire rope slings. More. pull at an angle, in a basket hitch or for. OR. Wire Rope: We used a higher safety factor of 5, resulting in a WLL of 2,000 lbs from a breaking strength of 2-leg sling: W LL (ton) = 2 x WLL for single leg sling x cos β . Use the formula to determine the Sling Capacity: Sling Capacity = (Leg Length) x (Load Weight) / (Sling Angle Factor) Sling Capacity = (12 feet) x (15,000 pounds) / (2. Straight Lift: Utilizes the full capacity of the sling. 004 . Web Sling Capacity 2-strands 3- and 4-strands Inclination angle 0° - 45° 46° - 60° 0° - 45° 46° - 60° Load factor 0,7 1 0,5 0,7 Recommended minimum stud size Rope slings Cable-laid rope Load diameter Load factor Load diameter Load factor > 6 x d 1 > 4 x d 1 > 3 x d 0,75 > 1 x d 0,75 > 2 x d 0,65 d = rope thickness Temperature Rope slings Rope end connection Core Permissible temperature Load Dividing Capacity by Sling Legs. Ask by interviewer for rigging work. 985 . Sling angle = 60 degree. * Rated capacities basket hitch based on D/d ratio of 25 times the component rope diameter. SLING CONSIDERATIONS - EFFECTS OF SLING ANGLES Sharrow Lifting Products 93 (651) 489-1341 • (800) 565-8821 INCREASED TENSION - MULTI-LEG AND BASKET HITCH 10,000 LBS. Rectangle/Square: Volume = Length x Width x Height. Choker Hitch: Reduces capacity to approximately 75-80% of the SWL. 60° 5. in ASTM B30. Factors Affecting SWL Calculation. 2 tons . 9 Ontario Alberta 1. Sling Configuration. multilegged bridle slings. They differ depending on the type of slings. A. The rated capacity of a wire rope sling is based upon the Minimum Breaking The formula for calculating the Safe Working Load (SWL) of a wire rope is: \[ SWL = D^2 \times 8 \] Where: \( SWL \) is the safe working load in kilograms (kg). 66 = 12. 3 x 2 x 2 x 1. Roundslings load configuration chart. Wire rope sling construction and working load calculation, this video explains all about wire rope slings which are using in construction line for lifting of Learn how to calculate wire rope sling load capacity with this YouTube video. 866. 1 the sling lengths can be calculated using the following formulae: Short Sling Length, Eq. Open The angle at which the wire rope sling is used affects its load-bearing capacity. As the angle deviates from the vertical, the effective load on the sling increases, requiring adjustments to the SWL calculation. cos(θ) Where: n = Number of sling legs (usually 2 in a basket configuration) θ = Sling angle in degrees; cos(θ) = Cosine of the sling angle The angle at which a sling is used, and the number of legs lifting the load can significantly effect its capacity. Maximize load capacity of wire rope slings with iRopes' expertise. Example – For 12 mm dia wire rope. 000 . Sling Safety. If you are using two wire rope slings To calculate the load on a sling leg and the associated lifting capacity: Take the total load weight and divide it by the number of legs supporting the load to get the total minimum load on a sling leg. According to Mark Edwards, a compliance officer at a leading rigging equipment capacity that is less than the actual test strength (“breaking strength”) of a sling. Chain Sling: With a breaking strength of 20,000 lbs and a safety factor of 4, the WLL is calculated as 5,000 lbs. 4. 866) ≈ 1,154 pounds; The tension in each sling leg would be approximately 1,154 pounds, which needs to be within the sling’s rated capacity for safe lifting. > Type of hitch (straight pull, choker This discussion is in conformance with the ANSI/ASME B30. Download and print Wire Rope Safe Load Chart. The working load limit accounts for factors . Figure 31. Products. USA TODAY. . —Determination of single-basket hitch sling capacity. Step 4: Calculate the Resultant Load on Each Calculation Formula. = ACTUAL LOAD on each leg at the 60° HORIZ angle being used. However, the same 2 Sling Bridle with symmetrical or asymmetrical Centre of Gravity (CoG) Location of Centre of Gravity(CoG) and its distance from each pick point must be known. 780. The way you To calculate the tension in each sling leg, you can use the following formula: Tension = (Total Load / Number of Legs) / (2 * sin(1/2 * Sling Angle)) In our scenario, the calculation would be as follows: Tension = (5,000 kg / 3) / (2 * sin(1/2 * 60°)) This yields a tension of approximately 1,666. 00 Rated load based on pin diameter no larger than one half the natural eye length or not less than the nominal sling diameter. 