100 Examples of sentences containing the adverb "axially"

Definition

The adverb axially refers to something that relates to or occurs along an axis. In various fields such as physics, engineering, and biology, it describes actions or orientations that are aligned with the principal axis of an object or system.

Synonyms

• Along the axis
• Axis-wise
• Axial

Antonyms

• Radially
• Perpendicularly
• Tangentially

Examples

1. The beam was loaded axially to test its strength.
2. The magnetic field was oriented axially to enhance performance.
3. The forces acted axially on the structure during the simulation.
4. The rotation was applied axially to maintain balance.
5. The stress distribution was evaluated axially to ensure safety.
6. The component was designed to fit axially within the framework.
7. The fibers aligned axially to improve tensile strength.
8. The forces were distributed axially across the entire length.
9. The tube was tested axially for pressure resistance.
10. The axis was defined axially to simplify calculations.
11. The load was applied axially to minimize deformation.
12. The mechanism operated axially to achieve maximum efficiency.
13. The symmetry was maintained axially throughout the process.
14. The vibrations were measured axially during the experiment.
15. The framework was assembled axially for optimal support.
16. The alignment was adjusted axially for better performance.
17. The rods were positioned axially to ensure stability.
18. The design considerations included axially oriented components.
19. The torque was applied axially to the shaft.
20. The forces in the model were represented axially.
21. The pattern was laid out axially for clarity.
22. The flow of fluids was analyzed axially through the pipe.
23. The rotation was maintained axially to avoid imbalance.
24. The arrangement was optimized axially for space efficiency.
25. The stress was concentrated axially at the point of impact.
26. The alignment of the gears was verified axially.
27. The components were connected axially to enhance functionality.
28. The measurements were taken axially to ensure accuracy.
29. The design was modified to accommodate axially oriented features.
30. The forces acted axially on the joint during the test.
31. The cables were routed axially to prevent interference.
32. The structure was analyzed axially for load-bearing capacity.
33. The shaft was rotated axially to engage the mechanism.
34. The energy was transmitted axially through the system.
35. The alignment was crucial for axially loaded systems.
36. The data was plotted axially for better visualization.
37. The assembly was completed axially to ensure proper fit.
38. The model was tested axially for dynamic responses.
39. The forces could be resolved axially for simplification.
40. The rotation was constrained axially to prevent drift.
41. The system operated axially under varying conditions.
42. The structure was reinforced axially to withstand loads.
43. The analysis focused on axially aligned forces.
44. The components were engineered to function axially.
45. The motion was restricted axially to avoid complications.
46. The framework was aligned axially for uniform distribution.
47. The pressure was applied axially during the test.
48. The displacement was measured axially to assess performance.
49. The system was calibrated to operate axially.
50. The joints were designed to handle axially directed stress.
51. The assembly process required axially oriented parts.
52. The testing apparatus was set up axially for efficiency.
53. The forces were analyzed axially to determine impact.
54. The vibrations were minimized axially to enhance stability.
55. The alignment was crucial for axially loaded applications.
56. The motor was mounted axially to optimize space.
57. The assembly was designed to be axially symmetric.
58. The load was distributed axially across the components.
59. The frame was constructed axially to support the structure.
60. The forces acted axially in the simulation.
61. The system was designed to respond axially to inputs.
62. The gears were arranged axially for smooth operation.
63. The orientation was critical for axially loaded conditions.
64. The forces were applied axially to the supports.
65. The load was tested axially to determine limits.
66. The motor operated axially for optimal torque.
67. The assembly was completed axially to fit the design.
68. The forces were aligned axially for stability.
69. The framework was reinforced axially to prevent failure.
70. The analysis focused on axially directed forces.
71. The components were designed to interact axially.
72. The stability was ensured through axially aligned structures.
73. The motion was constrained axially to control movement.
74. The setup was designed to handle axially oriented loads.
75. The framework was constructed axially for balance.
76. The forces were resolved axially to simplify calculations.
77. The components were assembled axially for efficiency.
78. The torque was measured axially during the test.
79. The forces acted axially in the analysis.
80. The design was optimized for axially loaded applications.
81. The components were tested axially for performance.
82. The structure was analyzed axially for weaknesses.
83. The assembly was designed to fit axially into the framework.
84. The motion was maintained axially for precision.
85. The alignment was critical for axially loaded systems.
86. The force was applied axially to determine limits.
87. The components were arranged axially for balance.
88. The system was tested axially for reliability.
89. The framework supported loads axially.
90. The analysis included axially oriented forces.
91. The assembly was completed axially for structural integrity.
92. The gears were aligned axially to enhance performance.
93. The system operated axially under various conditions.
94. The load was distributed axially to optimize performance.
95. The components were designed to work axially.
96. The rotation was applied axially to engage the system.
97. The framework was reinforced axially for durability.
98. The forces were analyzed axially for safety.
99. The components were arranged axially for space efficiency.
100. The stress was concentrated axially at the joint.