frost-resisting property

简明释义

耐寒性

英英释义

例句

1.This type of concrete is designed with a frost-resisting property to prevent cracking in cold weather.

这种混凝土设计了抗霜性能，以防止在寒冷天气中开裂。

2.You should check the frost-resisting property of the insulation material before installation.

在安装之前，您应该检查绝缘材料的抗霜性能。

3.When selecting plants for your garden, consider their frost-resisting property to ensure they survive winter.

在选择花园植物时，要考虑它们的抗霜性能，以确保它们能在冬季存活。

4.The new building materials have excellent frost-resisting property, making them ideal for cold climates.

这种新建筑材料具有优良的抗霜性能，非常适合寒冷气候。

5.The manufacturer claims that their paint has a strong frost-resisting property.

制造商声称他们的油漆具有强大的抗霜性能。

作文

In the realm of construction and material science, understanding the properties of various materials is crucial for ensuring durability and longevity. One such property that has garnered significant attention is the frost-resisting property. This term refers to a material's ability to withstand freezing temperatures without suffering damage or degradation. The importance of the frost-resisting property cannot be overstated, particularly in regions that experience harsh winter conditions. Buildings and structures constructed with materials that possess this property are less likely to suffer from cracks, spalling, or other forms of deterioration caused by freeze-thaw cycles.When water seeps into porous materials and freezes, it expands, exerting pressure on the surrounding material. This can lead to significant structural damage over time. Therefore, selecting materials with a strong frost-resisting property is essential for any construction project in cold climates. For instance, concrete is often treated with additives that enhance its frost-resisting property, making it more suitable for outdoor use in freezing conditions. Additionally, certain types of bricks and stones are chosen specifically for their ability to resist frost damage, ensuring that they retain their integrity throughout the winter months.Moreover, the frost-resisting property is not only relevant for structural integrity but also plays a vital role in energy efficiency. Buildings that can withstand extreme weather conditions tend to have better insulation properties, leading to reduced energy consumption for heating. This is particularly important in today's world, where energy efficiency is a key concern for both environmental sustainability and cost-effectiveness.In landscaping, the frost-resisting property is equally important. Plants and materials used in gardens and outdoor spaces must be able to endure frost to thrive year-round. Selecting frost-resistant plants and materials can help maintain the beauty and functionality of outdoor spaces even in the coldest months. For example, certain types of mulch or paving stones are designed to resist frost damage, ensuring that pathways and garden beds remain intact despite harsh winter conditions.Furthermore, understanding the frost-resisting property extends beyond just practical applications; it also involves scientific research and innovation. Researchers are continuously exploring new materials and methods to enhance the frost-resisting property of existing substances. This includes the development of advanced polymers and composites that offer superior resistance to freezing conditions. As technology advances, we can expect to see even more effective solutions that will improve the longevity and performance of materials used in construction and landscaping.In conclusion, the frost-resisting property is a critical factor in the selection and application of materials across various fields. Its significance is evident in the construction industry, landscaping, and even energy efficiency. By prioritizing materials with strong frost-resisting properties, we can ensure that our structures and outdoor spaces remain resilient against the challenges posed by cold weather. As we continue to innovate and improve our understanding of material science, the future looks promising for developing even more effective solutions to combat frost damage.

在建筑和材料科学领域，理解各种材料的特性对于确保耐用性和长久性至关重要。其中一个受到广泛关注的特性是抗霜性能。这个术语指的是材料在遭受冻结温度时能够承受而不受损坏或降解的能力。抗霜性能的重要性不容小觑，尤其是在经历严酷冬季条件的地区。使用具有此特性的材料建造的建筑和结构不太可能因冻融循环而出现裂缝、剥落或其他形式的劣化。当水渗入多孔材料并冻结时，它会膨胀，对周围材料施加压力。这可能导致随着时间的推移产生显著的结构损坏。因此，在寒冷气候的任何建筑项目中，选择具有强大抗霜性能的材料是必不可少的。例如，混凝土通常会添加增强其抗霜性能的添加剂，使其更适合在冻结条件下的户外使用。此外，某些类型的砖和石头专门选择以抵御霜害，确保它们在冬季保持完整。此外，抗霜性能不仅与结构完整性相关，也在能效方面发挥着重要作用。能够承受极端天气条件的建筑往往具有更好的绝缘性能，从而减少供暖的能源消耗。在当今世界，能源效率是环境可持续性和经济效益的关键关注点。在园艺中，抗霜性能同样重要。用于花园和户外空间的植物和材料必须能够耐受霜冻，以便全年茁壮成长。选择抗霜的植物和材料可以帮助维持户外空间的美观和功能，即使在最寒冷的月份。例如，某些类型的覆盖物或铺路石被设计为抵御霜害，确保即使在严酷的冬季条件下，通道和花坛依然完好无损。此外，理解抗霜性能不仅仅涉及实际应用，还包括科学研究和创新。研究人员不断探索新材料和方法，以增强现有物质的抗霜性能。这包括开发先进的聚合物和复合材料，提供对冻结条件的优越抵抗力。随着技术的进步，我们可以期待看到更有效的解决方案，改善建筑和园艺中使用材料的耐久性和性能。总之，抗霜性能是选择和应用各个领域材料的关键因素。其重要性在建筑行业、园艺甚至能效方面都显而易见。通过优先选择具有强大抗霜性能的材料，我们可以确保我们的结构和户外空间能够抵御寒冷天气带来的挑战。随着我们继续创新并提高对材料科学的理解，未来在开发更有效的解决方案以应对霜害方面前景光明。