heat resistance

简明释义

耐热性

英英释义

例句

1.For outdoor cooking, it's essential to choose utensils with high heat resistance 耐热性 to avoid melting.

对于户外烹饪，选择具有高耐热性的餐具是必不可少的，以避免融化。

2.The new smartphone model features improved heat resistance 耐热性 to prevent overheating during heavy use.

这款新智能手机型号具有改进的耐热性，以防止在重度使用时过热。

3.Our cookware is designed with heat resistance 耐热性 to ensure safety while cooking at high temperatures.

我们的炊具设计具有耐热性，以确保在高温烹饪时的安全性。

4.The insulation material provides excellent heat resistance 耐热性, which helps maintain temperature in extreme conditions.

这种绝缘材料提供了出色的耐热性，有助于在极端条件下保持温度。

5.The fabric used in this jacket has excellent heat resistance 耐热性, making it ideal for firefighters.

这款夹克所用的面料具有优异的耐热性，非常适合消防员使用。

作文

Heat resistance is a crucial property in various materials and applications, particularly in industries where high temperatures are prevalent. It refers to the ability of a material to withstand elevated temperatures without undergoing significant physical or chemical changes. Understanding heat resistance (耐热性) is essential for engineers and designers who work with materials that need to perform reliably under extreme conditions.In the automotive industry, for example, components such as engine parts, exhaust systems, and brake pads must exhibit excellent heat resistance (耐热性) to ensure safety and functionality. When vehicles operate, they generate a considerable amount of heat due to friction and combustion processes. Materials used in these components must not only resist deformation but also maintain their integrity over time. Failure to do so can lead to catastrophic results, including engine failure or accidents.Similarly, in the aerospace sector, materials used in aircraft and spacecraft must possess outstanding heat resistance (耐热性). During flight, especially at high altitudes or speeds, the temperatures can soar due to air friction. Engineers rely on materials such as titanium alloys and special composites that can endure these harsh conditions while ensuring the safety of passengers and cargo.Moreover, the electronics industry also demands materials with high heat resistance (耐热性). As devices become smaller and more powerful, the heat generated by electronic components increases. Insulating materials and circuit boards must be designed to withstand these temperatures to prevent failures and prolong the lifespan of the devices. For instance, certain polymers and ceramics are engineered specifically for their heat resistance (耐热性), allowing them to function effectively in high-temperature environments.In construction, heat resistance (耐热性) plays a vital role in fire safety. Building materials such as concrete, steel, and fire-resistant coatings are selected based on their ability to withstand high temperatures during a fire. This property not only helps in protecting the structural integrity of buildings but also provides crucial time for evacuation and firefighting efforts.Furthermore, the culinary world also benefits from understanding heat resistance (耐热性). Cookware made from materials like cast iron, stainless steel, and certain ceramics is designed to endure high cooking temperatures without warping or releasing harmful substances. Chefs and home cooks alike rely on these materials to prepare their meals safely and effectively.In conclusion, heat resistance (耐热性) is a fundamental characteristic that impacts numerous industries and everyday applications. From automotive to aerospace, electronics to construction, and even culinary practices, the ability of materials to withstand high temperatures is critical for safety, performance, and longevity. As technology continues to evolve, the demand for innovative materials with superior heat resistance (耐热性) will only increase, driving research and development in this essential field.

耐热性是各种材料和应用中至关重要的特性，尤其是在高温普遍存在的行业中。它指的是材料在不发生显著物理或化学变化的情况下抵御高温的能力。理解耐热性（heat resistance）对工程师和设计师来说至关重要，他们需要处理在极端条件下可靠性能的材料。例如，在汽车工业中，发动机部件、排气系统和刹车片等组件必须表现出优异的耐热性（heat resistance），以确保安全和功能。当车辆运行时，由于摩擦和燃烧过程，会产生大量热量。这些组件所使用的材料不仅必须抵抗变形，还必须在长时间内保持其完整性。如果未能做到这一点，可能会导致灾难性的结果，包括发动机故障或事故。同样，在航空航天领域，飞机和航天器所用的材料必须具备卓越的耐热性（heat resistance）。在飞行过程中，特别是在高空或高速下，由于空气摩擦，温度可能飙升。工程师依靠钛合金和特殊复合材料等能够承受这些严酷条件的材料，同时确保乘客和货物的安全。此外，电子行业也需要具有高耐热性（heat resistance）的材料。随着设备变得越来越小且功能强大，电子元件产生的热量增加。绝缘材料和电路板必须设计成能够承受这些温度，以防止故障并延长设备的使用寿命。例如，某些聚合物和陶瓷专门针对其耐热性（heat resistance）进行工程设计，使其能够在高温环境中有效工作。在建筑中，耐热性（heat resistance）在消防安全中也发挥着至关重要的作用。混凝土、钢材和防火涂料等建筑材料的选择基于它们在火灾中抵御高温的能力。这一特性不仅有助于保护建筑的结构完整性，还为疏散和灭火工作提供了关键的时间。此外，烹饪界也受益于对耐热性（heat resistance）的理解。由铸铁、不锈钢和某些陶瓷制成的炊具被设计成能够承受高温烹饪，而不会变形或释放有害物质。厨师和家庭厨师都依赖这些材料来安全有效地准备他们的餐点。总之，耐热性（heat resistance）是影响众多行业和日常应用的基本特性。从汽车到航空航天，从电子到建筑，甚至在烹饪实践中，材料抵御高温的能力对安全、性能和耐用性至关重要。随着技术的不断发展，对具有优越耐热性（heat resistance）的创新材料的需求只会增加，推动这一重要领域的研究和发展。