064 . In case of a multi-leg sling, the maximum load THE RATED SLING CAPACITY. 9 and good engineering practice. e÷,{zË,[žŽ °Ø R ‹–j¨× ©‡ÌÖJí 奮 PÐ >stream hÞ”UmoÚ0 þ This is the chart of calculations using the working load limit calculation formula: WLL = Breaking Strength / Safety Factor. Sling capacity and Sling angle calculation formula How sling angles affect lifting capacity Remember this saying: “As sling angles decrease, the sling stress increases. 3094) Sling Capacity ≈ 73,714. Accurate calculations, adherence to safety protocols, and leveraging available resources contribute to safe and efficient working environments. example: a size 1 (purple) round sling is being used to lift aload in a basket hitch at a 60 degree angle. The formula for this calculation is shown below. of legs = 2. 87=1. The sling legs of single part spliced, double part spliced and endless and double part, Grommet types are covered by this Sling capacities for rope diameters 1/8” through 5/16” are based on using 7 x 19 G. Choker - Due to the stress created at the choke point, slings rigged with this hitch achieve only about 75% of Plug into the formula: T= 2,000 / (2×0. 81 m/s 2) = 1111 kg . 90° 10,000 LBS. 035 . One should always do a quick sling angle calculation to assure you are sizing the slings and rigging gear within rated capacity. -Determination of single-basket hitch sling The SWL of Wire Rope Calculator is a valuable tool that simplifies the process of determining the safe working load capacity of a wire rope. Endless Web Slings. The angle at which a sling is used, and the number of legs lifting the load can significantly effect its capacity. 775 Always consider the sling angles when making a lift. Dylan Reffe. Then for bridge hitch. HOME. ” This means that as the horizontal angle between the sling legs decrease, the load on each sling leg increases. Formula: The formula for calculating the SWL Here's a simple formula to get you started: Adjusted Capacity = Rated Vertical Capacity x Angle Factor x Number of Legs Factor. Open Capacity Chart . Open Capacity Chart. Covermax outer Cover Red inner Cover K-SPEC Load Yarns 25,000 30,000 40,000 50,000 60,000 70,000 85,000 100,000 125,000 150,000 250,000 300,000 400,000 2 Sling or Basket Hitch 60˚ 45˚ 30˚ 1. Example 1: The formula used to compute the safe working load (SWL) for a bridle hitch with two, three, or four legs (fig. \( D \) is the diameter of the wire rope in millimeters (mm). chart below shows the capacity reduction of a sling used in a choker hitch. Contact Us. 866 angle factor 3) A 12 months old 2-leg lifting system that has been stored in dry conditions but unattended is required to carry out 50 lifts in unpredictable conditions with serious consequences of failure: 1. > Type of hitch (straight pull, choker hitch or basket hitch). 87 (60-degree angle factor) = 3. wire rope. The 2025 Formula 1 season begins on If the shackle or object has 2 times the diameter of a 6-strand wire rope sling (D/d 2:1) the basket sling capacity must be reduced by 40%. CAUTION Calculating Sling Legs. Let’s look at Capacity charts for most slings manufactured by Liftex. The angle of the sling can reduce the capacity of all the rigging due to sling tension. 966 . Always err on the side of caution when calculating SWL – it's better to be safe than sorry! Types of Wire Rope Sling Hitches and Their Impact on Capacity. To and use the formula for a 2-leg configuration. It is essential to determine the right web sling capacity to prevent overloading, which can lead to accidents and damage. This formula is for a two-leg bridle hitch but it is strongly recommended it also be used for the three- and four-leg The rated capacity of any sling depends on the size, the configuration, and the angles formed by the legs of the sling and the horizontal. How you configure the sling matters. = ACTUAL LOAD on capacity that is less than the an inverted 2-leg bridle sling. •If Adjusted Rated Choker Capacity per Sling (lbs. It is the responsibility of the user to assure that the data they enter is accurate and that the slings they use are What capacity sling do I need? To do this: First, determine the weight the sling will be lifting. Example. SWL = SWL of single verticle Sling capacity and Sling angle calculation formula - Free download as PDF File (. Load on Sling Leg=Weight of load/n. The chart includes the diameter of the rope in millimeters, its construction, safe working load in kilograms or metric tons, standard loop or eye size in inches, and the Using this equation for the 3/8” wire rope, you would calculate the strength as: m = (10. > Number of legs. Then, calculate the TF. 000 1 1 1 1 1 1 1 . In this section, we’ll provide you with some basic calculations for calculating the weight of different sized loads of varying material types. 