heat resistance

简明释义

耐热性

英英释义

例句

1.When choosing cookware, look for materials with good heat resistance 耐热性 to ensure safety and durability.

选择炊具时，寻找具有良好耐热性的材料，以确保安全和耐用性。

2.For electronics, ensuring heat resistance 耐热性 is crucial to prevent damage from excessive heat.

对于电子产品，确保耐热性至关重要，以防止因过热而造成损坏。

3.The new smartphone model features enhanced heat resistance 耐热性 to prevent overheating during extended use.

新款智能手机具有增强的耐热性，以防止在长时间使用期间过热。

4.The fabric used in this jacket has excellent heat resistance 耐热性, making it ideal for outdoor activities.

这件夹克所用的面料具有优良的耐热性，非常适合户外活动。

5.Engine components must be made from materials with high heat resistance 耐热性 to withstand extreme temperatures.

发动机部件必须由具有高耐热性的材料制成，以承受极端温度。

作文

Heat resistance is a crucial property in various materials, especially in the fields of engineering, construction, and manufacturing. It refers to the ability of a material to withstand high temperatures without losing its structural integrity or functional capabilities. In today's world, where technology is advancing rapidly, understanding and utilizing heat resistance (耐热性) is more important than ever.One significant application of heat resistance (耐热性) is in the automotive industry. Cars are subjected to extreme temperatures, whether from the engine, exhaust systems, or external environmental factors. Materials used in engines, brakes, and other components must have high heat resistance (耐热性) to ensure safety and performance. For instance, ceramic materials are often used in brake pads due to their excellent heat resistance (耐热性), allowing them to perform effectively even under intense heat generated during braking.In the construction industry, heat resistance (耐热性) plays a vital role in fire safety. Building materials such as concrete, steel, and certain types of insulation are selected based on their heat resistance (耐热性). These materials help prevent the spread of fire and protect the structural integrity of buildings during a fire incident. For example, fire-resistant glass is designed to withstand high temperatures while still providing visibility and light, making it an essential component in modern architecture.Moreover, in the realm of electronics, heat resistance (耐热性) is critical for the longevity and reliability of devices. As electronic components generate heat during operation, materials used in circuit boards and casings must be able to dissipate this heat effectively. High-performance polymers and metals with good heat resistance (耐热性) are often employed to ensure that devices function optimally without overheating.The importance of heat resistance (耐热性) extends beyond industrial applications. In everyday life, we encounter materials designed for heat resistance (耐热性) in kitchenware. For instance, cookware made from materials like stainless steel and cast iron can withstand high cooking temperatures without warping or degrading. This property not only enhances the cooking experience but also ensures food safety.Research into improving heat resistance (耐热性) continues to be a vibrant area of study. Scientists and engineers are constantly seeking new materials and composites that can endure higher temperatures while remaining lightweight and durable. Innovations such as advanced ceramics and heat-resistant alloys are being developed to meet the demands of modern technology and safety standards.In conclusion, heat resistance (耐热性) is an essential characteristic that impacts various industries and daily life. Its significance cannot be overstated, as it ensures safety, performance, and durability in materials used in everything from automobiles to building structures and household items. As technology progresses, the quest for better heat resistance (耐热性) will continue to drive innovation, making our products safer and more efficient.

耐热性是各种材料中的一个关键特性，尤其是在工程、建筑和制造领域。它指的是材料在高温下保持结构完整性或功能能力的能力。在今天这个技术快速发展的世界里，理解和利用耐热性（heat resistance）变得越来越重要。耐热性（heat resistance）的一个重要应用是在汽车工业中。汽车在使用过程中会受到极端温度的影响，无论是来自发动机、排气系统还是外部环境因素。用于发动机、刹车和其他组件的材料必须具有高耐热性（heat resistance），以确保安全和性能。例如，陶瓷材料通常用于刹车片，因为它们具有优良的耐热性（heat resistance），即使在刹车时产生的强烈热量下也能有效工作。在建筑行业中，耐热性（heat resistance）在消防安全中发挥着至关重要的作用。建筑材料如混凝土、钢铁和某些类型的绝缘材料是根据其耐热性（heat resistance）来选择的。这些材料有助于防止火灾蔓延，并在火灾事件中保护建筑物的结构完整性。例如，防火玻璃被设计成能够承受高温，同时仍然提供可见性和光线，使其成为现代建筑的重要组成部分。此外，在电子领域，耐热性（heat resistance）对设备的耐久性和可靠性至关重要。由于电子元件在运行过程中会产生热量，因此用于电路板和外壳的材料必须能够有效散热。高性能聚合物和具有良好耐热性（heat resistance）的金属通常被用来确保设备在不发生过热的情况下正常工作。耐热性（heat resistance）的重要性不仅限于工业应用。在日常生活中，我们在厨房用品中遇到的材料也被设计为具有耐热性（heat resistance）。例如，由不锈钢和铸铁制成的炊具可以承受高烹饪温度，而不会变形或降解。这一特性不仅提升了烹饪体验，还确保了食品安全。对提高耐热性（heat resistance）的研究仍然是一个充满活力的研究领域。科学家和工程师不断寻求新的材料和复合材料，这些材料能够承受更高的温度，同时保持轻便和耐用。先进陶瓷和耐热合金等创新正在被开发，以满足现代技术和安全标准的需求。总之，耐热性（heat resistance）是影响各个行业和日常生活的重要特性。它的重要性不容小觑，因为它确保了汽车、建筑结构和家居用品中使用的材料的安全性、性能和耐用性。随着技术的进步，对更好耐热性（heat resistance）的追求将继续推动创新，使我们的产品更加安全和高效。