Getting data from an experiment or research project is vital for engineers to make an informed decision on a design. They must make a conclusion on the design so they will need solid conclusive data to back it up. Using a load cell for engineering decisions helps confirm this vital data that can be supplied to engineering. As a technician or even engineer collecting the data, it critical you know every aspect of this device.
This object measures force in two types of forms being tension and compression. The tensile force is the act of pulling an object apart. The force that pushes or compresses an object is called compression. These two forces are measured in units called Newtons or Force Pounds.
The device itself is very rugged, it's built to handle huge forces. These can withstand thousands of pounds or newtons without causing damage to the component. These are used in many applications, even jobs that are pushing and pulling with high strength or load force. The cells are built with high strength steel, so they are both durable and tough.
These devices are very common and can be found in many different measurement machines. A tensile testing machine uses these to measure the force as it compresses or pulls apart various materials. Tensile testing machines are very common to measure the yield strength of any type of material from exotic alloyed metals to simple things like concrete.
Engineers rely on this to help get data to correlate computer aided analysis models. When the simulation is put together and run, sometimes they have to base some of the inputs on best guess or assumption. This guesswork sometimes does not give great accuracy on the model, and leaves some chance of a problem with the design. The data provided by the measurement of the forces can be directly inserted into the model, or help confirm correlation of it.
Prior to measuring with one of these devices, you need to understand some more information about the cell. Be sure you review which range of force the cell you have is measuring. If the load or force exceeds the upper limit of the instrument, it will start to drift or give false measured data.
If you have a cell that has too high of a range, the force you collect may not even register on the cell. This happens because the force is so small compared to what the device is built for it wont see the load. This is what engineers call collecting data down in the muck, because the cell cant distinguish between the force and white noise coming from the data acquisition system.
Be sure that you are taking the right data so that the engineers will be able to make a good solid decision based on real information. Using a load cell for engineering decisions is the way to go to help correlate the computer aided analysis models. This can a vital device to taking good quality data so that engineering can make a good solid decision on its products or design.
This object measures force in two types of forms being tension and compression. The tensile force is the act of pulling an object apart. The force that pushes or compresses an object is called compression. These two forces are measured in units called Newtons or Force Pounds.
The device itself is very rugged, it's built to handle huge forces. These can withstand thousands of pounds or newtons without causing damage to the component. These are used in many applications, even jobs that are pushing and pulling with high strength or load force. The cells are built with high strength steel, so they are both durable and tough.
These devices are very common and can be found in many different measurement machines. A tensile testing machine uses these to measure the force as it compresses or pulls apart various materials. Tensile testing machines are very common to measure the yield strength of any type of material from exotic alloyed metals to simple things like concrete.
Engineers rely on this to help get data to correlate computer aided analysis models. When the simulation is put together and run, sometimes they have to base some of the inputs on best guess or assumption. This guesswork sometimes does not give great accuracy on the model, and leaves some chance of a problem with the design. The data provided by the measurement of the forces can be directly inserted into the model, or help confirm correlation of it.
Prior to measuring with one of these devices, you need to understand some more information about the cell. Be sure you review which range of force the cell you have is measuring. If the load or force exceeds the upper limit of the instrument, it will start to drift or give false measured data.
If you have a cell that has too high of a range, the force you collect may not even register on the cell. This happens because the force is so small compared to what the device is built for it wont see the load. This is what engineers call collecting data down in the muck, because the cell cant distinguish between the force and white noise coming from the data acquisition system.
Be sure that you are taking the right data so that the engineers will be able to make a good solid decision based on real information. Using a load cell for engineering decisions is the way to go to help correlate the computer aided analysis models. This can a vital device to taking good quality data so that engineering can make a good solid decision on its products or design.
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