noncreeping material
简明释义
无蠕变材料
英英释义
例句
1.The packaging was made from noncreeping material to keep the contents secure during transport.
包装采用非爬行材料制成,以保持内容物在运输过程中的安全。
2.The artist preferred noncreeping material for her sculptures to maintain their form over time.
艺术家更喜欢使用非爬行材料制作雕塑,以保持其形状。
3.In construction, using noncreeping material can prevent structural failures due to shifting.
在建筑中,使用非爬行材料可以防止因位移导致的结构故障。
4.The engineer specified that the project must use noncreeping material to ensure stability over time.
工程师指定项目必须使用非爬行材料以确保长期稳定。
5.For outdoor furniture, it is essential to choose noncreeping material that can withstand weather changes.
对于户外家具,选择能够抵御天气变化的非爬行材料至关重要。
作文
In the world of engineering and material science, the term noncreeping material refers to substances that do not exhibit significant deformation over time when subjected to constant load or stress. This characteristic is crucial in various applications, particularly in construction and manufacturing, where the integrity and durability of materials are paramount. Understanding the properties of noncreeping material can lead to safer and more efficient designs, ultimately benefiting both the industry and consumers.One of the most notable examples of noncreeping material is certain types of metals and ceramics. These materials maintain their shape and size even under prolonged stress, which is essential for structures like bridges and buildings that must withstand heavy loads for decades. For instance, steel beams used in skyscrapers are often made from noncreeping material, ensuring that they do not sag or deform over time, which could lead to catastrophic failures.Moreover, the importance of noncreeping material extends beyond structural applications. In the realm of electronics, components made from noncreeping material are vital for maintaining the performance and reliability of devices. Circuit boards, for example, require materials that can withstand thermal and mechanical stresses without changing shape, which could disrupt electrical connections and lead to malfunctions.The selection of noncreeping material is also a critical consideration in the automotive industry. Car manufacturers strive to use materials that do not creep under the weight of the vehicle or during operation. This ensures that parts such as chassis and suspension systems remain stable, contributing to the overall safety and performance of the vehicle. The use of noncreeping material in these applications can significantly enhance the lifespan of vehicles and reduce maintenance costs for consumers.Furthermore, the development of new noncreeping material continues to be a focus of research and innovation. Scientists are exploring advanced composites and alloys that combine lightweight properties with high strength and minimal creep. These innovations have the potential to revolutionize various industries by providing materials that can perform better than traditional options while also being more sustainable.In conclusion, the significance of noncreeping material cannot be overstated. Its applications span across multiple fields, including construction, electronics, and automotive industries, where maintaining structural integrity and performance is crucial. As technology advances, the demand for improved noncreeping material will likely grow, paving the way for safer, more efficient, and longer-lasting products. Understanding and utilizing these materials effectively will be key to future innovations and advancements in engineering and design.
在工程和材料科学的世界中,术语非蠕变材料指的是在施加恒定负载或应力时不会表现出显著变形的物质。这一特性在建筑和制造等各种应用中至关重要,因为材料的完整性和耐久性是首要考虑因素。理解非蠕变材料的特性可以导致更安全、更高效的设计,最终使行业和消费者受益。非蠕变材料最显著的例子之一是某些类型的金属和陶瓷。这些材料即使在长期应力下也能保持其形状和尺寸,这对于像桥梁和建筑这样必须承受重载数十年的结构是必不可少的。例如,摩天大楼使用的钢梁通常由非蠕变材料制成,确保它们不会下垂或变形,这可能导致灾难性的失败。此外,非蠕变材料的重要性超出了结构应用。在电子领域,由于需要维持设备的性能和可靠性,因此由非蠕变材料制成的组件是至关重要的。例如,电路板需要能够承受热和机械应力而不改变形状的材料,否则可能会干扰电连接并导致故障。在汽车工业中,非蠕变材料的选择也是一个关键考虑因素。汽车制造商努力使用在车辆重量或运行过程中不会发生蠕变的材料。这确保了底盘和悬挂系统等部件保持稳定,从而有助于车辆的整体安全性和性能。在这些应用中使用非蠕变材料可以显著延长车辆的使用寿命,并减少消费者的维护成本。此外,新的非蠕变材料的发展仍然是研究和创新的重点。科学家们正在探索结合轻量化特性与高强度和最小蠕变的新型复合材料和合金。这些创新有潜力通过提供性能优于传统选项的材料来彻底改变各个行业,同时还更加可持续。总之,非蠕变材料的重要性不容小觑。它的应用跨越多个领域,包括建筑、电子和汽车工业,在这些领域中,保持结构完整性和性能至关重要。随着技术的进步,对改进的非蠕变材料的需求可能会增长,为更安全、更高效和更持久的产品铺平道路。有效理解和利用这些材料将是未来工程和设计创新与进步的关键。
