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Usage Examples
Filter by Meaning The researchers developed a pyrometric system to measure the surface temperature of the metal during laser welding.
The pyrometric sensors provided real-time feedback on the temperature profile during the annealing process.
The pyrometric analysis indicated a significant variation in temperature across different parts of the forging process.
The pyrometric analysis revealed the exact temperature at which the steel started to undergo phase transformation.
The pyrometric study provided valuable insights into the heat transfer mechanisms during the welding process.
The pyrometric measurements confirmed the presence of a significant amount of energy released during the chemical reaction.
The pyrometric data collected from the blast furnace helped optimize its performance.
The scientist used pyrometric techniques to measure the temperature rise during the combustion reaction.
The researchers relied on pyrometric calculations to determine the energy released in the chemical reaction.
The pyrometric data indicated a significant increase in temperature during the metal casting process.
The pyrometric techniques used in the study allowed for accurate determination of the heat generated by the reaction.
The pyrometric analysis allowed the scientists to evaluate the heat output of the new fuel cell design.
The pyrometric instruments were used to monitor the heat generated by the rocket engine during the launch.
The pyrometric analysis of the fire scene helped the investigators determine the intensity of the blaze.
The pyrometric data supported the hypothesis that the reaction was exothermic.
The pyrometric study provided insights into the heat distribution within the kiln.
The pyrometric analysis indicated that the temperature inside the reactor exceeded the safety limits.
The pyrometric data collected from the forest fire helped understand the intensity and spread of the flames.
Pyrometric measurements were conducted to determine the efficiency of the new combustion system.
The pyrometric analysis revealed the high heat generated by the volcanic eruption.
The researchers relied on pyrometric measurements to study the temperature variations in volcanic eruptions.
The researchers employed pyrometric measurements to study the thermal behavior of the combustion chamber.
By using pyrometric instruments, scientists accurately measured the temperature of the blast furnace during the steelmaking process.
The pyrometric measurements provided crucial insights into the thermal performance of the ceramic kiln.
The pyrometric data revealed the high temperatures generated during the combustion process in the rocket engine.
The pyrometric tests allowed the scientists to accurately measure the melting point of the alloy.
The pyrometric analysis of the ceramic material ensured its suitability for high-temperature applications.
The laboratory technician performed pyrometric measurements to assess the purity of the sample.
The pyrometric measurements indicated that the steel had reached its desired melting point for casting.
By employing pyrometric techniques, the scientists were able to accurately measure the melting point of the newly synthesized compound.
The pyrometric device provided real-time monitoring of the temperature during the glass melting process.
The pyrometric analysis of the volcanic rocks provided valuable insights into the temperature conditions during the eruption.
The pyrometric analysis helped identify the optimal conditions for the casting process in the foundry.
The pyrometric analysis revealed that the ceramic material could withstand temperatures of up to 1500 degrees Celsius.
The pyrometric analysis revealed the exact temperature at which the metal melted.
The pyrometric measurements indicated that the substance had a remarkably high melting point.
The researchers used pyrometric techniques to determine the melting point of various minerals.
The ceramic artist developed their own pyrometric system to achieve consistent results in their glaze firings.
The ceramic artist relied on pyrometric data to achieve consistent and reproducible results in their pottery creations.
The pyrometric kiln accurately measures and controls the temperature for firing ceramic art pieces.
The artist used pyrometric techniques to achieve unique glaze effects on the ceramic vase.
The pyrometric tests confirmed that the earthenware bowls had been fired at the appropriate temperature for durability.
The potter used pyrometric cones to monitor the heat levels in the kiln during the pottery firing process.
The potter relied on pyrometric measurements to determine the optimal cooling rate for the newly glazed pottery.
The pyrometric control system ensured that the pottery workshop maintained consistent temperatures throughout the firing process.
The pyrometric record of the kiln firing allowed the potter to troubleshoot any issues and make adjustments for future firings.
The ceramic workshop offers pyrometric workshops to teach beginners about the science of firing clay.
The potter's successful pottery production was a result of their meticulous use of pyrometric controls.
The pyrometric cones melted at different temperatures, providing valuable information about the heat distribution inside the kiln.
The pottery studio invested in pyrometric equipment to enhance their firing process and achieve more precise results.
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