resistance to heat

简明释义

耐热性能

英英释义

例句

1.Engine components must have sufficient resistance to heat to function properly under extreme conditions.

发动机部件必须具有足够的耐热性，才能在极端条件下正常工作。

2.When selecting cookware, look for items with good resistance to heat to ensure safety and durability.

在选择炊具时，寻找具有良好耐热性的物品，以确保安全和耐用性。

3.The insulation material used in this building has a high resistance to heat, which helps to maintain indoor temperatures.

这栋建筑中使用的绝缘材料具有很高的耐热性，有助于维持室内温度。

4.The fabric used in firefighter uniforms is designed for maximum resistance to heat and flames.

消防员制服所用的面料设计为最大限度地提高耐热性和防火性能。

5.The new ceramic material shows excellent resistance to heat, making it ideal for use in high-temperature environments.

这种新型陶瓷材料展现出优异的耐热性，使其非常适合用于高温环境。

作文

In today's world, where technology and materials are constantly evolving, the concept of resistance to heat has become increasingly important. This term refers to a material's ability to withstand high temperatures without undergoing significant changes in its properties or structure. Understanding resistance to heat is crucial not only for engineers and scientists but also for everyday consumers who rely on various products that must endure heat during their usage. For instance, when we cook, we use pots and pans made from materials that exhibit excellent resistance to heat, ensuring that they do not warp or degrade under high temperatures.One of the most common materials known for its resistance to heat is ceramic. Ceramic cookware can withstand high temperatures, making it ideal for baking and roasting. Its ability to distribute heat evenly allows food to cook properly without burning. Additionally, ceramics are non-reactive, meaning they won’t leach chemicals into food, which is an essential factor for health-conscious individuals. The resistance to heat of ceramics makes them a popular choice in kitchens around the world.Metals also play a significant role in applications requiring resistance to heat. Stainless steel, for example, is widely used in kitchen appliances and utensils due to its durability and high-temperature tolerance. However, not all metals have the same level of resistance to heat. Some metals can lose their strength and structural integrity when exposed to extreme heat, which is why understanding the thermal properties of materials is vital in fields like aerospace and automotive engineering.In addition to ceramics and metals, modern technology has introduced synthetic materials that boast impressive resistance to heat. For example, silicone is widely used in bakeware because it can withstand temperatures ranging from -40 to 450 degrees Fahrenheit. This flexibility makes silicone a favorite among bakers and cooks, as it can be used for a variety of cooking methods without fear of melting or deforming. The resistance to heat offered by silicone allows for innovative designs in kitchenware, contributing to the convenience and efficiency of cooking.Furthermore, the construction industry also benefits from materials with high resistance to heat. Insulation materials designed to protect buildings from fire hazards often incorporate substances that can withstand extreme temperatures. Fire-resistant materials help ensure safety by slowing down the spread of flames and protecting structural elements during a fire. This application highlights the critical importance of resistance to heat in safeguarding lives and property.As we continue to innovate and create new materials, the study of resistance to heat will remain a pivotal area of research. Scientists and engineers are constantly looking for ways to enhance the thermal properties of materials to improve their performance in various applications. This ongoing pursuit not only leads to better products but also contributes to advancements in safety and efficiency across multiple industries.In conclusion, the term resistance to heat encompasses a vital characteristic of materials that impacts our daily lives in numerous ways. From cooking to construction, understanding how different materials respond to heat allows us to make informed choices about the products we use. As technology progresses, the significance of resistance to heat will undoubtedly continue to grow, shaping the future of material science and engineering.

在当今这个科技和材料不断发展的世界里，耐热性的概念变得越来越重要。这个术语指的是材料在高温下能够承受而不会发生显著性质或结构变化的能力。理解耐热性对于工程师和科学家来说至关重要，对于依赖于各种必须承受热量的产品的普通消费者来说也同样重要。例如，当我们烹饪时，我们使用的锅具和餐具是由展现出优良耐热性的材料制成的，以确保它们在高温下不会变形或降解。陶瓷是众所周知的耐热材料之一。陶瓷炊具能够承受高温，使其非常适合烘焙和烤制。它均匀分布热量的能力使食物能够正确烹饪而不会烧焦。此外，陶瓷材料是非反应性的，这意味着它们不会向食物中释放化学物质，这对关注健康的人来说是一个重要因素。陶瓷的耐热性使其成为全球厨房的热门选择。金属在需要耐热性的应用中也发挥着重要作用。例如，不锈钢因其耐用性和高温耐受性而被广泛用于厨房电器和器具。然而，并非所有金属都具有相同的耐热性。一些金属在极高的温度下可能会失去强度和结构完整性，这就是为什么理解材料的热特性在航空航天和汽车工程等领域至关重要。除了陶瓷和金属，现代科技还引入了具有令人印象深刻的耐热性的合成材料。例如，硅胶因其能够承受从-40到450华氏度的温度而广泛应用于烘焙器具。这种灵活性使得硅胶成为面包师和厨师的最爱，因为在多种烹饪方法中使用它而不必担心融化或变形。硅胶提供的耐热性让厨房用品的设计更加创新，提升了烹饪的便利性和效率。此外，建筑行业也受益于具有高耐热性的材料。旨在保护建筑免受火灾危害的绝缘材料通常采用能够承受极端温度的物质。防火材料通过减缓火焰蔓延并在火灾期间保护结构元素，帮助确保安全。这一应用突显了耐热性在保护生命和财产方面的关键重要性。随着我们不断创新和创造新材料，对耐热性的研究将始终是一个关键领域。科学家和工程师们不断寻找提高材料热特性的方式，以改善其在各种应用中的性能。这种持续的追求不仅导致了更好的产品，还促进了多个行业的安全和效率的进步。总之，耐热性这一术语涵盖了材料的一项重要特性，它在许多方面影响着我们的日常生活。从烹饪到建筑，了解不同材料对热量的反应使我们能够对所使用的产品做出明智的选择。随着科技的发展，耐热性的重要性无疑将继续增长，塑造材料科学和工程的未来。