Pyroelectric example sentences
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Related (4): piezoelectric, ferroelectric, electrostrictive, photovoltaic
"Pyroelectric" Example Sentences
1. The pyroelectric properties of the mineral tourmaline were discovered in the 18th century.
2. Pyroelectric materials generate an electric charge in response to changes in temperature.
3. The pyroelectric effect is often used in infrared detectors and sensors.
4. Some types of ceramics display pyroelectric behavior.
5. Pyroelectric sensors are commonly used in fire alarm systems.
6. The pyroelectric coefficient describes the relationship between temperature change and electric charge.
7. Pyroelectric crystals are used in some types of imaging detectors.
8. A pyroelectric generator produces electrical power from heat.
9. The pyroelectric response of ferroelectric materials can be enhanced by doping.
10. The pyroelectric effect is related to changes in the polarizability of a material.
11. Pyroelectric detectors are used in some medical applications, such as thermal imaging.
12. The temperature sensitivity of pyroelectric materials can be tailored through doping and other techniques.
13. Pyroelectric energy harvesters can convert waste heat into electricity.
14. Pyroelectricity was first observed in the mineral topaz.
15. Pyroelectric materials can be used in thermal sensors for industrial applications.
16. A pyroelectric infrared sensing element responds to changes in temperature.
17. The pyroelectric response of a material depends on its crystal structure and composition.
18. Pyroelectric materials are often used in devices that rely on thermal energy harvesting.
19. The pyroelectric effect is a type of electromechanical coupling.
20. Pyroelectric sensors can detect temperature changes as small as a few microKelvin.
21. The pyroelectric response of quartz is highly directional.
22. Some types of pyroelectric detectors use an array of sensing elements.
23. The pyroelectric sensitivity of a material can be improved through thermal annealing.
24. Pyroelectric materials are also used in some types of actuators and motors.
25. The pyroelectric response of a material can be affected by humidity and other environmental factors.
26. The pyroelectric effect is a reversible process that can be used for cooling as well as heating.
27. Some types of pyroelectric energy harvesters can work in temperatures up to 1000°C.
28. The pyroelectric coefficient of a material depends on its thermal expansion and other properties.
29. Pyroelectric materials are used in some types of gas sensors.
30. The pyroelectric effect can be used to generate terahertz radiation.
31. The pyroelectric response of a material can be affected by stress and other mechanical factors.
32. Some types of pyroelectric energy harvesters can convert low-grade waste heat into usable electricity.
33. Pyroelectric detectors are used in some types of thermal imaging cameras.
34. The pyroelectric effect is related to the piezoelectric effect, which generates electric charge from mechanical stress.
35. Pyroelectric materials can also be used in temperature-controlled devices.
36. The pyroelectric response of a material can be used to measure the thermal diffusivity of a sample.
37. Some types of pyroelectric materials are also ferroelectric, meaning they can be polarized by an electric field.
38. The pyroelectric effect can be used to monitor the temperature of industrial processes.
39. Pyroelectric materials are used in some types of electronic devices, such as voltage generators.
40. The pyroelectric effect can also be used to study the properties of materials at high temperatures and pressures.
Common Phases
1.
Pyroelectric effect;
2.
Pyroelectric crystal;
3.
Pyroelectric sensor;
4.
Pyroelectric generator;
5.
Pyroelectric coefficient;
6.
Pyroelectric energy conversion;
7.
Pyroelectric infrared detection;
8.
Pyroelectric thermal imaging;
9.
Pyroelectric charge;
10.
Pyroelectric fusion.
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