dead plate

简明释义

固定板

英英释义

A dead plate refers to a surface or area in a mechanical or electrical system that does not transmit energy or signals, often resulting in no operational function.

死板是指在机械或电气系统中不传递能量或信号的表面或区域,通常导致没有操作功能。

In the context of printing, a dead plate can refer to a part of the printing plate that does not transfer ink to the substrate.

在印刷的上下文中,死板可以指印刷板的一部分,该部分不将墨水转移到基材上。

例句

1.The chef explained that a dead plate in the kitchen could ruin the presentation of a dish.

厨师解释说,厨房里的一个死板可能会毁掉菜肴的摆盘。

2.The artist used a dead plate as a base for her printmaking project.

艺术家使用一个死板作为她版画项目的基础。

3.The technician mentioned that the circuit was malfunctioning because of a dead plate.

技术员提到电路出现故障是因为有一个死板

4.In the manufacturing process, a dead plate can cause delays in production.

在生产过程中,一个死板可能会导致生产延误。

5.After testing the equipment, we found a dead plate that needed to be replaced.

在测试设备后,我们发现一个需要更换的死板

作文

In the world of engineering and manufacturing, terms often carry significant weight in understanding processes and outcomes. One such term is dead plate, which refers to a flat surface that does not contribute to the load-bearing capacity of a structure or mechanism. This concept is particularly relevant in fields such as civil engineering, where the integrity of a building or bridge relies on the proper distribution of weight across various components. Understanding the implications of a dead plate can lead to more effective designs and safer constructions.When engineers design structures, they must consider how different elements interact under various loads. A dead plate is typically used in the context of support systems, where it serves as a non-load-bearing element that can provide stability without adding significant weight. For instance, in a multi-story building, a dead plate might be used to distribute the weight of the floors above while ensuring that the overall structure remains balanced. This is crucial because an uneven distribution of weight can lead to structural failures, which can have catastrophic consequences.Moreover, the use of a dead plate is not limited to buildings. In the realm of machinery, a dead plate can refer to components that are essential for the overall function but do not directly bear loads. For example, in a conveyor system, a dead plate might serve as a guide or support for the moving parts, ensuring smooth operation without bearing any significant weight itself. This allows for greater efficiency and reliability in mechanical systems.In addition to its technical applications, the concept of a dead plate can also be metaphorically applied to various aspects of life. For instance, one might consider certain relationships or commitments as dead plates if they do not actively contribute to personal growth or happiness. These relationships may provide a sense of stability but do not add value to one's life. Recognizing and addressing these dead plates can lead to more fulfilling experiences and connections.Furthermore, in the context of project management, identifying dead plates within a team or workflow can enhance productivity. Tasks or roles that do not contribute meaningfully to the project's success can be seen as dead plates. By reallocating resources and efforts towards more impactful activities, teams can maximize their efficiency and achieve better outcomes.In conclusion, the term dead plate holds significant importance in both technical and metaphorical contexts. Whether in engineering, machinery, or personal relationships, understanding the role of a dead plate can lead to improved designs, enhanced efficiency, and more meaningful connections. As we navigate through various aspects of life and work, recognizing the presence of dead plates can empower us to make informed decisions that foster growth and stability. The idea of a dead plate serves as a reminder that not everything in our lives needs to bear weight; sometimes, the most effective solutions come from understanding what can be left aside to create a stronger foundation for progress.

在工程和制造的世界中,术语通常在理解过程和结果方面具有重要意义。其中一个术语是死板,它指的是一个不对结构或机制的承载能力做出贡献的平面。这一概念在土木工程等领域尤为相关,因为建筑或桥梁的完整性依赖于各个组件之间的适当重量分配。理解死板的含义可以导致更有效的设计和更安全的施工。当工程师设计结构时,他们必须考虑不同元素在各种负载下的相互作用。死板通常用于支撑系统的上下文中,它作为一个不承重的元件提供稳定性,而不会增加显著的重量。例如,在一栋多层建筑中,死板可能用于分散上方楼层的重量,同时确保整体结构保持平衡。这一点至关重要,因为不均匀的重量分布可能导致结构失效,这可能会造成灾难性的后果。此外,死板的使用并不仅限于建筑。在机械领域,死板可以指那些对整体功能至关重要但不直接承重的组件。例如,在传送带系统中,死板可能作为移动部件的导向或支撑,确保顺畅的操作而不承受任何显著的重量。这使得机械系统能够更高效、更可靠地运行。除了技术应用外,死板的概念还可以隐喻性地应用于生活的各个方面。例如,如果某些关系或承诺并未积极促进个人成长或幸福,我们可以将其视为死板。这些关系可能提供了一种稳定感,但并未给生活增添价值。识别和处理这些死板可以导致更加充实的经历和连接。此外,在项目管理的背景下,识别团队或工作流程中的死板可以提高生产力。那些对项目成功没有实质性贡献的任务或角色可以被视为死板。通过重新分配资源和精力到更有影响力的活动上,团队可以最大化效率,取得更好的成果。总之,术语死板在技术和隐喻的背景下都具有重要意义。无论是在工程、机械还是人际关系中,理解死板的角色可以带来更好的设计、更高的效率和更有意义的联系。当我们在生活和工作各个方面中航行时,识别死板的存在可以使我们能够做出明智的决策,从而促进成长和稳定。死板的概念提醒我们,并非生活中的每一件事都需要承载重量;有时,最有效的解决方案来自于理解哪些东西可以被放置一旁,以便为进步创造更强大的基础。