thermal distortion

简明释义

热变形

英英释义

例句

1.The thermal distortion 热变形 of the glass panel affected the overall aesthetics of the installation.

玻璃面板的热变形 thermal distortion影响了整个装置的美观。

2.The design of the bridge takes into account the thermal distortion 热变形 caused by temperature fluctuations.

桥梁的设计考虑到了温度波动引起的热变形 thermal distortion。

3.To minimize thermal distortion 热变形, we need to control the heating rate during the manufacturing process.

为了最小化热变形 thermal distortion，我们需要控制制造过程中的加热速率。

4.The engineer explained that the thermal distortion 热变形 in the metal components could lead to misalignment.

工程师解释说，金属部件中的热变形 thermal distortion可能导致错位。

5.During the testing phase, the team observed significant thermal distortion 热变形 in the composite materials.

在测试阶段，团队观察到复合材料中存在显著的热变形 thermal distortion。

作文

Thermal distortion is a phenomenon that occurs in materials when they are subjected to changes in temperature. As the temperature of a material increases or decreases, it expands or contracts, which can lead to various forms of deformation. This process is particularly significant in engineering and manufacturing, where precision is crucial. For instance, in the production of metal components, if the material experiences uneven heating, it may warp or bend, resulting in parts that do not fit together properly. Understanding thermal distortion (热变形) is essential for engineers to ensure the reliability and functionality of their designs.One common example of thermal distortion (热变形) can be found in the automotive industry. When a car engine operates, it generates a considerable amount of heat. If the engine components are made from different materials, each with its own thermal expansion coefficient, they will expand at different rates. This discrepancy can lead to misalignments and increased wear on moving parts, ultimately affecting the vehicle's performance and longevity. Engineers must account for these factors during the design phase, often using simulations to predict how materials will behave under various temperature conditions.Another area where thermal distortion (热变形) plays a critical role is in aerospace engineering. Aircraft experience extreme temperature variations during flight, especially during takeoff and landing. The materials used in aircraft structures must withstand these changes without deforming. For example, if the wings of an airplane were to undergo significant thermal distortion (热变形), it could jeopardize the aircraft's aerodynamic properties, leading to potential safety hazards. Therefore, extensive testing and material selection strategies are employed to mitigate the effects of thermal distortion in these high-stakes environments.In addition to engineering applications, thermal distortion (热变形) also has implications in everyday life. Consider the expansion of metal rail tracks during hot summer days. If the tracks are not designed to accommodate this expansion, they can buckle, causing delays and safety concerns for train travel. This example illustrates how thermal distortion (热变形) can affect infrastructure and transportation systems, emphasizing the need for careful planning and design.To address the challenges posed by thermal distortion (热变形), researchers are continually exploring new materials and technologies. For instance, composite materials that combine different substances can offer improved resistance to thermal changes. These innovations can help reduce the risks associated with thermal distortion, leading to more efficient and durable products.In conclusion, thermal distortion (热变形) is a critical factor that engineers and designers must consider across various industries. From automotive and aerospace to everyday infrastructure, understanding how materials respond to temperature changes is essential for creating reliable and safe products. As technology advances, the ability to manage and mitigate the effects of thermal distortion will continue to evolve, paving the way for more innovative solutions in engineering and manufacturing.