fume resistance

简明释义

耐烟雾性

英英释义

例句

1.The construction materials we selected feature fume resistance to enhance indoor air quality.

我们选择的建筑材料具有烟雾抵抗力，以改善室内空气质量。

2.Choosing a sealant with fume resistance is crucial for areas exposed to chemical fumes.

选择一种具有烟雾抵抗力的密封剂对于暴露于化学烟雾的区域至关重要。

3.The new paint we used has excellent fume resistance, making it safe for indoor applications.

我们使用的新油漆具有优异的烟雾抵抗力，使其适合室内使用。

4.In the laboratory, we prioritize materials with high fume resistance to ensure safety during experiments.

在实验室中，我们优先选择具有高烟雾抵抗力的材料，以确保实验安全。

5.The protective gear is designed with fume resistance to protect workers from harmful vapors.

这套防护装备设计了烟雾抵抗力，以保护工人免受有害蒸汽的侵害。

作文

In today's world, where industrial activities are on the rise, the importance of materials that can withstand harsh conditions cannot be overstated. One such property that is gaining significant attention is fume resistance, which refers to the ability of a material to resist degradation or damage caused by harmful fumes and gases. This characteristic is particularly crucial in environments where chemical processes take place, as exposure to toxic fumes can lead to severe health risks and material failures. Understanding fume resistance is essential for engineers and designers when selecting materials for various applications.The concept of fume resistance is not only relevant in industrial settings but also extends to everyday life. For example, household items such as paints, adhesives, and cleaning products often emit fumes that can be harmful if inhaled over prolonged periods. Therefore, choosing products with high fume resistance ensures that they will not release toxic substances into the air, promoting a healthier living environment.In construction, fume resistance plays a vital role in ensuring the safety and longevity of buildings. Materials used in construction must be able to withstand exposure to various fumes, especially in areas where ventilation is limited. For instance, in tunnels or underground facilities, the accumulation of harmful gases can pose significant risks. Hence, using materials with excellent fume resistance helps mitigate these dangers, ensuring the safety of both workers and occupants.Moreover, industries such as automotive and aerospace heavily rely on materials with high fume resistance. In these sectors, components are often exposed to extreme conditions, including high temperatures and corrosive environments. Materials that can resist fumes not only enhance the durability of the products but also ensure their performance over time. For example, engines and exhaust systems need to be made from materials that can withstand the corrosive effects of exhaust fumes, thereby prolonging their lifespan and efficiency.Testing for fume resistance is a critical aspect of material selection. Various methods exist to evaluate this property, including exposure tests, where materials are subjected to specific concentrations of harmful gases over time. The results help manufacturers determine the suitability of materials for different applications and ensure compliance with safety regulations.In conclusion, fume resistance is a vital property that affects various industries and everyday products. By understanding and prioritizing this characteristic, we can create safer environments and improve the performance and durability of materials. As awareness of environmental health continues to grow, the demand for materials with superior fume resistance will undoubtedly increase, leading to innovations and advancements in material science. In our quest for a sustainable future, focusing on fume resistance can pave the way for safer and more resilient products that benefit both humanity and the planet.

在当今这个工业活动日益增长的世界里，能够承受恶劣条件的材料的重要性不容小觑。其中一个越来越受到关注的特性是耐烟雾性，指的是材料抵抗有害烟雾和气体造成的降解或损坏的能力。这种特性在化学过程发生的环境中尤为重要，因为暴露于有毒烟雾中可能导致严重的健康风险和材料故障。理解耐烟雾性对于工程师和设计师在选择各种应用材料时至关重要。耐烟雾性的概念不仅与工业环境相关，还延伸到日常生活中。例如，油漆、粘合剂和清洁产品等家居用品往往会释放出烟雾，如果长时间吸入可能是有害的。因此，选择高耐烟雾性的产品可以确保它们不会向空气中释放有毒物质，从而促进更健康的生活环境。在建筑中，耐烟雾性在确保建筑的安全性和耐久性方面发挥着至关重要的作用。用于建筑的材料必须能够承受各种烟雾的暴露，特别是在通风有限的区域。例如，在隧道或地下设施中，有害气体的积聚可能带来重大风险。因此，使用具有优良耐烟雾性的材料有助于减轻这些危险，确保工人和居住者的安全。此外，汽车和航空航天等行业在很大程度上依赖于具有高耐烟雾性的材料。在这些领域，组件通常暴露于极端条件下，包括高温和腐蚀性环境。能够抵抗烟雾的材料不仅增强了产品的耐用性，还确保了其长期性能。例如，发动机和排气系统需要由能够承受排气烟雾腐蚀性影响的材料制成，从而延长其使用寿命和效率。测试耐烟雾性是材料选择的一个关键方面。存在多种方法来评估这一特性，包括暴露测试，其中材料在特定浓度的有害气体下进行一段时间的测试。结果帮助制造商确定材料在不同应用中的适用性，并确保符合安全法规。总之，耐烟雾性是一项影响各个行业和日常产品的重要特性。通过理解和优先考虑这一特性，我们可以创造更安全的环境，改善材料的性能和耐久性。随着对环境健康的认识不断提高，对具有优越耐烟雾性的材料的需求无疑会增加，从而推动材料科学的创新和进步。在我们追求可持续未来的过程中，关注耐烟雾性可以为创造更安全、更具韧性的产品铺平道路，这些产品既造福人类，又造福地球。