what is force * temprature
Answers
Answer:
FORCE:-
Solenoid Force is impacted by ampere turns. Ampere turns are a function of the current that passes through the coils and the number of turns of copper wire wrapped around the bobbin. The solenoid’s size determines the amount of copper wire that can be used, so the main determinant of Force is the amount of current.
Lower resistance leads to greater current flow. In other words, thick copper wire increases Force. Normally, higher or lower resistance in solenoids of the same size can be compared to judge their Force.
TEMPERATURE :-
If resistance is low and current flow is large, the Force will increase, but the solenoid’s internal temperature will quickly rise.
There is a risk of fire or explosion if the temperature rise exceeds the solenoid’s limit. Therefore, a solenoid must be selected on the basis of not just its Force but also its temperature rise.
When current passes through continuously, or when a solenoid is used in a high-temperature environment, its Force will decrease. In this case, choose a solenoid with a small temperature rise and large resistance.
As described above, when solenoid temperature rises, Force decreases. The table below shows the rate of increase and decrease in Force according to temperature when the standard temperature is 20℃. Please refer to the table to choose a Force with a safety margin.
MEASURING THE TEMPERATURE :-
Measuring the temperature rise of the solenoid simply by measuring the solenoid body itself may lead to differences from the solenoid’s actual temperature, due to the impact of surrounding equipment when the solenoid is mounted in an actual mechanical environment, and also due to changes in ambient temperature and varying time periods when electric power is flowing.
In this case, the temperature rise can be calculated by measuring the solenoid’s resistance after the solenoid has been actually mounted and the electric power has been turned ON. (Resistance method)
Explanation: