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

Definition

The term "Ejector Bracket" refers to a mechanical component designed to hold and release an ejector mechanism in various machinery or devices. It is often used in contexts such as manufacturing, automotive engineering, and tool design, where components must be securely held in place during operation and then ejected or released when needed.

Synonyms

• Ejector Holder
• Ejector Support
• Ejector Frame
• Ejector Mount

Antonyms

• Retainer
• Fastener
• Clamp
• Anchor

Examples

1. The technician adjusted the Ejector Bracket to ensure proper alignment.
2. After replacing the old Ejector Bracket, the machine worked more efficiently.
3. The design of the Ejector Bracket was crucial for the assembly line's speed.
4. When the Ejector Bracket was faulty, production came to a halt.
5. Engineers tested the Ejector Bracket under various stress conditions.
6. A sturdy Ejector Bracket can significantly reduce wear and tear on machinery.
7. The new Ejector Bracket design improved the overall performance of the tool.
8. We need to order more Ejector Brackets for the upcoming project.
9. The Ejector Bracket must be installed correctly to function properly.
10. Maintenance checks included inspecting the Ejector Bracket for any damage.
11. The Ejector Bracket was painted to prevent rust.
12. She tightened the screws on the Ejector Bracket before starting the machine.
13. A malfunctioning Ejector Bracket can lead to operational delays.
14. The assembly manual detailed the specifications for the Ejector Bracket.
15. Upgrading the Ejector Bracket was part of the modernization plan.
16. The Ejector Bracket broke during a test run.
17. Each Ejector Bracket must be calibrated for optimal performance.
18. We replaced the worn-out Ejector Bracket with a new one.
19. The Ejector Bracket allows for quick tool changes in the machining process.
20. The engineer designed a custom Ejector Bracket for the unique application.
21. The Ejector Bracket was made from high-strength steel for durability.
22. Adjusting the Ejector Bracket improved the tool's efficiency.
23. The factory's output increased after upgrading the Ejector Bracket.
24. They demonstrated how the Ejector Bracket worked during the training session.
25. A loose Ejector Bracket could cause safety hazards.
26. The Ejector Bracket was an essential part of the injection molding machine.
27. She inspected the Ejector Bracket for any signs of wear.
28. The Ejector Bracket design was patented for its innovative features.
29. Replacing the Ejector Bracket took less time than expected.
30. The team brainstormed ideas for a more efficient Ejector Bracket.
31. The Ejector Bracket must withstand high temperatures in the process.
32. He found a replacement Ejector Bracket in the tool room.
33. The Ejector Bracket was positioned to optimize space in the machine.
34. A malfunctioning Ejector Bracket can disrupt the entire workflow.
35. The Ejector Bracket was designed to fit multiple types of tools.
36. They tested the resilience of the Ejector Bracket in extreme conditions.
37. The Ejector Bracket was crucial for the success of the project.
38. The quality control team inspected each Ejector Bracket before shipment.
39. The Ejector Bracket needed to be flexible yet sturdy.
40. He carefully aligned the Ejector Bracket with the other components.
41. The Ejector Bracket was redesigned to reduce manufacturing costs.
42. She explained how the Ejector Bracket is integral to the mechanism.
43. The maintenance crew replaced the old Ejector Bracket with a new model.
44. The Ejector Bracket helps ensure proper ejection of the part.
45. A well-designed Ejector Bracket can enhance productivity.
46. The Ejector Bracket was attached with precision to avoid misalignment.
47. They documented the specifications of the Ejector Bracket for future reference.
48. The Ejector Bracket was the last component installed before testing.
49. He noted the importance of the Ejector Bracket in the assembly process.
50. The Ejector Bracket was upgraded to handle heavier loads.
51. The company invested in research to improve the Ejector Bracket.
52. The Ejector Bracket was painted yellow for visibility in the workshop.
53. The design team focused on the Ejector Bracket for the new model.
54. A broken Ejector Bracket can lead to costly downtime.
55. The Ejector Bracket was manufactured with precision engineering.
56. She adjusted the Ejector Bracket to fit the new specifications.
57. The Ejector Bracket was a critical part of the assembly line setup.
58. They celebrated the successful launch of the new Ejector Bracket design.
59. The Ejector Bracket was tested for durability before mass production.
60. The Ejector Bracket needed to be replaced after years of use.
61. Safety checks included verifying the integrity of the Ejector Bracket.
62. The Ejector Bracket was designed to prevent jamming during operation.
63. The engineering team collaborated to refine the Ejector Bracket design.
64. The Ejector Bracket must be compatible with existing machinery.
65. She documented the installation process for the Ejector Bracket.
66. The Ejector Bracket played a vital role in the tool's performance.
67. The factory received a shipment of new Ejector Brackets.
68. He explained the function of the Ejector Bracket to the trainees.
69. The Ejector Bracket was an innovative solution to a common problem.
70. The Ejector Bracket was responsible for the quick release of parts.
71. They redesigned the Ejector Bracket to improve safety features.
72. The Ejector Bracket required regular maintenance for optimal function.
73. A well-maintained Ejector Bracket extends the life of the machinery.
74. The Ejector Bracket was critical for ensuring precision in manufacturing.
75. The technician recalibrated the Ejector Bracket after the upgrade.
76. The Ejector Bracket was prone to wear in high-volume production.
77. The Ejector Bracket was a focus of the engineering review meeting.
78. The Ejector Bracket ensured that the ejection process was smooth.
79. She took notes on the performance of the Ejector Bracket during testing.
80. The Ejector Bracket was part of the assembly in all new models.
81. Upgrading the Ejector Bracket improved the machine’s reliability.
82. The Ejector Bracket helped reduce cycle times on the production line.
83. They ensured that each Ejector Bracket met the quality standards.
84. The Ejector Bracket was installed as per the engineering specifications.
85. The design iterations of the Ejector Bracket enhanced its functionality.
86. A broken Ejector Bracket could compromise the entire mechanism.
87. The Ejector Bracket was crafted with advanced materials for strength.
88. She demonstrated how to properly install the Ejector Bracket.
89. The Ejector Bracket was an integral part of the assembly process.
90. The Ejector Bracket was replaced to improve efficiency.
91. He highlighted the significance of the Ejector Bracket in the design.
92. The Ejector Bracket was engineered for high-performance applications.
93. She ensured the Ejector Bracket was securely fastened before use.
94. The Ejector Bracket was a standard component in the industry.
95. They sought feedback on the new Ejector Bracket design from users.
96. The assembly required precise placement of the Ejector Bracket.
97. The Ejector Bracket was designed to accommodate various tools.
98. They found that the Ejector Bracket improved the workflow significantly.
99. The Ejector Bracket had to be adjusted for optimal performance.
100. The team worked diligently to finalize the Ejector Bracket design.