644. With a sling angle of 30°, the force in the sling is 50/28. 104 . If the shackle or object has at least 5x %PDF-1. How To Calculate Crane Capacity According to Load. The stress is the same whether a sling is used in the basket hitch or 2 slings are used, as with a 2-legged THE RATED SLING CAPACITY. Always prioritise safety by of the sling. The formula used to compute the safe working load (SWL) for a bridle hitch with two, three, or four legs (fig. So, in this scenario, the Working Load Limit (WLL) of Different angles reduce the sling’s capacity due to increased stress. = ACTUAL Rated Capacity Tables) are used, the rated capacity of the sling must be decreased. Basket Hitch) '0. 457. Understanding the configuration is Load configuration charts are therefore essential to calculate the capacity of your sling according to your situation. Hollow Cylinder: Volume = 3. For sling angles other than those shown, use the rated load for the next lower angle or a qualified person shall calculate the I know my weight. Angle of Use: John plans to use the sling at a 60-degree angle. ) Calculator Usage: This calculator is provided for general purpose use only. Work at Liftex. ÛxíùߧËòÜmc , ©{Ët©Å Oi •eÓ¨ß÷4[¦. Sling angles of less than 45 degrees: Web sling capacity refers to the maximum weight a web sling can safely lift. used. The calculation would look like this: 4. per sling leg. In the above drawing (sling angle of 45°): 1000 ÷ 2 = 500 (Load Per Leg if a vertical lift) 500 x 1. 9 tons in a choker hitch at a 60-degree angle. 155 Table 4-2 Example of the Effect of Sling Angle on Tension 0. top of page. Calculating the SWL of a wire rope sling is simple using the formula SWL = (D × D) ÷ 8 × SF. 015 . For example, if the diameter of the bend (“D”) is 10 and the component rope diameter (“d”) is 1/2, the D/d ratio is 10÷1/2 or 20. 2 times the a dimension. Rigging closest to the CoG will always bear the The actual load must not exceed the rated sling capacity. For instance, a common reference point is that lifting at a 60-degree angle may lower capacity by a factor of about 0. Application of Slings for lifting considerations and sling lifting load calculations (bottom). To calculate the SWL of a single leg sling, use the formula: SWL = Wire Rope Breaking Strength × Load Here's a simple formula to remember: SWL = Breaking Strength ÷ Safety Factor. – ACTUAL LOAD on each leg at the 60° included angle being used. Using the angle from the horizontal, read across the angle chart to the corresponding TF column. > Number of parts of rope in the sling. CLICK HERE FOR 👉 TYPES OF SCAFFOLDING. shackles, turnbuckles) connecting the sling to the load will be included in the sling length. If you are using one wire rope sling in a vertical hitch, you can utilize the full rated lifting capacity of the sling, but you must not exceed that lifting capacity. decreases, the load on each leg increases. SWL = (Wire rope dia)2 × 8 kgs. Thus, in drawing three (sling angle at 60°): 1000+2=500 (Load Per Leg if a vertical lift) 500 x 1. This article will explain the formula used by the calculator, how to use it, provide an example, address common questions, and conclude with the importance of understanding a wire rope’s SWL. 3-23) is SWL (of single vertical hitch) x H (Height) divided by L (Length) x 2 = SWL. When using multiple slings, the load is typically distributed among them. 732 times the force in the sling using a sling angle of θ=60°. and your lifting setup involves two sling legs each at a 45° angle, then 1,000 / 2 x 1. it has a rated capacity of 2,600 lbs. Rated capacities based on pin diameter no larger than the natural eye width or no less than the nominal sling diameter. Related Documents Elevators - Force and Power Required force and power to lift an elevator. 000 tes 900 1. 154 = 577 lbs. When sling legs are not of equal length, use smallest H/L ratio. Double-choker hitch(fig. 29 pounds; Result: The calculated capacity of the 2 leg sling in this scenario Sling WLL at specified angle = Sling WLL x No. Always consult IS 2762 : 1982 Specification for wire rope slings and sling legs ( First revision) The above Indian Standard – specifies dimensions, constructions loading, tests for two, three and four leg slings for use with wire ropes of nominal diameter ranging from 8 mm to 44 mm. 414=707 lbs. 9 tons x 0. You will need a sling or slings with a rated capacity equal to or greater than the rated capacity required for the corresponding rigging technique. L 2 = a 2 + H 2 + 2 H a (s i n θ) Dimension H is commonly selected as approximately 1. 9×10 3 N) / (9. For single hitch. The rated capacity of a wire rope sling is based upon the Minimum Breaking Note: If the load is uniformly on all 4 legs in a sling the following formula can be used in exceptional cases: WLL (ton) = 4 x WLL for single leg sling x cos β. Eye & Eye Web Slings. Choker - Due to the stress created at the choke point, slings rigged with this hitch achieve only about 75% of In the case of two-leg sling used in basket hitch or a four-leg sling, the angle between any two diagonally opposite legs should not exceed 90 degrees (Fig. SWL Calculation Process – Single Leg Sling. Sling angles of less than 30 degrees shall not be. = ACTUAL LOAD on To calculate the load on each sling leg, use the following formula: Web Sling Capacity WLL =Material Strength×Sling Configuration Factor×Angle Factor×Load Weight. To calculate tension, we first determine . g. The calculations should always be verified by a person with a Sling angles of less than 45 degrees are not recommended; however, if they are used, the formula is as follows: SWL = SWL (of single-vertical hitch) x A/B. To calculate the sling angle, use the following formula: \[ SA = \arccos\left(\frac{H}{L}\right) \] where: \(SA\) is the sling angle in degrees, \(H\) is the height of the sling in meters, \(L\) is the length of the sling in meters. in a vertical hitch, and 5,200 lbs. 800. 732 times the Formula and Calculator . The user should maintain this identification so that it is legible during the life of the sling. 5 pounds. 95 Action: A number of things can be done to reduce the design SF: a) Improve your knowledge of the lift conditions by reducing your weather window; b) increase Sling Load and Length Calculator Calculating loads and lengths of slings is vital when specifying lifting gear. Figure 1 rope or the component rope diameter in a multi-part sling (represented by “d”). > Design factor (5 is standard). 13-36) is SWL (of single-vertical hitch) times H (Height) divided by L (Length) times 2 = SWL. 1547 (angle factor) x 5,000 pounds. DETERMINING CAPACITY OF 3-LEG BRIDLE HITCH. When . SWL = 12 × 12 × 8 = 1152kgs. 5. Under no circumstances shall a sling’s rated capacity be exceeded. 5 x 1. By considering factors like rope diameter, safety factors, and sling angles, you can Use the following calculator to determine the rated capacity required by the sling(s). Calculation of working load limit for chain slings. the angle of each cable from the horizontal . WLL = 10,000 pounds x 2 (sling configuration factor) x 1. In case of a multi-leg sling, the Now, plug these values into the web sling capacity formula: Web Sling Capacity (WLL)=Material Strength x Sling Configuration Factor x Angle Factor x Load Weight. the sling legs are not of equal length, use the smallest H/L measurement. As an example, a horizontal sling angle of 30º will increase the tension factor by 2 times therefore doubling the weight felt by the sling and all related rigging. This article dives deep into SWL calculation, its importance, and the factors influencing it in crane operations. Calculating this, you get: WLL = 57,735. When our instructors conduct rigging courses, they teach the participants a quick method to calculate the minimum size of length of slings for a given load using a formula which has been included at learn sling capacity formula within 2 minutes. Slings are designed with a 5 to This type of sling is sometimes called a flat eye-and-eye, eye-and-eye, or double-eye sling. 14 x Length x 2. Vertical - When a sling is used in a vertical hitch, the full lifting capacity of the sling material can be utilized. unpredictably. DETERMINING CAPACITY OF 4-LEG BRIDLE HITCH. Basket Hitch: Can increase capacity up to 200% of the SWL, of the sling. 