thermal stability
简明释义
耐热性
英英释义
Thermal stability refers to the ability of a substance to maintain its physical and chemical properties when subjected to changes in temperature. | 热稳定性是指物质在温度变化时保持其物理和化学性质的能力。 |
例句
1.The thermal stability of the compound was tested under extreme conditions to ensure safety.
该化合物的热稳定性在极端条件下进行了测试以确保安全。
2.In electronics, materials with high thermal stability are crucial for ensuring device longevity.
在电子产品中,具有高热稳定性的材料对确保设备的长期使用至关重要。
3.Researchers are studying the thermal stability of various metal alloys for aerospace applications.
研究人员正在研究各种金属合金的热稳定性以用于航空航天应用。
4.The new polymer exhibits excellent thermal stability, allowing it to withstand high temperatures without degrading.
这种新型聚合物表现出优异的热稳定性,能够在高温下不降解。
5.Adding stabilizers can improve the thermal stability of certain plastics.
添加稳定剂可以提高某些塑料的热稳定性。
作文
Thermal stability is a crucial property of materials that determines their ability to maintain their physical and chemical properties at elevated temperatures. In various fields such as material science, engineering, and chemistry, understanding the concept of thermal stability (热稳定性) is essential for designing products that can withstand high temperatures without degrading or losing functionality. For instance, in the aerospace industry, components must possess high thermal stability (热稳定性) to endure extreme conditions during flight. If these materials fail due to heat, it can lead to catastrophic consequences, including loss of life and expensive equipment damage.In addition to aerospace applications, thermal stability (热稳定性) plays a vital role in the manufacturing of electronics. As devices become smaller and more powerful, they generate significant amounts of heat. Materials used in electronic components must exhibit excellent thermal stability (热稳定性) to prevent overheating, which can lead to performance degradation or complete failure of the device. Engineers often select materials with high thermal stability (热稳定性) to ensure reliability and longevity in their designs.The concept of thermal stability (热稳定性) also extends to the field of chemistry, particularly in the synthesis of compounds. When conducting reactions at high temperatures, it is crucial to choose reactants and solvents that have adequate thermal stability (热稳定性). If the materials involved are not thermally stable, they may decompose or react unexpectedly, leading to hazardous situations or poor yields. Therefore, chemists must carefully evaluate the thermal stability (热稳定性) of their materials before proceeding with high-temperature reactions.Moreover, the importance of thermal stability (热稳定性) is evident in everyday products, such as plastics and polymers. Many consumer goods are made from synthetic materials that need to maintain their shape and integrity under varying temperature conditions. Manufacturers often conduct tests to assess the thermal stability (热稳定性) of these materials to ensure they will perform well in real-world applications. Products that lack sufficient thermal stability (热稳定性) may warp, melt, or become brittle when exposed to heat, resulting in product failure and customer dissatisfaction.In conclusion, thermal stability (热稳定性) is a fundamental characteristic that affects a wide range of materials and applications. From aerospace to electronics and everyday products, the ability of materials to resist thermal degradation is vital for ensuring safety, performance, and reliability. As technology continues to advance, the demand for materials with superior thermal stability (热稳定性) will likely grow, prompting further research and innovation in this critical area. Understanding and mastering the concept of thermal stability (热稳定性) will be essential for future developments across multiple industries, paving the way for safer and more efficient technologies.
热稳定性是材料的一项重要特性,它决定了材料在高温下保持其物理和化学性质的能力。在材料科学、工程和化学等多个领域,理解热稳定性(thermal stability)的概念对于设计能够在高温下不降解或失去功能的产品至关重要。例如,在航空航天工业中,组件必须具有高热稳定性(thermal stability),以承受飞行过程中的极端条件。如果这些材料因热而失效,可能会导致灾难性的后果,包括生命损失和昂贵设备的损坏。除了航空航天应用,热稳定性(thermal stability)在电子制造中也扮演着重要角色。随着设备变得越来越小且功能越来越强大,它们会产生大量的热量。用于电子元件的材料必须表现出优异的热稳定性(thermal stability),以防止过热,这可能导致性能下降或设备完全失效。工程师通常选择具有高热稳定性(thermal stability)的材料,以确保其设计的可靠性和耐用性。热稳定性(thermal stability)这一概念在化学领域也有所体现,尤其是在化合物的合成中。当在高温下进行反应时,选择具有足够热稳定性(thermal stability)的反应物和溶剂至关重要。如果所涉及的材料没有热稳定性,它们可能会分解或意外反应,导致危险情况或产量低。因此,化学家在进行高温反应之前,必须仔细评估他们材料的热稳定性(thermal stability)。此外,热稳定性(thermal stability)的重要性在日常产品中也显而易见,例如塑料和聚合物。许多消费品是由合成材料制成的,这些材料需要在不同温度条件下保持其形状和完整性。制造商通常会进行测试,以评估这些材料的热稳定性(thermal stability),以确保它们在实际应用中表现良好。缺乏足够热稳定性(thermal stability)的产品可能会在暴露于热量时变形、熔化或变脆,导致产品失效和客户不满。总之,热稳定性(thermal stability)是一项影响广泛材料和应用的基本特性。从航空航天到电子产品以及日常消费品,材料抵抗热降解的能力对于确保安全、性能和可靠性至关重要。随着技术的不断进步,对具有优越热稳定性(thermal stability)的材料的需求可能会增长,从而推动该关键领域的进一步研究和创新。理解和掌握热稳定性(thermal stability)的概念将对多个行业未来的发展至关重要,为更安全、更高效的技术铺平道路。
相关单词
