chocking resistance
简明释义
扼流电阻
英英释义
Chocking resistance refers to the ability of a material or structure to withstand lateral forces that could cause it to shift or become misaligned. | 抗侧移能力是指材料或结构抵御可能导致其移动或错位的横向力的能力。 |
例句
1.In our testing, the material demonstrated excellent chocking resistance 抗堵塞能力 against various contaminants.
在我们的测试中,该材料在各种污染物面前表现出了优异的chocking resistance 抗堵塞能力。
2.To avoid maintenance issues, it is essential to choose materials with high chocking resistance 抗堵塞能力 in construction.
为了避免维护问题,在建筑中选择具有高chocking resistance 抗堵塞能力的材料至关重要。
3.Engineers are focusing on enhancing the chocking resistance 抗堵塞能力 of the filters to extend their lifespan.
工程师们正专注于提升过滤器的chocking resistance 抗堵塞能力以延长其使用寿命。
4.The new design of the valve offers improved chocking resistance 抗堵塞能力, allowing for smoother operation under high pressure.
新的阀门设计提供了更好的chocking resistance 抗堵塞能力,使在高压下的操作更加顺畅。
5.The chocking resistance 抗堵塞能力 of this pipeline system is crucial for maintaining efficient flow rates.
该管道系统的chocking resistance 抗堵塞能力对维持有效流量至关重要。
作文
In the world of engineering and material science, understanding the properties of different materials is crucial for designing safe and effective structures. One such property that often comes into play is chocking resistance, which refers to a material's ability to resist deformation or damage when subjected to compressive forces. This property is particularly important in applications where materials must bear heavy loads or withstand significant impacts.For instance, consider the construction of bridges. Engineers must select materials that possess high chocking resistance to ensure that the bridge can support the weight of vehicles and withstand environmental factors such as wind and earthquakes. If a material lacks sufficient chocking resistance, it may deform under pressure, leading to structural failure and potentially catastrophic consequences.The concept of chocking resistance is not limited to large-scale structures. It also applies to everyday objects, such as furniture and appliances. For example, a well-designed chair should have high chocking resistance to ensure that it does not collapse under the weight of a person sitting on it. Similarly, kitchen appliances must be built with materials that can withstand the pressures of daily use without warping or breaking.Testing for chocking resistance typically involves applying a controlled force to a material and measuring its response. Engineers use various methods, such as compression tests, to determine how much pressure a material can handle before it begins to deform. This data is vital for selecting the right materials for specific applications, ensuring safety and durability.Moreover, advancements in technology have led to the development of new materials with enhanced chocking resistance. For instance, composites and alloys are engineered to combine the beneficial properties of different materials, resulting in products that can endure greater stresses than traditional materials. This innovation opens up new possibilities in fields ranging from aerospace to automotive engineering, where the demand for lightweight yet strong materials is ever-increasing.In conclusion, chocking resistance is a fundamental property that plays a critical role in the design and functionality of various materials and structures. Whether in large infrastructure projects or everyday items, understanding and utilizing this property can lead to safer, more reliable products. As technology continues to evolve, we can expect even greater advancements in materials science, allowing us to create solutions that meet the challenges of our modern world. Therefore, engineers and designers must prioritize chocking resistance in their work to ensure the longevity and safety of their creations.
在工程和材料科学的世界中,理解不同材料的性质对于设计安全有效的结构至关重要。其中一个经常涉及的属性是抗压阻力,它指的是材料在承受压缩力时抵抗变形或损坏的能力。这个属性在材料必须承受重负荷或抵御重大冲击的应用中尤为重要。例如,考虑桥梁的建设。工程师必须选择具有高抗压阻力的材料,以确保桥梁能够支撑车辆的重量,并抵御风和地震等环境因素。如果一种材料缺乏足够的抗压阻力,它可能会在压力下变形,从而导致结构失效,甚至可能造成灾难性的后果。抗压阻力的概念并不仅限于大型结构。它也适用于日常物品,例如家具和电器。例如,一个设计良好的椅子应该具有高抗压阻力,以确保它在一个人坐上去时不会崩溃。同样,厨房电器必须使用能够承受日常使用压力而不变形或破裂的材料制造。测试抗压阻力通常涉及对材料施加控制的力量并测量其反应。工程师使用各种方法,如压缩测试,来确定材料可以承受多少压力,然后开始变形。这些数据对于选择特定应用的正确材料至关重要,从而确保安全性和耐用性。此外,技术的进步导致了具有增强抗压阻力的新材料的发展。例如,复合材料和合金被设计成结合不同材料的有益特性,从而产生能够承受比传统材料更大压力的产品。这种创新为航空航天和汽车工程等领域开辟了新的可能性,在这些领域中,对轻量且强大的材料的需求与日俱增。总之,抗压阻力是一个基本属性,在各种材料和结构的设计与功能中发挥着关键作用。无论是在大型基础设施项目还是日常物品中,理解和利用这一属性可以带来更安全、更可靠的产品。随着技术的不断发展,我们可以期待材料科学的进一步进步,使我们能够创造出满足现代世界挑战的解决方案。因此,工程师和设计师在工作中必须优先考虑抗压阻力,以确保他们创作的作品的持久性和安全性。
相关单词