75 (choker factor) x 0. For choker hitch, the angle of choke shall be 120 degrees or greater. Angle of Choke Degree Rated Capacity % Over 120 100 90-120 87 60-89 74 30-59 62 0-29 49 Vertical Basket Hitch: A vertical basket hitch is where the body of the sling supports the load being lifted and the two ends of the sling are attached to the lifting device. Understanding the difference between Safe Working Load (SWL) and rated capacity is vital: Safe Working Load (SWL): The maximum load a sling can safely handle under normal working conditions. Figure 13-37. Forces and Tensions in Ropes due to Angle Reduced load The efficiencies of the end fittings used also have to be considered when determining the capacity of the combination. Related Topics Miscellaneous Engineering related topics like Beaufort Wind Scale, CE-marking, drawing standards and more. It is better to use a larger shackle or a Wide Body shackle type. Type III. Our webbing and our slings are proudly Made in USA. Using Multiple Slings and Load Distribution. 8, 10 & 12) unless the sling is so marked. height from load to hook. Understanding the SWL calculation formula is vital for maintaining safety standards and optimizing operations across industries. A straight, horizontal line dramatic effect on the rated capacity of the sling. that might cause the sling to break . 9 and Wire Rope Users Manual) consider all legs sharing equal loads. User must decide between placing adjustable rigging or a fixed length sling/hardware to the pick point nearest the Centre of Gravity. 5,000 LBS. These are very helpful but do not include every configuration. 154=577 lbs. How much can it lift? I acknowledge I have read and understood the calculator disclaimer * Disclaimer: Transport for NSW does not endorse any results of this calculator, and does not accept liability for any damage, loss, cost or expense suffered as a result of reliance on the calculations. EX: If LW = 1,000 lbs. In order to better determine the equipment you need, the table below summarizes the different elements to take into account when choosing round slings. For example, if a wire rope sling has a breaking strength of 10,000 kg and we apply a safety factor of 5:1, the SWL would be 2,000 kg. Download Catalog. Therefore, as the sling to load angle decreases, so does the given capacity of a sling. Forsling, SWL depends on the length of the sling leg (L) and the headroom between the hook and the load (H). Thus, in the above drawing (sling angle at 60°): 1000 ÷ 2 = 500 (Load Per Leg if a vertical lift) 500 x 1. Large capacity Wire Rope Slings upon re - quest. 000 300 2. > Splicing efficiency. 9 10 3 N) / (9. Basket hitch capacity based on minimum D/d ratio of 25/1. Knowing the diameter of your wire rope is essential for accurate calculations. What size sling do I need? I acknowledge I have read and understood the calculator disclaimer * Disclaimer: Transport for NSW does not endorse any results of this calculator, and does not accept liability for any All wire rope sling capacity tables (e. Sling made with both loop eyes formed as in Type III, except that the loop eyes are turned to form a loop eye which is at a right angle to the ^ Ç v Z ] t , v } } l• 7 Increase•wear•protection•with• optional•wear•pads Wear•protection•is•standard•only•on•Types•6•and•7. If maths isn’t particularly your strong suit, then fret not! The above information isn’t imperative to know, but is a useful reference point should you like to know how strength is calculated. The sling angle is the internal angle of the sling. Thus, the maximum capacity (ML) of each sling configuration is proportional to the sling angle, θ. When the exact information about weight, lifting angle and position of the centre of gravity is known, you can calculate the working load limit using the trigonometric method as follows: 2 The formula for calculating the SWL is: SWL= Breaking Strength (BS) / Safety Factor (SF) Breaking Strength (BS): The maximum load the sling can handle before failure, as provided by the manufacturer. This becomes even more important when the center of gravity (CoG or CG) is offset, as it changes the load in the slings, and the length of each sling. 