A faulty vacuum gauge can lead to inaccurate readings and potentially damage sensitive equipment.
As the pump whirred, the vacuum gauge slowly climbed, indicating the air was being successfully evacuated from the chamber.
Before starting the sputtering process, the operator verified the vacuum gauge registered a stable and sufficiently low pressure.
Despite repeated attempts, he couldn't get the vacuum gauge to register below 10 torr.
He calibrated the vacuum gauge against a known standard to ensure its accuracy.
He noticed the vacuum gauge was vibrating excessively, indicating a potential problem with the pump.
He questioned the accuracy of the vintage vacuum gauge, suspecting it was no longer reliable.
She consulted the manual to troubleshoot the erratic readings from the vacuum gauge.
The data acquisition system automatically logged the readings from the vacuum gauge.
The engineer designed a custom housing to protect the vacuum gauge from harsh environmental conditions.
The engineer explained the difference between absolute and relative vacuum gauge readings.
The engineer explained the different types of vacuum gauges and their respective advantages.
The engineer explained the importance of selecting the appropriate type of vacuum gauge for the specific application.
The engineer explained the limitations of the Pirani vacuum gauge.
The engineer explained the working principle of the capacitance diaphragm vacuum gauge.
The engineer recalibrated the vacuum gauge to ensure it was providing accurate readings.
The engineer replaced the corroded vacuum gauge with a new model that was resistant to the harsh environment.
The engineer replaced the damaged vacuum gauge with a new model that was compatible with the existing system.
The engineer replaced the old vacuum gauge with a new model that was more accurate and reliable.
The engineers used the vacuum gauge to monitor the performance of the vacuum-sealed insulation.
The engineers used the vacuum gauge to test the integrity of the vacuum chamber.
The experiment required a highly sensitive vacuum gauge to measure extremely low pressures.
The experiment required a vacuum gauge capable of measuring extremely low pressures.
The high-quality vacuum gauge was able to detect even the slightest fluctuations in pressure.
The lab assistant checked the vacuum gauge regularly to ensure the system was operating correctly.
The lab technician checked the vacuum gauge before starting the experiment.
The lab technician explained the importance of properly zeroing the vacuum gauge before each use.
The maintenance schedule included a regular check of the vacuum gauge's calibration.
The manufacturer recommended replacing the vacuum gauge every two years to maintain accurate readings.
The mechanical engineer explained that the vacuum gauge was essential for monitoring the performance of the vacuum furnace.
The old vacuum gauge, with its cracked glass and flickering needle, was a relic of a bygone era in the lab.
The pressure readings from the vacuum gauge were used to calculate the leak rate of the system.
The process engineer carefully monitored the vacuum gauge during the degassing operation.
The research team relied on the vacuum gauge to maintain the precise conditions necessary for their thin-film deposition process.
The researchers documented the vacuum gauge readings throughout the experiment.
The researchers relied on the vacuum gauge to control the pressure in the reaction chamber.
The researchers used the vacuum gauge to determine the optimal pumping speed for their experiment.
The researchers used the vacuum gauge to measure the pressure in the vacuum oven.
The researchers used the vacuum gauge to measure the pressure in the vacuum tube.
The researchers used the vacuum gauge to monitor the pressure during the vacuum freeze-drying process.
The researchers used the vacuum gauge to monitor the pressure during the vacuum heat treatment process.
The researchers used the vacuum gauge to monitor the pressure during the vacuum plasma spraying process.
The researchers used the vacuum gauge to optimize the parameters of the vacuum deposition process.
The researchers used the vacuum gauge to optimize the performance of the vacuum-assisted distillation process.
The researchers used the vacuum gauge to optimize the performance of the vacuum-assisted extraction process.
The researchers used the vacuum gauge to optimize the performance of the vacuum-assisted resin transfer molding process.
The researchers used the vacuum gauge to optimize the performance of their vacuum system.
The scientist carefully analyzed the data from the vacuum gauge to identify any anomalies.
The scientist carefully recorded the vacuum gauge reading before initiating the experiment.
