Microfibril example sentences

"Microfibril" Example Sentences

1. The microfibril structure was clearly visible under the electron microscope.
2. Researchers investigated the role of cellulose microfibrils in plant cell wall strength.
3. A single microfibril is incredibly thin, almost invisible to the naked eye.
4. The arrangement of microfibrils influences the material's overall properties.
5. Analyzing the microfibril angle provides insights into wood growth.
6. The microfibrils are embedded in a matrix of other polysaccharides.
7. Defects in microfibril formation can lead to weaker materials.
8. This new technique allows for precise measurement of individual microfibrils.
9. The study focused on the interaction between microfibrils and lignin.
10. We observed a significant difference in microfibril orientation between the two samples.
11. The microfibril angle is a key parameter in wood technology.
12. Understanding microfibril structure is crucial for biomaterial engineering.
13. Cellulose microfibrils provide structural support to plant cells.
14. The strength of the material depends on the arrangement and bonding of microfibrils.
15. Damage to the microfibrils can compromise the integrity of the structure.
16. Variations in microfibril diameter were observed across the sample.
17. The microfibril's crystalline structure contributes to its strength.
18. Further research is needed to fully understand microfibril biosynthesis.
19. They measured the length of each individual microfibril using advanced microscopy.
20. The microfibrils were stained to enhance their visibility.
21. Changes in microfibril density were correlated with mechanical properties.
22. The microfibril alignment influences the optical properties of the material.
23. Improved understanding of microfibrils could lead to new bio-based materials.
24. The team developed a new model for microfibril aggregation.
25. They analyzed the microfibril network using X-ray diffraction.
26. The microfibril architecture is complex and highly organized.
27. Crystalline microfibrils are essential for structural integrity.
28. Disruption of microfibrils can lead to disease in plants.
29. The microfibril angle varies depending on growth conditions.
30. Studying microfibrils provides insights into plant cell wall development.
31. It's important to consider microfibril properties when designing biocomposites.
32. The observed changes in microfibril structure were statistically significant.
33. The microfibrils are arranged in a highly ordered fashion.
34. They hypothesize that the microfibril structure contributes to water retention.
35. The tensile strength is directly related to the integrity of the microfibrils.
36. The analysis revealed a unique pattern of microfibril entanglement.
37. Recent advances in microscopy have facilitated detailed studies of microfibrils.
38. The microfibril network forms a strong and flexible framework.
39. This research focused on the effects of various treatments on microfibril structure.
40. Understanding microfibril behavior is key to designing sustainable materials.
41. The microfibril composition influences its susceptibility to degradation.
42. The experiment aimed to measure the mechanical properties of individual microfibrils.
43. The microfibrils are composed of long chains of cellulose molecules.
44. Advanced techniques are required to visualize individual microfibrils effectively.
45. The results suggest a correlation between microfibril orientation and material stiffness.
46. The microfibril network plays a critical role in cell wall mechanics.
47. Changes in environmental conditions can affect microfibril development.
48. The microfibril arrangement contributes to the material's anisotropic nature.
49. Further investigation is necessary to determine the precise role of microfibrils in this process.
50. The study compared the microfibril structure of different plant species.