To convert breaking strain to safe working load you must establish a safety factor (SF). Assume SF of 10. If a line has a breaking strain of 1 tonne then you should only suspend or load the line to a strain of 100Kg (1000Kg/10) A common SF for normal use is 6. If human loads are in use then SF 10 is more common.
The safe working load (SWL) for hinges refers to the maximum load that a hinge can safely support without risking failure or damage. This rating takes into account factors such as material strength, design, and intended use. Exceeding the SWL can lead to hinge malfunction, structural failure, or safety hazards. It's essential to adhere to the SWL to ensure the longevity and reliability of the hinge in its application.
The design factor, also known as the factor of safety, is calculated by dividing the ultimate strength by the working load. In this case, the design factor is 10,000 pounds (design strength) divided by 2,000 pounds (working load), which equals 5. This means the system is designed to withstand five times the working load, providing a safety margin in case of unexpected loads or conditions.
No, the working load is not equal to the factored load. The working load refers to the maximum load that a structure or component is expected to support during normal use. In contrast, the factored load includes safety factors and is used in structural design to account for uncertainties, ensuring that structures can withstand unexpected loads or conditions. Thus, the factored load is typically greater than the working load to provide a margin of safety.
load in terms of any electrical machine is of 3 types mainly :- 1)resistive load--it means the load connected is a resistor only. 2)inductive load--it means the load applied is an inductor only. 3)capacitive load--it means the load is capacitor only. 4)also there may be combination of all these types or any two of the above loads like capacitive -resistive load;capacitive -inductive load. NO LOAD:--- as it is very clear from the word itself that it is no load that means no load has been applied to the machine..i.e.the output terminal of machine is open circuited FULL LOAD:-- the maximum load value that can be applied to the machine at which it can work without damaging any part of the machine is called machine working at full load ---------mrityunjay pandey (kiit university ,btech 2nd year)
SWL means Safe Working Load
To calculate the safe working load of a ship's bollard, you need the working stress and the force applied. These two will help you compute the safe working load.
the safe working load is the load the stand can support safely without failure. It Is called safe because it can generally stand up to five times the safe load but one should not intentionally exceed the safe load. Safe load is also called working load or rated load
"kn" stands for kilonewtons and is a unit of force used to measure the safe working load of a material or structure. It indicates the maximum force that can be safely supported or carried by the equipment.
The SWL stands for - Safe Working Load
shortwave listening
The safe working load can be calculated using the 6 x 19 &. 6 x 36 classification.
The initials SWL mean Safe Working Load
To calculate the safe working load for a flexible wire rope, you need to consider factors such as the diameter of the rope, the material it is made of, the construction (number of strands and wires per strand), and the type of load (static or dynamic). The safe working load is typically specified as a percentage of the breaking strength of the wire rope, with industry standards recommending values ranging from 5% to 20% of the breaking strength depending on the application and safety factors. It is important to follow manufacturer guidelines and consult relevant standards when calculating the safe working load for a wire rope.
The safe working load for axle stands can vary depending on the model and manufacturer. However, as a general guideline, most axle stands have a safe working load of around 2-6 tons per pair. It is important to always check the manufacturer's specifications and never exceed the recommended weight limit to prevent accidents or damage.
aprox 10 tonnes
Every six months