The scientist used a special type of vacuum gauge designed for corrosive environments.
The sudden drop in the vacuum gauge reading signaled a breach in the sealed system.
The system included an alarm that would trigger if the vacuum gauge reading exceeded a certain threshold.
The system was designed with multiple vacuum gauges to provide redundancy and improve reliability.
The system was equipped with a safety interlock that prevented operation if the vacuum gauge reading was too high.
The team calibrated the vacuum gauge using a specialized calibration system.
The technician adjusted the valve while keeping a close eye on the vacuum gauge, ensuring the system reached the desired negative pressure.
The technician replaced the damaged vacuum gauge with a new, high-precision model.
The vacuum gauge confirmed that the system had reached the desired level of vacuum.
The vacuum gauge displayed the pressure in units of Pascal.
The vacuum gauge malfunctioned, causing the experiment to be aborted.
The vacuum gauge on the cryostat was unusually sluggish, suggesting a possible leak.
The vacuum gauge provided crucial information about the performance of the vacuum pump.
The vacuum gauge provided valuable feedback on the performance of the vacuum system.
The vacuum gauge reading indicated a significant leak in the system.
The vacuum gauge reading indicated that the chamber was at the desired level of vacuum for the experiment.
The vacuum gauge reading indicated that the system was ready for operation.
The vacuum gauge reading was unusually high, suggesting a problem with the vacuum pump.
The vacuum gauge was a critical instrument for ensuring the success of the space simulation.
The vacuum gauge was a critical instrument for ensuring the success of the vacuum-casting process.
The vacuum gauge was a crucial tool for maintaining the quality of the vacuum-packed food.
The vacuum gauge was a vital component of the vacuum deposition system.
The vacuum gauge was an essential tool for ensuring the quality of the vacuum-sealed packaging.
The vacuum gauge was calibrated according to the manufacturer's specifications.
The vacuum gauge was calibrated against a national standard to ensure its traceability.
The vacuum gauge was calibrated using a specialized vacuum calibration system.
The vacuum gauge was connected to a computer for real-time monitoring and data logging.
The vacuum gauge was crucial for determining the effectiveness of the sealing process.
The vacuum gauge was crucial for maintaining the integrity of the vacuum-insulated panel.
The vacuum gauge was crucial for maintaining the integrity of the vacuum-sealed display case.
The vacuum gauge was crucial for maintaining the integrity of the vacuum-sealed electronic components.
The vacuum gauge was crucial for maintaining the integrity of the vacuum-sealed food packaging.
The vacuum gauge was essential for controlling the pressure in the vacuum distillation process.
The vacuum gauge was essential for controlling the pressure in the vacuum impregnation process.
The vacuum gauge was essential for maintaining the stability of the plasma in the vacuum chamber.
The vacuum gauge was essential for maintaining the stability of the vacuum arc in the vacuum furnace.
The vacuum gauge was essential for maintaining the stability of the vacuum in the electron microscope.
The vacuum gauge was mounted on the control panel for easy monitoring during the experiment.
The vacuum gauge was strategically positioned to provide the most accurate pressure reading.
The vacuum gauge was used to measure the pressure in the vacuum-insulated coffee mug.
The vacuum gauge was used to measure the pressure in the vacuum-insulated cryogenic storage tank.
The vacuum gauge was used to measure the pressure in the vacuum-insulated water bottle.
The vacuum gauge was used to measure the pressure in the vacuum-sealed container.
The vacuum gauge was used to monitor the effectiveness of the vacuum-assisted drying process.
The vacuum gauge was used to monitor the pressure during the vacuum-brazing process.
The vacuum gauge was used to verify the integrity of the seal on the vacuum flask.
The vacuum gauge's accuracy was critical for the success of the delicate experiment.
The vacuum gauge's accuracy was essential for obtaining reliable experimental results.
The vacuum gauge's display was easy to read, even in low-light conditions.
They installed a new vacuum gauge with a digital display for improved readability.
Understanding the principles of vacuum gauge operation is crucial for anyone working with vacuum technology.