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

Definition

An Ejector Mold is a type of mold used in the manufacturing process, specifically in injection molding. It is designed with ejector pins or mechanisms that push the finished part out of the mold cavity after it has cooled and solidified. This allows for efficient production of plastic or metal components, facilitating mass production.

Synonyms

• Ejector Die
• Ejector Tool
• Injection Mold with Ejector Mechanism

Antonyms

• Fixed Mold
• Non-ejector Mold
• Static Die

Examples

1. The technician used the Ejector Mold to create multiple plastic parts efficiently.
2. After the cooling process, the Ejector Mold will eject the items seamlessly.
3. The new design of the Ejector Mold improved the speed of production.
4. We need to ensure that the Ejector Mold can eject the components without damage.
5. The Ejector Mold was crucial in maintaining quality during production.
6. Engineers often test the Ejector Mold to verify its reliability before full-scale production.
7. In our workshop, we frequently use the Ejector Mold for various projects.
8. The Ejector Mold can eject parts at a rapid pace, enhancing productivity.
9. The maintenance of the Ejector Mold is vital for consistent output.
10. When designing a new product, we consider the Ejector Mold specifications.
11. The operator adjusted the Ejector Mold to improve the cycle time.
12. Our factory invested in a state-of-the-art Ejector Mold to compete in the market.
13. The Ejector Mold can eject multiple items simultaneously.
14. Understanding how the Ejector Mold functions is essential for any technician.
15. The efficiency of the Ejector Mold significantly reduces production costs.
16. The team conducted a test run with the Ejector Mold to ensure it would eject properly.
17. A malfunction in the Ejector Mold can halt production lines.
18. We will need a larger Ejector Mold for the new product line.
19. The Ejector Mold is designed to eject the parts cleanly without burrs.
20. They demonstrated how to operate the Ejector Mold safely and efficiently.
21. The prototype was made using a custom Ejector Mold.
22. Adjustments to the Ejector Mold can affect the final product's quality.
23. The Ejector Mold must be calibrated correctly to ensure smooth operation.
24. A skilled operator can troubleshoot issues with the Ejector Mold quickly.
25. The design team collaborated with mold makers to optimize the Ejector Mold.
26. The Ejector Mold plays a crucial role in the plastic manufacturing process.
27. We plan to eject the first batch from the Ejector Mold by next week.
28. Using an outdated Ejector Mold can lead to higher defect rates.
29. The Ejector Mold can be adapted for different materials.
30. The Ejector Mold is a vital component in our assembly line.
31. Operators must be trained to effectively use the Ejector Mold.
32. The Ejector Mold requires regular maintenance to function properly.
33. We observed that the Ejector Mold could eject parts with minimal force.
34. The quality control team inspected the parts produced by the Ejector Mold.
35. The operator reported that the Ejector Mold was functioning well.
36. We need to replace the Ejector Mold due to excessive wear.
37. The Ejector Mold design was modified to improve efficiency.
38. The company specializes in creating custom Ejector Molds for various industries.
39. A well-designed Ejector Mold can significantly reduce production time.
40. The Ejector Mold can eject intricate shapes that meet client specifications.
41. Each Ejector Mold is unique to the product it creates.
42. The team celebrated a successful run of the Ejector Mold.
43. We are investigating a new technique for operating the Ejector Mold.
44. The Ejector Mold is essential for high-volume production runs.
45. Failure to properly maintain the Ejector Mold can lead to costly downtime.
46. The Ejector Mold allows for easy removal of parts once they have cooled.
47. We plan to eject a prototype from the Ejector Mold next month.
48. The design of the Ejector Mold includes features for easy cleaning.
49. Training sessions on the Ejector Mold help improve safety and efficiency.
50. The Ejector Mold was designed to eject parts at temperatures below 150 degrees Celsius.
51. Understanding the mechanics of the Ejector Mold is crucial for engineers.
52. The Ejector Mold can accommodate various sizes of components.
53. A successful Ejector Mold operation requires teamwork and communication.
54. The Ejector Mold can be adjusted for different material viscosities.
55. The operator ensured that the Ejector Mold was pre-heated before use.
56. The Ejector Mold is an integral part of the injection molding process.
57. We were pleased with how quickly the Ejector Mold could eject the parts.
58. The design flaws in the Ejector Mold were addressed in the redesign phase.
59. The Ejector Mold has a significant impact on production efficiency.
60. It is important to monitor the temperature of the Ejector Mold during operation.
61. The Ejector Mold requires a specific type of release agent for optimal performance.
62. We learned how to troubleshoot issues with the Ejector Mold during training.
63. An efficient Ejector Mold can save the company time and money.
64. The Ejector Mold is a key piece of equipment in our manufacturing facility.
65. We need to ensure that the Ejector Mold is calibrated correctly to avoid defects.
66. The Ejector Mold allows for quick changes in production runs.
67. The operator noted that the Ejector Mold had to be cleaned regularly.
68. The Ejector Mold can eject parts with precision in a matter of seconds.
69. Properly functioning Ejector Molds contribute to overall product quality.
70. The Ejector Mold was designed to minimize waste during production.
71. The team is preparing to eject a new line of products using the Ejector Mold.
72. Safety protocols were established for operating the Ejector Mold.
73. The Ejector Mold is often tested under various conditions to ensure reliability.
74. The efficiency of the Ejector Mold can be a competitive advantage.
75. We evaluated different suppliers for the Ejector Mold components.
76. The Ejector Mold can be programmed for automated operation.
77. The operator noted that the Ejector Mold needed adjustments for the next batch.
78. The Ejector Mold was designed with safety features to protect the workers.
79. We saw a marked improvement in output after upgrading the Ejector Mold.
80. The Ejector Mold allows for complex designs that would be difficult to achieve otherwise.
81. Operators were trained to identify and resolve issues with the Ejector Mold.
82. The Ejector Mold can eject parts while maintaining strict tolerances.
83. The design of the Ejector Mold can influence the final product's aesthetics.
84. The Ejector Mold is essential for producing high-quality plastic parts.
85. We are working on a new Ejector Mold that will enhance our production capabilities.
86. The Ejector Mold requires careful handling to prevent damage.
87. We hope to eject the first batch from the Ejector Mold by the end of the week.
88. The Ejector Mold was calibrated to ensure accurate part dimensions.
89. The project manager emphasized the importance of the Ejector Mold in the timeline.
90. The Ejector Mold is crucial for reducing cycle times in manufacturing.
91. The team analyzed the performance of the Ejector Mold during production.
92. Our latest upgrade to the Ejector Mold improved efficiency by 20%.
93. The Ejector Mold can eject parts that are highly detailed and intricate.
94. The technicians performed routine checks on the Ejector Mold to ensure it was functioning properly.
95. We invested in advanced technology for our Ejector Mold systems.
96. The Ejector Mold can be operated manually or automatically.
97. Understanding the Ejector Mold process is critical for new employees.
98. The Ejector Mold provides a reliable method for producing consistent parts.
99. We are looking forward to the first test run of the new Ejector Mold.
100. The Ejector Mold was designed to eject parts with minimal effort and time.