tons per inch
简明释义
每英寸排水吨数
英英释义
A measure of weight or force applied per unit length, often used in engineering and construction to describe load distribution. | 每单位长度施加的重量或力的测量,常用于工程和建筑中描述负载分布。 |
例句
1.When designing the bridge, engineers calculated that it would need to handle 10 tons per inch to ensure safety under heavy traffic.
在设计桥梁时,工程师计算出它需要承受10吨每英寸以确保在重型交通下的安全性。
2.The specifications indicate that the steel plate can withstand up to 8 tons per inch of pressure without deforming.
规格表明,这块钢板可以承受高达8吨每英寸的压力而不变形。
3.The load capacity of this beam is rated at 5 tons per inch, which means it can support a significant amount of weight over its length.
这根梁的承载能力为5吨每英寸,这意味着它可以在其长度上支撑大量重量。
4.For this construction project, we need materials that can endure at least 12 tons per inch for the foundation.
对于这个建筑项目,我们需要能够承受至少12吨每英寸的材料用于基础。
5.The manufacturer claims that their new composite material has a strength of 15 tons per inch, making it ideal for high-stress applications.
制造商声称他们的新复合材料具有15吨每英寸的强度,使其非常适合高应力应用。
作文
Understanding the concept of weight and pressure is crucial in many fields, especially in engineering and construction. One term that often comes up in these discussions is tons per inch, which measures how much weight is distributed over a certain area. This measurement is particularly important when assessing the load-bearing capacity of materials and structures. In simple terms, tons per inch refers to the amount of weight (in tons) that can be supported by one inch of a given material or structure. For example, if a beam can support 10 tons over a length of 10 inches, we can say it has a capacity of 1 tons per inch.In construction, understanding tons per inch is vital for ensuring safety and stability. Engineers must calculate the load that different parts of a structure will bear, including floors, roofs, and foundations. If a floor is designed to hold a certain number of people and equipment, knowing the tons per inch helps in determining whether the floor can safely support that weight without collapsing.Moreover, the concept of tons per inch is not only applicable to static loads but also to dynamic loads. For instance, vehicles moving over a bridge exert varying amounts of pressure on different parts of the structure. Engineers must account for these variations in their calculations to ensure that the bridge can withstand both the static weight of the structure itself and the dynamic loads created by traffic.In addition to construction, tons per inch is also relevant in manufacturing processes. When designing machines or tools, engineers need to understand how much weight each component can handle. This ensures that the machinery operates efficiently and safely under various conditions. For example, in the automotive industry, knowing the tons per inch of materials used in car frames can help manufacturers design safer vehicles that can withstand crashes.Furthermore, the concept of tons per inch can also be applied in environmental science. When assessing the impact of heavy machinery on soil, scientists measure how much weight per inch of ground the machinery exerts. This helps in understanding soil compaction and its effects on plant growth and water drainage. If the weight of the machinery exceeds the tons per inch that the soil can handle, it may lead to detrimental effects on the ecosystem.In summary, the phrase tons per inch encapsulates a fundamental principle that spans multiple disciplines, from engineering to environmental science. It is a critical measure for evaluating the strength and capacity of materials and structures. Understanding this concept allows professionals to make informed decisions that enhance safety, efficiency, and sustainability in their respective fields. As we continue to advance in technology and construction methods, the importance of accurately measuring tons per inch will only grow, highlighting the need for ongoing education and research in this area.
理解重量和压力的概念在许多领域中至关重要,尤其是在工程和建筑中。一个经常出现在这些讨论中的术语是吨每英寸,它衡量的是在某个特定区域内分布的重量。这个测量在评估材料和结构的承载能力时尤为重要。简单来说,吨每英寸指的是一种材料或结构的每英寸可以支持的重量(以吨为单位)。例如,如果一根梁可以在10英寸的长度上支撑10吨,我们可以说它的承载能力为1 吨每英寸。在建筑中,理解吨每英寸对确保安全和稳定至关重要。工程师必须计算结构不同部分将承受的负荷,包括地板、屋顶和基础。如果一个地板设计用来容纳一定数量的人和设备,了解吨每英寸有助于确定该地板是否能够安全地支持这种重量而不会倒塌。此外,吨每英寸的概念不仅适用于静态负载,还适用于动态负载。例如,车辆在桥上行驶时,会对结构的不同部分施加不同程度的压力。工程师必须在计算中考虑这些变化,以确保桥梁既能承受自身结构的静态重量,又能承受交通造成的动态负载。除了建筑,吨每英寸在制造过程中也很相关。在设计机器或工具时,工程师需要了解每个组件可以承受多少重量。这确保了机械在各种条件下高效且安全地运行。例如,在汽车工业中,了解汽车框架所用材料的吨每英寸可以帮助制造商设计更安全的车辆,使其能够承受碰撞。此外,吨每英寸的概念还可以应用于环境科学。当评估重型机械对土壤的影响时,科学家会测量机械对每英寸地面的重量。这有助于理解土壤压实及其对植物生长和水排放的影响。如果机械的重量超过土壤可以承受的吨每英寸,可能会对生态系统产生不利影响。总之,短语吨每英寸概括了一个跨越多个学科的基本原则,从工程到环境科学。这是评估材料和结构强度及承载能力的关键测量。理解这一概念使专业人士能够做出明智的决策,从而提高各自领域的安全性、效率和可持续性。随着我们在技术和建筑方法上的不断进步,准确测量吨每英寸的重要性将只会增加,突显出在这一领域持续教育和研究的必要性。
相关单词
