tons per inch
简明释义
英寸吨
英英释义
A unit of measurement that indicates the weight in tons that is distributed or exerted over a linear inch, often used in engineering and material science. | 一种测量单位,表示在每线性英寸上分布或施加的吨数,通常用于工程和材料科学。 |
例句
1.The engineers determined that the steel beam could bear 8 tons per inch 每英寸吨数 without bending.
工程师们确定钢梁在不弯曲的情况下可以承受每英寸8吨数的重量。
2.The bridge can support a maximum load of 5 tons per inch 每英寸吨数 before it becomes unsafe.
这座桥在变得不安全之前,最多可以承受每英寸5吨数的负载。
3.When calculating the strength of the material, we found it could handle up to 10 tons per inch 每英寸吨数.
在计算材料的强度时,我们发现它可以承受每英寸10吨数的压力。
4.In our tests, the composite material showed a strength of 6 tons per inch 每英寸吨数 under pressure.
在我们的测试中,复合材料在压力下显示出每英寸6吨数的强度。
5.For safety reasons, the load limit was set to 3 tons per inch 每英寸吨数 for the crane operation.
出于安全原因,起重机操作的负载限制设定为每英寸3吨数。
作文
In the world of engineering and construction, understanding the concept of weight distribution is essential. One term that often arises in this context is tons per inch, which refers to the amount of weight (in tons) that is applied over a specific area measured in inches. This measurement is crucial when designing structures, as it helps engineers determine how much load a material can handle without failing. For example, when constructing a bridge, engineers must calculate the tons per inch that each section of the bridge will bear under various conditions, including traffic loads, environmental factors, and potential wear over time.The significance of tons per inch becomes apparent when considering different materials used in construction. Steel, for instance, has a high tensile strength, allowing it to support a large amount of weight per inch. In contrast, materials like wood or concrete have different load-bearing capacities. By calculating the tons per inch for each material, engineers can make informed decisions about which materials to use for specific parts of a structure, ensuring safety and stability.Moreover, during the construction phase, workers need to be aware of the tons per inch limits to avoid overloading beams and supports. Overloading can lead to structural failure, resulting in costly repairs and potential hazards. Therefore, having a clear understanding of this measurement is vital for maintaining safety standards on-site.In addition to construction, tons per inch is also relevant in manufacturing processes. For example, in the production of machinery or vehicles, engineers must consider how much weight each component can support. This is especially important in industries where precision and reliability are paramount, such as aerospace or automotive engineering. By applying the concept of tons per inch, manufacturers can design components that are both lightweight and strong, enhancing overall performance while minimizing material costs.Furthermore, the application of tons per inch extends to environmental considerations as well. As we strive for sustainable practices in construction and manufacturing, understanding how materials behave under different loads can help in selecting eco-friendly options that do not compromise on strength. For instance, using recycled materials or innovative composites may alter the tons per inch calculations, leading to more sustainable designs.In conclusion, the term tons per inch plays a pivotal role in various fields, particularly in engineering, construction, and manufacturing. It aids in ensuring safety, optimizing material usage, and promoting sustainable practices. As industries continue to evolve, the importance of accurately calculating tons per inch will remain a fundamental aspect of successful project execution. Understanding this concept not only enhances our technical knowledge but also contributes to building a safer and more efficient future.
在工程和建筑的世界中,理解重量分布的概念至关重要。一个常常出现的术语是吨每英寸,它指的是施加在特定面积(以英寸为单位)上的重量(以吨为单位)。这个测量在设计结构时至关重要,因为它帮助工程师确定材料在不失效的情况下可以承受多少负荷。例如,在建造桥梁时,工程师必须计算桥梁每个部分在各种条件下(包括交通负荷、环境因素和潜在磨损)将承受的吨每英寸。吨每英寸的重要性在于考虑建筑中使用的不同材料。例如,钢材具有高抗拉强度,使其能够每英寸支撑大量重量。相比之下,木材或混凝土等材料的承载能力则不同。通过计算每种材料的吨每英寸,工程师可以就特定结构的各个部分选择使用哪些材料,从而确保安全和稳定。此外,在施工阶段,工人需要了解吨每英寸的限制,以避免过载梁和支撑。过载可能导致结构失败,造成昂贵的维修费用和潜在的危险。因此,清楚理解这一测量对于维护现场安全标准至关重要。除了建筑,吨每英寸在制造过程中同样相关。例如,在机械或车辆的生产中,工程师必须考虑每个部件可以承受多少重量。这在航空航天或汽车工程等对精度和可靠性要求极高的行业中尤为重要。通过应用吨每英寸的概念,制造商可以设计出既轻便又坚固的部件,从而提高整体性能,同时降低材料成本。此外,吨每英寸的应用还延伸到环境考虑。在我们努力实现建筑和制造的可持续实践时,理解材料在不同负载下的表现可以帮助选择不会影响强度的环保选项。例如,使用回收材料或创新复合材料可能会改变吨每英寸的计算,从而导致更可持续的设计。总之,术语吨每英寸在多个领域中发挥着关键作用,特别是在工程、建筑和制造中。它有助于确保安全、优化材料使用并促进可持续实践。随着各行业的不断发展,准确计算吨每英寸的重要性将始终是成功项目执行的基本方面。理解这一概念不仅增强了我们的技术知识,还有助于建设一个更安全、更高效的未来。
相关单词
