non-retentive material
简明释义
软磁材料
英英释义
例句
1.For the landscaping project, we chose non-retentive material 非滞留材料 to ensure proper drainage.
在园艺项目中,我们选择了非滞留材料以确保适当的排水。
2.The architect recommended a non-retentive material 非滞留材料 for the roof to prevent water retention.
建筑师建议使用非滞留材料作为屋顶,以防止水分滞留。
3.In fashion design, choosing non-retentive material 非滞留材料 can improve comfort and breathability.
在时尚设计中,选择非滞留材料可以提高舒适度和透气性。
4.The use of non-retentive material 非滞留材料 in construction can enhance the longevity of the structure.
在建筑中使用非滞留材料可以增强结构的耐久性。
5.In dental applications, using non-retentive material 非滞留材料 can help reduce plaque accumulation.
在牙科应用中,使用非滞留材料可以帮助减少牙菌斑的积累。
作文
In the realm of materials science and engineering, understanding the properties and classifications of different materials is crucial. One such classification that often comes up in discussions about construction and manufacturing is the term non-retentive material. This term refers to materials that do not retain or hold onto substances, particularly liquids or gases, which can significantly influence their application in various fields. For instance, in the context of building construction, using non-retentive material can be beneficial for ensuring that structures remain dry and free from moisture accumulation. This is particularly important in areas prone to heavy rainfall or flooding, where water retention could lead to structural damage over time.The significance of non-retentive material extends beyond just construction; it also plays a vital role in environmental management. Materials that do not retain contaminants are essential in designing systems for waste management and pollution control. For example, using non-retentive material in landfills can help prevent leachate from contaminating groundwater supplies, thereby protecting ecosystems and human health. Similarly, in the manufacturing of products like filters or membranes, non-retentive material ensures that unwanted substances are effectively removed without the risk of them being reabsorbed back into the environment.Moreover, the use of non-retentive material is critical in the medical field, particularly in the development of surgical instruments and implants. These materials are designed to minimize the risk of infection and inflammation by preventing the retention of bodily fluids and pathogens. For example, certain types of plastics and metals are engineered to be non-retentive material, allowing for easier sterilization and reducing the likelihood of complications during and after surgical procedures.However, while non-retentive material offers numerous advantages, it is essential to consider the trade-offs involved. In some applications, the lack of retention might lead to other issues, such as increased wear and tear or the need for frequent replacements. Therefore, engineers and designers must carefully evaluate the specific requirements of their projects to determine whether non-retentive material is the best choice.In conclusion, the concept of non-retentive material encompasses a wide range of applications across various industries, from construction to healthcare. Its ability to prevent the retention of liquids and contaminants makes it an invaluable asset in promoting safety, efficiency, and sustainability. As technology advances and new materials are developed, the understanding and utilization of non-retentive material will likely continue to evolve, paving the way for innovative solutions to contemporary challenges. Thus, grasping the implications of this term is essential for anyone involved in fields related to material science, engineering, and environmental management.
在材料科学和工程领域,理解不同材料的属性和分类至关重要。其中一个常常出现在建筑和制造讨论中的分类是术语非保留材料。这个术语指的是不保留或保持物质,特别是液体或气体的材料,这对它们在各个领域的应用有着显著的影响。例如,在建筑施工的背景下,使用非保留材料可以确保结构保持干燥,避免水分积聚。这在容易遭受暴雨或洪水的地区尤为重要,因为水的滞留可能会导致结构随时间的推移而受到损害。非保留材料的重要性不仅仅局限于建筑,它在环境管理中也发挥着至关重要的作用。不保留污染物的材料在设计废物管理和污染控制系统时至关重要。例如,在填埋场中使用非保留材料可以帮助防止渗滤液污染地下水,从而保护生态系统和人类健康。同样,在过滤器或膜的制造中,非保留材料确保了不需要的物质被有效去除,而不会被重新吸收到环境中。此外,非保留材料的使用在医疗领域也至关重要,尤其是在外科器械和植入物的开发中。这些材料旨在通过防止保留体液和病原体来最小化感染和炎症的风险。例如,某些类型的塑料和金属被设计为非保留材料,从而便于消毒,并减少手术过程及其后并发症的可能性。然而,尽管非保留材料提供了许多优势,但必须考虑所涉及的权衡。在某些应用中,缺乏保留可能会导致其他问题,例如磨损加剧或需要频繁更换。因此,工程师和设计师必须仔细评估项目的具体要求,以确定非保留材料是否是最佳选择。总之,非保留材料的概念涵盖了各个行业广泛的应用,从建筑到医疗。它防止液体和污染物滞留的能力使其成为促进安全、效率和可持续发展的宝贵资产。随着技术的进步和新材料的开发,对非保留材料的理解和利用可能会继续发展,为当代挑战提供创新解决方案。因此,掌握这一术语的含义对于任何与材料科学、工程和环境管理相关的领域的人来说都是至关重要的。
