injection delay

简明释义

喷射迟缓

英英释义

例句

1.The new software update reduced the injection delay significantly, improving the overall performance of the system.

新的软件更新显著减少了注入延迟，提高了系统的整体性能。

2.A longer injection delay can lead to inefficiencies in the manufacturing process.

较长的注入延迟可能导致制造过程中的低效率。

3.Engineers are working on minimizing the injection delay to enhance the responsiveness of the application.

工程师们正在努力减少注入延迟，以增强应用程序的响应能力。

4.The team conducted tests to measure the injection delay under various conditions.

团队进行了测试，以测量在不同条件下的注入延迟。

5.Reducing the injection delay is crucial for real-time data processing applications.

减少注入延迟对实时数据处理应用至关重要。

作文

In the world of technology and manufacturing, precision and efficiency are paramount. One term that frequently arises in discussions about production processes is injection delay. This phrase refers to the time lag that occurs between the initiation of an injection process and the actual injection of material into a mold or system. Understanding injection delay is crucial for engineers and manufacturers as it can significantly impact the quality of the final product and the efficiency of the production line.To grasp the concept of injection delay, we must first look at the injection molding process itself. Injection molding is a widely used manufacturing technique for producing parts by injecting molten material into a mold. The process involves several stages: melting the material, injecting it into the mold, cooling it down, and finally ejecting the finished part. Each of these steps requires precise timing and control to ensure that the end product meets the desired specifications.The injection delay can occur due to various factors. For instance, if the machinery is not calibrated correctly, it may take longer than expected for the molten material to reach the injection point. Additionally, variations in temperature and pressure can also contribute to delays in the injection phase. These delays can lead to inconsistencies in the final product, such as defects or variations in thickness, which can be costly for manufacturers.Moreover, understanding injection delay is essential for optimizing production processes. By analyzing the factors that contribute to delays, manufacturers can implement strategies to minimize them. This might include upgrading machinery, improving the training of operators, or refining the overall production workflow. By reducing injection delay, companies can increase their output and improve the quality of their products, leading to greater customer satisfaction and higher profits.In addition to its impact on production efficiency, injection delay also has implications for the design of products. Engineers must consider how delays in the injection process can affect the material flow within the mold. If the material does not fill the mold uniformly due to delays, it can result in weak spots or air pockets in the final product. Therefore, incorporating knowledge of injection delay into the design phase can help create more robust and reliable products.Furthermore, advancements in technology have led to the development of sophisticated software that can simulate the injection molding process. These tools allow engineers to predict potential injection delay issues before they occur, enabling them to make adjustments to the design or process accordingly. By leveraging technology, manufacturers can stay ahead of potential problems and ensure a smoother production process.In conclusion, injection delay is a critical factor in the manufacturing and engineering sectors. By understanding its implications and taking proactive measures to address it, companies can enhance their production efficiency, improve product quality, and ultimately achieve greater success in the competitive marketplace. As technology continues to evolve, the ability to manage injection delay will remain a vital skill for manufacturers and engineers alike.

在技术和制造的世界中，精确和效率至关重要。一个经常出现在生产过程讨论中的术语是注射延迟。这个短语指的是注射过程开始与实际将材料注入模具或系统之间的时间滞后。理解注射延迟对工程师和制造商至关重要，因为它会显著影响最终产品的质量和生产线的效率。要理解注射延迟的概念，我们首先必须看看注射成型过程本身。注射成型是一种广泛使用的制造技术，通过将熔融材料注入模具来生产零件。该过程涉及几个阶段：熔化材料、将其注入模具、冷却并最终弹出成品。每个步骤都需要精确的时机和控制，以确保最终产品符合所需规格。注射延迟可能由于各种因素而发生。例如，如果机械没有正确校准，熔融材料到达注射点的时间可能比预期的要长。此外，温度和压力的变化也可能导致注射阶段的延迟。这些延迟可能导致最终产品的不一致性，例如缺陷或厚度变化，这可能对制造商造成昂贵的成本。此外，理解注射延迟对于优化生产过程至关重要。通过分析导致延迟的因素，制造商可以实施策略来最小化这些延迟。这可能包括升级机械、改善操作员培训或完善整体生产工作流程。通过减少注射延迟，公司可以提高产量并改善产品质量，从而提高客户满意度和利润。除了对生产效率的影响外，注射延迟还对产品设计具有重要意义。工程师必须考虑注射过程中的延迟如何影响模具内的材料流动。如果由于延迟，材料没有均匀填充模具，可能会导致最终产品出现弱点或气泡。因此，将注射延迟的知识纳入设计阶段可以帮助创造更坚固可靠的产品。此外，技术的进步导致了复杂软件的发展，这些软件可以模拟注射成型过程。这些工具允许工程师在问题发生之前预测潜在的注射延迟问题，使他们能够相应地调整设计或过程。通过利用技术，制造商可以提前解决潜在问题，确保生产过程更加顺利。总之，注射延迟是制造和工程领域的一个关键因素。通过理解其影响并采取主动措施来解决它，公司可以提高生产效率、改善产品质量，并最终在竞争激烈的市场中取得更大的成功。随着技术的不断发展，管理注射延迟的能力将继续成为制造商和工程师的重要技能。