"Pyrometrically" Example Sentences
1. The temperature of the furnace was measured pyrometrically.
2. The molten metal was analyzed pyrometrically to determine its composition.
3. The temperature in the kiln was monitored pyrometrically.
4. The ceramic glaze was fired pyrometrically to ensure its durability.
5. The glass pane was annealed pyrometrically to prevent cracking.
6. The heat treatment process was controlled pyrometrically.
7. The steel manufacturing plant measured their temperatures pyrometrically.
8. The metal alloy was heated and cooled pyrometrically to optimize its properties.
9. The chemical reaction was observed pyrometrically to ensure it went according to plan.
10. The furnace was calibrated pyrometrically to increase efficiency.
11. The temperature range was measured pyrometrically to determine the melting point.
12. The temperature control was adjusted pyrometrically to maintain optimal conditions.
13. The refractory materials were tested pyrometrically to measure resistance to high temperatures.
14. The temperature in the crucible was monitored pyrometrically to prevent overheating.
15. The sintering process was monitored pyrometrically to prevent under or over-heating.
16. The ceramic materials were analyzed pyrometrically to ensure their purity.
17. The metal casting process was controlled pyrometrically to achieve high-quality results.
18. The temperature was increased pyrometrically to speed up the chemical reaction.
19. The temperature gradient was measured pyrometrically to understand how heat was being distributed.
20. The glass was tempered pyrometrically to increase its strength.
21. The temperature of the reaction vessel was measured pyrometrically to prevent dangerous overheating.
22. The thermal performance of the insulation was measured pyrometrically to optimize its effectiveness.
23. The temperature in the reactor was adjusted pyrometrically to maintain stable conditions.
24. The powder was sintered pyrometrically to form a solid mass.
25. The metal was annealed pyrometrically to increase its ductility.
26. The heat treatment process was monitored pyrometrically to prevent thermal shock.
27. The temperature in the furnace was increased pyrometrically to melt the metal.
28. The temperature of the hot gas stream was measured pyrometrically to optimize combustion efficiency.
29. The temperature of the molten metal was maintained pyrometrically to ensure consistency.
30. The refractory lining was installed pyrometrically to withstand the high furnace temperatures.
Common Phases
1. The temperature of the furnace was measured
pyrometrically;
2. The melting point of the metal was determined
pyrometrically;
3. The heat treatment was monitored
pyrometrically;
4. The ceramic was fired
pyrometrically;
5. The thermal expansion was measured
pyrometrically;
6. The thermal shock test was conducted
pyrometrically;
7. The sintering reactions were observed
pyrometrically;
8. The phase transformation was analyzed
pyrometrically;
9. The oxidation rate of the metal was measured
pyrometrically;
10. The cooling rate of the material was controlled
pyrometrically.