thermal deformation
简明释义
热变形
英英释义
Thermal deformation refers to the change in shape or dimensions of a material due to the effects of temperature variations. | 热变形是指由于温度变化的影响,材料的形状或尺寸发生改变。 |
例句
1.To improve performance, engineers designed a system to compensate for thermal deformation 热变形 in the engine components.
为了提高性能,工程师设计了一个系统来补偿发动机部件中的热变形。
2.Thermal expansion can cause thermal deformation 热变形 in bridges when temperatures fluctuate.
当温度波动时,热膨胀可能导致桥梁发生热变形。
3.The research focused on reducing thermal deformation 热变形 in composite materials during manufacturing.
研究重点是减少复合材料在制造过程中发生的热变形。
4.In high-temperature environments, thermal deformation 热变形 can lead to structural failures in buildings.
在高温环境下,热变形可能导致建筑物的结构失效。
5.The engineer conducted tests to measure the effects of thermal deformation 热变形 on the metal components.
工程师进行了测试,以测量金属部件上热变形的影响。
作文
Thermal deformation is a phenomenon that occurs when materials change shape or size due to changes in temperature. This effect is particularly significant in engineering and manufacturing processes, where precision is paramount. For example, when metals are heated, they expand; conversely, when they cool down, they contract. This behavior can lead to various challenges in the design and assembly of mechanical components. Understanding thermal deformation (热变形) is crucial for engineers to ensure that structures can withstand temperature fluctuations without compromising their integrity.In many industries, such as aerospace and automotive, components are subjected to extreme temperatures. For instance, during the operation of an aircraft, parts can heat up significantly due to friction and engine operation. If the designers do not take thermal deformation (热变形) into account, the components might warp or fail, leading to catastrophic consequences. Therefore, it is essential to analyze how different materials respond to thermal stress during the design phase.Moreover, thermal deformation (热变形) can also affect the performance of electronic devices. As electronics generate heat during operation, the materials used in their construction may expand and contract, potentially leading to misalignment or failure of connections. Engineers often use thermal management techniques to mitigate these effects, ensuring that devices remain functional under varying temperature conditions.To combat the issues related to thermal deformation (热变形), various strategies can be employed. One common approach is the selection of materials with low thermal expansion coefficients. These materials exhibit minimal changes in size or shape when exposed to temperature variations, thus maintaining structural integrity. Advanced composites and alloys are often designed specifically to minimize thermal deformation (热变形) in critical applications.Another effective strategy is to incorporate design features that accommodate thermal deformation (热变形). For example, engineers may create joints or fittings that allow for movement as materials expand or contract. This flexibility can prevent undue stress on components and enhance the overall durability of the assembly.In conclusion, thermal deformation (热变形) is a critical consideration in the fields of engineering and manufacturing. As materials undergo changes in temperature, understanding how these changes affect their shape and size is vital for creating reliable and safe products. By selecting appropriate materials and employing innovative design strategies, engineers can effectively manage the challenges posed by thermal deformation (热变形), ensuring the longevity and performance of their creations.
热变形是指材料因温度变化而改变形状或尺寸的现象。这种效应在工程和制造过程中尤为重要,因为精度至关重要。例如,当金属被加热时,它们会膨胀;相反,当它们冷却时,会收缩。这种行为可能导致机械部件设计和组装中的各种挑战。理解热变形(thermal deformation)对工程师来说至关重要,以确保结构能够承受温度波动而不影响其完整性。在航空航天和汽车等许多行业,组件会受到极端温度的影响。例如,在飞机运行期间,由于摩擦和发动机操作,部件可能会显著升温。如果设计师没有考虑到热变形(thermal deformation),组件可能会变形或失效,从而导致灾难性后果。因此,在设计阶段分析不同材料如何应对热应力是至关重要的。此外,热变形(thermal deformation)还可能影响电子设备的性能。由于电子设备在运行过程中产生热量,其构造中使用的材料可能会膨胀和收缩,可能导致连接错位或失效。工程师通常使用热管理技术来减轻这些影响,确保设备在不同温度条件下保持功能。为了应对与热变形(thermal deformation)相关的问题,可以采用各种策略。一种常见的方法是选择具有低热膨胀系数的材料。这些材料在暴露于温度变化时表现出最小的尺寸或形状变化,从而保持结构完整性。先进的复合材料和合金通常专门设计以最小化关键应用中的热变形(thermal deformation)。另一个有效的策略是纳入可以适应热变形(thermal deformation)的设计特征。例如,工程师可以创建允许材料膨胀或收缩时移动的接头或配件。这种灵活性可以防止对组件施加过大的压力,从而增强整个装配的耐用性。总之,热变形(thermal deformation)是工程和制造领域的重要考虑因素。随着材料经历温度变化,理解这些变化如何影响其形状和尺寸对于创造可靠和安全的产品至关重要。通过选择合适的材料和采用创新的设计策略,工程师可以有效管理热变形(thermal deformation)带来的挑战,从而确保其创作的持久性和性能。
相关单词
