self supporting tank

简明释义

自支承式液舱

英英释义

例句

1.We chose a self supporting tank 自支撑水箱 for its durability and ease of installation in remote areas.

我们选择了一个自支撑水箱，因为它耐用并且在偏远地区易于安装。

2.The self supporting tank 自支撑水箱 is ideal for locations with limited space, as it doesn't require external braces.

这个自支撑水箱非常适合空间有限的地方，因为它不需要外部支撑。

3.The engineer designed a self supporting tank 自支撑水箱 that can withstand high pressure without additional support.

工程师设计了一个自支撑水箱，可以承受高压而无需额外支撑。

4.In our new facility, we installed a large self supporting tank 自支撑水箱 to store chemicals safely.

在我们的新设施中，我们安装了一个大型自支撑水箱来安全存储化学品。

5.During the inspection, the technician noted that the self supporting tank 自支撑水箱 showed no signs of structural failure.

在检查过程中，技术人员注意到自支撑水箱没有出现结构失效的迹象。

作文

In the world of engineering and design, the term self supporting tank refers to a type of tank that is capable of maintaining its own structural integrity without the need for additional external support. This innovative design is particularly useful in various applications, including water storage, industrial processes, and even in certain types of transportation. Understanding the significance of a self supporting tank can help us appreciate the advancements in material science and engineering techniques that have made such designs possible.One of the most critical aspects of a self supporting tank is its ability to withstand internal pressures while remaining stable. Traditional tanks often require external frameworks or supports to hold them in place, especially when filled with liquids or gases. However, a self supporting tank uses its own material properties to distribute stress evenly across its structure. This not only reduces the need for additional materials but also minimizes the overall weight of the tank, making it more efficient and cost-effective.The construction of a self supporting tank typically involves advanced materials that possess high tensile strength and durability. For instance, modern composite materials or reinforced concrete are often utilized to create these tanks. The choice of materials is crucial, as they must be able to handle the specific requirements of the contents stored within the tank, whether it be water, chemicals, or other substances.Moreover, the design process for a self supporting tank requires careful consideration of various factors, including the intended use, environmental conditions, and safety regulations. Engineers must analyze potential stress points and ensure that the tank can operate effectively under different scenarios. This meticulous planning helps prevent failures that could lead to leaks or catastrophic collapses.Another significant advantage of self supporting tanks is their versatility. They can be designed in various shapes and sizes to fit specific needs. For example, a large cylindrical self supporting tank may be used for agricultural purposes, storing water for irrigation, while a smaller, rectangular version might be employed in industrial settings to hold chemicals. This adaptability allows for efficient use of space and resources in various industries.Additionally, self supporting tanks often require less maintenance compared to traditional tanks. Since they do not rely on external supports, there are fewer components that can wear out or fail over time. This not only saves money in terms of maintenance costs but also enhances the safety of the operation, as the risk of structural failure is significantly reduced.In conclusion, the concept of a self supporting tank represents a remarkable achievement in engineering and design. Its ability to maintain structural integrity without external support makes it a valuable asset in numerous applications. As technology continues to advance, we can expect to see even more innovative designs that push the boundaries of what is possible with self supporting tanks. Understanding this concept not only enriches our knowledge of engineering but also highlights the importance of sustainable practices in resource management and infrastructure development.

在工程和设计的世界中，短语自支撑水箱指的是一种能够在没有额外外部支撑的情况下保持自身结构完整性的水箱。这种创新设计在各种应用中尤为有用，包括水储存、工业过程，甚至某些类型的运输。理解自支撑水箱的重要性可以帮助我们欣赏材料科学和工程技术的进步，使得这样的设计成为可能。自支撑水箱最关键的方面之一是其能够承受内部压力，同时保持稳定。传统水箱通常需要外部框架或支撑来固定它们的位置，尤其是在装满液体或气体时。然而，自支撑水箱利用自身的材料特性均匀地分配应力。这不仅减少了对额外材料的需求，还最小化了水箱的整体重量，使其更加高效和经济。自支撑水箱的构造通常涉及具有高抗拉强度和耐用性的先进材料。例如，现代复合材料或钢筋混凝土通常用于制造这些水箱。材料的选择至关重要，因为它们必须能够处理水箱内储存内容物的特定要求，无论是水、化学品还是其他物质。此外，自支撑水箱的设计过程需要仔细考虑各种因素，包括预期用途、环境条件和安全法规。工程师必须分析潜在的应力点，并确保水箱能够在不同情况下有效运行。这种细致的规划有助于防止导致泄漏或灾难性倒塌的故障。自支撑水箱的另一个显著优势是其多功能性。它们可以设计成各种形状和大小，以满足特定需求。例如，一个大型圆柱形的自支撑水箱可以用于农业目的，储存灌溉用水，而一个较小的矩形版本可能被用于工业环境中储存化学品。这种适应性使得在各个行业中有效利用空间和资源成为可能。此外，自支撑水箱通常比传统水箱需要更少的维护。由于它们不依赖外部支撑，因此可磨损或失效的组件更少。这不仅节省了维护成本，也提高了操作的安全性，因为结构失效的风险显著降低。总之，自支撑水箱的概念代表了工程和设计领域的重大成就。其在没有外部支撑的情况下保持结构完整性的能力使其在众多应用中成为宝贵的资产。随着技术的不断进步，我们可以期待看到更多突破性的设计，推动自支撑水箱的可能性界限。理解这一概念不仅丰富了我们对工程的认识，也突显了在资源管理和基础设施发展中可持续实践的重要性。