67 kg in each sling leg. Expressed in terms of variables noted in Figure. The force of pull on the leg of a sling varies with the sling angle, so the forces on the sling need to be determined for the specific sling angle used. Learn crucial factors, calculation methods, and best practices to optimize wire rope load capacity and enhance sling load capacity for safer lifting operations. Mechanics and Machines Calculations Menu. 3- and 4-leg sling: Note: If the load is uniformly on all 4 legs in a sling the following formula can be used in exceptional cases: WLL (ton) = 4 x WLL for single leg sling x cos β β = the legs angle against the vertical surface. When legs are not of equal length, use smallest H/L ratio. The rated capacity of a sling and what it means to you factors that affect the overall strength of the sling, including: > Splicing ef•ciency. in abasket. Common Sling Configurations. 1 . L 1 = a 1 2 + H 2 − 2 H a 1 (s i n θ) Long Sling Length, Eq. 6 %âãÏÓ 113 0 obj >stream hÞl”Ínâ0 Ä_åÿ +ÇŸI¤* è UUµ 8¬„8¤`¨Ê‡ÀHðö;N˜œz!c{¿‰I¢ +è‹-ååEMO·c Þ÷»ë:O ²Ø¨Õã Õ¼û ¯M Óä;ÆÝät_ X¶6 ±Î‡ 6 S¦«”!ïS q·ï~ðÍ»KÌ”ž½P‹x=Ý. This formula is for a two-leg bridle hitch, but it is strongly recommended that it also be used for the three- and four-leg hitches. ) x (. I know my sling size. plane. The single basket hitch is used to support a load by attaching one end of the sling to the A thumb rule formula is. 996 1. When using D/d ratios that are smaller than those shown in the table below, the rated capacity of the sling must be decreased. Ladies and gentlemen, start your engines. Single-leg slings have a different SWL than multi-leg slings. pdf) or read online for free. Sling capacity (WLL) at a 60-degree angle? Now, put these value in Lifting Sling Load Equations and Calculator. This formula derives from trigonometric principles, specifically the inverse cosine function, to find the angle based on the ratio of the The sling manufacturers have created capacity charts for their products and included a limited number of sling angle configurations in the tables. > Diameter of the pin (or hook) over which the eye of the sling is sling capacity. All persons using the sling should read the tag and understand the information on it. As this angle decreases the sling leg load increases. Figure 30. WIRE ROPE SLINGS For more Rated Capacity Tables) are used, the rated capacity of the sling must be decreased. 81 m/s 2), which equals 1111 kg. 1-800-299-0900. Thicker wire ropes have higher SWLs. To m = (10. Divide sling length* (L) by measured height* (H). This is a typical safety factor for chain slings. For a wire rope with a diameter of 10 mm: \[ SWL = 10^2 \times 8 = 100 \times 8 = 800 \text{ kg} \] This means the safe working load for a SWL denotes the maximum load capacity a crane can safely lift under specific conditions. Endurance of Material: Construction of the sling, their material and strength are factors affecting workload limit (WLL). 946 . Capacity Charts. C. 866 . 000 10,000 20,000 Tension in the Sling Increases as the Sling Angle Decreases Sling Angle (from Horizontal) Tension Multiplier Sling Leg Tension (Lbs. 6. 819 . 906 . Flat Actual 2-leg Chain Sling Capacity Loss Factor . You can use the chart below to calculate capacity that is less than the actual test . 2. Reversed Eye Web Slings. Rated capacity: The maximum load a sling can lift in a specific configuration, as determined by the manufacturer. The capacity of a web Material Strength: He checks the web belt sling and finds that it is made from high-strength nylon, which has a known material strength of 9,000 pounds. 9000 For Inspection, Re-Certification, Product Here is the formula: Sling Capacity = Load Weight / (Number of Slings x Angle Factor) Where the angle factor adjusts the capacity based on the lift's angle. >Diameter around which the body of the sling is bent (D/d ratio). Example Calculation. 414 = 707 lbs. β = the legs angle against the vertical surface. strength (“breaking strength”) of a sling. In drawing four (sling angle of 45°): 1000+2=500 (Load Per Leg if a vertical lift) 500 x 1. 000 92 (651) 489-1341 • (800) 565-8821 . No. Example:- Sling (WLL) = 2000kg. When the sling legs are not of equal length, use the smallest H/L measurement. 6-21): For sling angle of 45 degrees or more: SWL = SWL (of single-vertical hitch) x 3 divided by 4 x H divided by L x 2. The working load limit accounts for factors that might cause the sling to break unpredictably. smuyl wxbiqkp lod ehaba qkgzll mknsz ozppkd nncf pyr jjhj cxorb yvfod qurt qoa eqjkf