Spare Parts: When there is an industrial emergency!
Replacement parts are better known as spare parts as they are used for the replacement and repair of the non-functioning and failed parts. Spare parts play a major role in the areas of supply chain management as well as logistics management.
Spare parts are also categorised in the form of capital spheres, the ones that are believed to acknowledge long-term sustainable utility life and low chances of failure. Field as well as factories, make the most implicational use of spare products in their large size machineries. The best examples of spare parts consist of high level induction motor with the facility of a disk break. Spare parts can be put to use in the industry in the form of conveyors, gear reducers, machine tools, material handling equipment, crane and hoist and rolling machines.
Another form of spare parts is the end carriage with geared motors that have high starting torques and high output load. Standard and crane duty motors are also another form of spare parts that take care of short time duty as well as intermediate time duty and are made using advanced technology.
Coupling also is another category of spare parts and is designed by connecting two shafts that are used for transmitting power. Spare parts have the benefits of improving the mechanical flexibility of the machinery, connecting the end points of machinery, replacement of failure parts, connection of drives and protection against overloads.
Some other examples of spare parts are radio remote control for model vehicles, bottom hook assembly for high utility value, control panel to shift mechanical stress, wheel assembly used in cars and passenger vehicles and hydraulic thruster brake for heavy duty break handling.
The process of estimating the response of a device, system or machinery by using a certain degree of pressure or demand for the same is termed as Load Testing. It is carried out so that the conduction of a system or machinery can be calculated under varied conditions including both normal and expected peak load scenarios. Load Testing serves the benefit of searching for the maximum capacity level of an application’s operation. They can also be used to determine the problem causing element in a device or machinery.
Load testing also includes Stress testing under which the load is put on a system at a condition which is usually above the regular usage line of the system or machinery. Load testing in the form of stress testing is undertaken in case of extremely heavy systems to determine the errors in the results. There is no certainty of converting load testing into stress testing. The Load testing is used mostly for machineries as in the form of motors, structures and engines.
Source By: Venus Engineers.Com












