100 Examples of sentences containing the common noun "ejector frame"

Definition

The term "Ejector Frame" refers to a component in machinery, particularly in the context of firearms or automated systems, that is responsible for ejecting spent cartridges or other materials from a chamber. It can also refer to a frame in certain manufacturing processes that facilitates the removal of objects from molds.

Synonyms

• Ejector mechanism
• Ejector assembly
• Ejector system

Antonyms

• Loader
• Retainer
• Holder

Examples

1. The technician adjusted the Ejector Frame to ensure proper functioning of the machine.
2. After the rounds were fired, the Ejector Frame quickly removed the spent cartridges.
3. The design of the Ejector Frame plays a crucial role in the reliability of the firearm.
4. He inspected the Ejector Frame for any signs of wear and tear.
5. The Ejector Frame malfunctioned, causing a jam in the shooting range.
6. She replaced the damaged Ejector Frame with a new one to enhance performance.
7. The Ejector Frame must be calibrated correctly for optimal ejection speed.
8. During the competition, the Ejector Frame worked flawlessly.
9. The engineer designed a unique Ejector Frame for the prototype.
10. The Ejector Frame is essential for any semi-automatic firearm.
11. They tested the Ejector Frame to ensure it met safety standards.
12. The Ejector Frame was upgraded to improve efficiency in the assembly line.
13. He noted that the Ejector Frame needed lubrication for smooth operation.
14. The Ejector Frame was designed to handle high-pressure cartridges.
15. She watched as the Ejector Frame efficiently discarded the empty shells.
16. The maintenance team checked the Ejector Frame during the routine inspection.
17. The Ejector Frame is a critical component in automated processes.
18. He explained how the Ejector Frame works to a group of trainees.
19. The malfunctioning Ejector Frame caused delays in production.
20. They implemented a new Ejector Frame design for better ergonomics.
21. The Ejector Frame was the centerpiece of the machine's operation.
22. After modifying the Ejector Frame, they saw an increase in output.
23. The Ejector Frame can be adjusted for different cartridge sizes.
24. She learned how to troubleshoot issues with the Ejector Frame.
25. The Ejector Frame helped streamline the manufacturing workflow.
26. Engineers often innovate on the traditional Ejector Frame design.
27. The Ejector Frame was constructed from durable materials for longevity.
28. They demonstrated the Ejector Frame at the trade show.
29. The Ejector Frame needs regular maintenance to function correctly.
30. He designed a compact Ejector Frame for portable devices.
31. The Ejector Frame operates best under controlled conditions.
32. The technician carefully reassembled the Ejector Frame after repairs.
33. The Ejector Frame mechanism is often overlooked in design discussions.
34. They replaced the old Ejector Frame with a modern version.
35. The Ejector Frame is crucial for rapid-fire capabilities.
36. The Ejector Frame allowed for quick reloads in the competition.
37. She studied various Ejector Frame designs in her engineering class.
38. The Ejector Frame contributes to the overall efficiency of the machine.
39. The designer proposed a new Ejector Frame for enhanced performance.
40. He found that the Ejector Frame was misaligned.
41. The Ejector Frame was a focal point of the mechanical assembly.
42. They created a prototype of the Ejector Frame for testing.
43. The Ejector Frame operates using pneumatic power.
44. The Ejector Frame's reliability was tested under extreme conditions.
45. The assembly line was halted due to issues with the Ejector Frame.
46. She documented the specifications of the Ejector Frame.
47. Engineers often analyze the Ejector Frame for potential improvements.
48. The Ejector Frame can be controlled electronically in modern machines.
49. He replaced the springs in the Ejector Frame for better performance.
50. The Ejector Frame is essential in the recycling process.
51. They demonstrated the effectiveness of the Ejector Frame in action.
52. The Ejector Frame needs to be robust to handle heavy use.
53. She explained the mechanics of the Ejector Frame to her colleagues.
54. The Ejector Frame was designed with user-friendliness in mind.
55. The quick release feature of the Ejector Frame was a game changer.
56. The Ejector Frame is often made from high-strength alloys.
57. They conducted a failure analysis on the Ejector Frame.
58. The Ejector Frame was integral to the machine's design.
59. The Ejector Frame significantly reduces downtime.
60. He marveled at the efficiency of the Ejector Frame.
61. The Ejector Frame is vital for maintaining the pace of production.
62. Adjustments to the Ejector Frame improved the overall output.
63. The Ejector Frame is often part of a larger assembly system.
64. She was tasked with designing a more efficient Ejector Frame.
65. The Ejector Frame performed flawlessly during the demonstration.
66. The assembly team relied on the Ejector Frame for quick part removal.
67. The Ejector Frame was part of the innovation initiative at the company.
68. He noticed that the Ejector Frame was not functioning as expected.
69. The Ejector Frame is a key feature of automated machinery.
70. The Ejector Frame's operation is critical for quality control.
71. They modified the Ejector Frame to fit new specifications.
72. The Ejector Frame is an engineering marvel in its own right.
73. The Ejector Frame was designed for easy maintenance.
74. She researched different materials for the Ejector Frame.
75. The Ejector Frame allowed for rapid changes in production lines.
76. Engineers often face challenges when designing the Ejector Frame.
77. The Ejector Frame enhances both speed and safety.
78. He was responsible for testing the new Ejector Frame design.
79. The Ejector Frame must be compatible with various systems.
80. They implemented a backup Ejector Frame to prevent downtime.
81. The Ejector Frame is crucial for high-speed operations.
82. She analyzed the wear patterns on the Ejector Frame.
83. The Ejector Frame is often used in injection molding.
84. The performance of the Ejector Frame exceeded expectations.
85. They discussed the future of Ejector Frame technology.
86. The Ejector Frame needs to be synchronized with other components.
87. He fixed the alignment issues in the Ejector Frame.
88. The Ejector Frame was a vital part of the patent application.
89. The Ejector Frame has gone through several iterations over the years.
90. The Ejector Frame must withstand high levels of stress.
91. She provided feedback on the new Ejector Frame prototype.
92. The Ejector Frame is integral to the product's success.
93. They celebrated the success of the redesigned Ejector Frame.
94. The Ejector Frame is essential for effective waste management.
95. He demonstrated how the Ejector Frame improves efficiency.
96. The Ejector Frame was integral to the assembly process.
97. She noted that the Ejector Frame was too rigid for the application.
98. The team worked late to finalize the Ejector Frame design.
99. The Ejector Frame was highlighted in the technical report.
100. They installed a new Ejector Frame to enhance the production line.