Anisotropy example sentences

"Anisotropy" Example Sentences

1. Anisotropy in the material caused uneven expansion under heat.
2. The anisotropy of the crystal affected its optical properties.
3. We observed significant magnetic anisotropy in the sample.
4. The degree of anisotropy varied across the material.
5. Measurements revealed a surprising level of electrical anisotropy.
6. Understanding the anisotropy is key to optimizing the device.
7. Their research focused on the effects of anisotropy on conductivity.
8. The model failed to accurately predict the observed anisotropy.
9. This new technique allows for precise measurement of anisotropy.
10. High anisotropy often leads to superior performance.
11. Anisotropy plays a crucial role in the material's behavior.
12. Further investigation is needed to understand this unusual anisotropy.
13. The results exhibited a clear direction-dependent anisotropy.
14. They developed a new method to control anisotropy in thin films.
15. Microscopic defects contributed to the observed anisotropy.
16. The anisotropy was more pronounced at lower temperatures.
17. Variations in anisotropy were correlated with grain size.
18. Minimizing anisotropy is crucial for this application.
19. Anisotropy can significantly impact material strength.
20. The study demonstrated a strong correlation between texture and anisotropy.
21. They observed unexpected anisotropy in the elastic properties.
22. Anisotropy is a key characteristic of many natural materials.
23. We need to account for anisotropy in our simulations.
24. The presence of anisotropy was confirmed by X-ray diffraction.
25. Control of anisotropy is essential for advanced materials design.
26. The anisotropy of the medium affected wave propagation.
27. Anisotropy manifested differently under various conditions.
28. This material exhibits remarkable thermal anisotropy.
29. The anisotropy was quantified using a novel technique.
30. Reducing anisotropy improved the material's overall performance.
31. The observed anisotropy challenged existing theoretical models.
32. Anisotropy in magnetic properties is a widely studied phenomenon.
33. Understanding the origins of anisotropy remains a challenge.
34. The researchers successfully engineered anisotropy into the material.
35. The strength of the anisotropy was temperature-dependent.
36. This advanced technique allows for the precise tuning of anisotropy.
37. They used a sophisticated model to account for the effects of anisotropy.
38. The material's anisotropy was characterized using various methods.
39. The anisotropy was evident in the polarized light microscopy images.
40. The magnitude of the anisotropy was surprisingly large.
41. We attribute the observed anisotropy to crystallographic orientation.
42. The anisotropy introduced significant complexities into the analysis.
43. It’s crucial to consider anisotropy when designing structural components.
44. The anisotropy of the porous material influenced fluid flow.
45. Careful processing minimized the anisotropy in the final product.
46. The impact of anisotropy on device reliability needs further study.
47. The anisotropy significantly affected the overall efficiency of the system.
48. They developed a new theoretical framework to describe anisotropy in complex systems.
49. Unexpected anisotropy was observed during the high-pressure experiment.
50. The degree of anisotropy influenced the fracture behavior of the material.