absorption limit

简明释义

吸收限;

英英释义

例句

1.The absorption limit of the soil affects its ability to retain moisture.

土壤的吸收极限影响其保水能力。

2.Engineers must consider the absorption limit when selecting materials for high-stress applications.

工程师在选择高应力应用的材料时必须考虑吸收极限。

3.The absorption limit of the material determines how much energy it can absorb before failing.

材料的吸收极限决定了它在失效之前可以吸收多少能量。

4.Understanding the absorption limit is crucial for designing effective soundproofing materials.

理解吸收极限对于设计有效的隔音材料至关重要。

5.In this experiment, we are testing the absorption limit of different liquids.

在这个实验中，我们正在测试不同液体的吸收极限。

作文

In the field of science and engineering, particularly in materials science and physics, the term absorption limit refers to the maximum amount of energy or substance that a material can absorb without undergoing a significant change in its properties or structure. This concept is crucial in various applications, including the design of materials for construction, electronics, and even environmental science. Understanding the absorption limit of a material helps engineers and scientists predict how it will behave under different conditions, ensuring safety and efficiency in their designs.For instance, when designing buildings, architects must consider the absorption limit of materials used in construction. Materials such as concrete, wood, and metals have different capacities for absorbing moisture, sound, and heat. If a material exceeds its absorption limit, it may lead to structural failures, such as cracking or warping, which can compromise the integrity of the building. Therefore, knowing the absorption limit is essential for selecting appropriate materials that can withstand environmental factors over time.In electronics, the absorption limit is equally important. For example, in the development of photovoltaic cells, understanding the absorption limit of solar materials determines their efficiency in converting sunlight into electricity. If the materials used in these cells exceed their absorption limit, they may not function effectively, leading to energy loss and decreased performance. Researchers continuously work on improving materials to enhance their absorption limit, thereby increasing the efficiency of solar panels and other electronic devices.Environmental science also relies heavily on the concept of absorption limit. When studying pollutants, scientists must understand how much of a particular substance can be absorbed by soil or water without causing harm to the ecosystem. For example, if a certain chemical exceeds its absorption limit in soil, it may lead to contamination of groundwater, affecting both human health and wildlife. Consequently, policies and regulations are often established based on the absorption limit of various substances to protect the environment and public health.Moreover, the absorption limit can vary significantly between different materials and conditions. Factors such as temperature, pressure, and the presence of other substances can all influence a material's ability to absorb energy or matter. Therefore, extensive testing and analysis are conducted to determine the absorption limit for specific applications. This research is vital for innovation across various industries, as it leads to the development of new materials with enhanced properties.In conclusion, the concept of absorption limit plays a critical role in multiple fields, including construction, electronics, and environmental science. It helps professionals make informed decisions about material selection and application, ultimately contributing to safer and more efficient designs. As technology advances, the understanding of absorption limit will continue to evolve, paving the way for innovative solutions that address modern challenges.

在科学和工程领域，特别是材料科学和物理学中，术语吸收极限指的是材料可以吸收的最大能量或物质量，而不会发生显著的性质或结构变化。这个概念在各种应用中至关重要，包括建筑、电子和环境科学的材料设计。理解材料的吸收极限帮助工程师和科学家预测材料在不同条件下的行为，从而确保其设计的安全性和效率。例如，在设计建筑时，建筑师必须考虑所用建筑材料的吸收极限。混凝土、木材和金属等材料对吸收湿气、声音和热量的能力各不相同。如果材料超过其吸收极限，可能会导致结构故障，如开裂或变形，这可能会危及建筑物的完整性。因此，了解吸收极限对于选择能够抵御环境因素的合适材料至关重要。在电子产品中，吸收极限同样重要。例如，在光伏电池的开发中，了解太阳能材料的吸收极限决定了它们将阳光转化为电能的效率。如果这些电池中使用的材料超过了其吸收极限，它们可能无法有效工作，从而导致能量损失和性能下降。研究人员不断努力改善材料，以增强其吸收极限，从而提高太阳能电池板和其他电子设备的效率。环境科学也严重依赖于吸收极限的概念。在研究污染物时，科学家必须了解特定物质可以被土壤或水吸收多少，而不会对生态系统造成伤害。例如，如果某种化学物质在土壤中的浓度超过其吸收极限，可能会导致地下水污染，影响人类健康和野生动物。因此，通常会根据各种物质的吸收极限制定政策和法规，以保护环境和公共健康。此外，吸收极限在不同材料和条件之间可能存在显著差异。温度、压力和其他物质的存在等因素都能影响材料吸收能量或物质的能力。因此，进行广泛的测试和分析以确定特定应用的吸收极限是至关重要的。这项研究对于各个行业的创新至关重要，因为它促使新材料的开发，具有更好的特性。总之，吸收极限的概念在多个领域中发挥着关键作用，包括建筑、电子和环境科学。它帮助专业人士做出有关材料选择和应用的明智决策，最终有助于更安全和更高效的设计。随着技术的进步，对吸收极限的理解将继续发展，为应对现代挑战铺平道路。