burning temperature

简明释义

燃烧温度;

英英释义

例句

1.Different materials have different burning temperatures, affecting their use in construction.

不同材料有不同的燃烧温度，这影响它们在建筑中的使用。

2.When cooking, it's important to know the burning temperature of oil to avoid smoke.

在烹饪时，了解油的燃烧温度以避免冒烟是很重要的。

3.The metal begins to melt at its burning temperature, which is around 1500 degrees Celsius.

金属在其燃烧温度下开始熔化，大约在1500摄氏度。

4.The burning temperature of wood varies depending on its type and moisture content.

木材的燃烧温度因其类型和水分含量而异。

5.Understanding the burning temperature of plastics can help in recycling processes.

了解塑料的燃烧温度可以帮助回收过程。

作文

The concept of burning temperature refers to the specific temperature at which a material ignites and begins to burn. Understanding this phenomenon is crucial in various fields, including chemistry, engineering, and environmental science. For instance, when studying the combustion of fuels, knowing the burning temperature can help scientists determine how efficiently a fuel will burn and what emissions it might produce.In practical applications, the burning temperature plays a significant role in safety regulations and fire prevention strategies. For example, in buildings, materials are often tested to ascertain their burning temperature so that appropriate fire-resistant materials can be used. This ensures that structures can withstand high temperatures for a certain period, providing occupants with enough time to evacuate in case of a fire.Moreover, the burning temperature is not only relevant to solid materials but also to liquids and gases. Different substances have unique burning temperatures, which can affect their handling and storage. For example, gasoline has a much lower burning temperature compared to diesel fuel, making it more volatile and dangerous in certain conditions. This difference necessitates careful consideration in transportation and storage practices to prevent accidents.In the context of environmental science, understanding the burning temperature of various materials can help in assessing the impact of wildfires. When temperatures rise during a fire, different vegetation types ignite at different burning temperatures. By studying these temperatures, researchers can predict fire behavior, assess risks, and develop better management strategies for forested areas.Furthermore, the burning temperature is essential in industrial processes where heat is applied. In metallurgy, for example, knowing the burning temperature of metals can guide manufacturers in choosing the right methods for welding or cutting materials. If the temperature exceeds the burning temperature of a metal, it could lead to unwanted reactions or damage to the material.Additionally, the burning temperature can vary based on environmental conditions such as pressure and humidity. For instance, at higher altitudes where the air is thinner, the burning temperature of certain fuels may change, affecting combustion efficiency. Thus, engineers and scientists must consider these factors when designing engines or combustion systems for use in different environments.In conclusion, the burning temperature is a critical parameter that influences many aspects of science and engineering. From ensuring safety in construction to optimizing industrial processes and understanding environmental impacts, the significance of the burning temperature cannot be overstated. As we continue to develop new materials and technologies, a comprehensive understanding of burning temperature will remain vital in promoting safety, efficiency, and sustainability in various applications.

“燃烧温度”这一概念是指材料点燃并开始燃烧的特定温度。理解这一现象在化学、工程和环境科学等多个领域至关重要。例如，在研究燃料的燃烧时，了解“燃烧温度”可以帮助科学家确定燃料的燃烧效率以及可能产生的排放物。在实际应用中，“燃烧温度”在安全法规和防火策略中起着重要作用。例如，在建筑中，通常会测试材料以确定其“燃烧温度”，以便使用适当的耐火材料。这确保了结构能够在高温下保持一定时间，为居民提供足够的时间在发生火灾时撤离。此外，“燃烧温度”不仅与固体材料相关，还与液体和气体有关。不同的物质具有独特的“燃烧温度”，这可能影响它们的处理和储存。例如，汽油的“燃烧温度”远低于柴油，这使得在某些条件下汽油更具挥发性和危险性。这种差异在运输和储存实践中需要谨慎考虑，以防止事故发生。在环境科学的背景下，了解各种材料的“燃烧温度”可以帮助评估野火的影响。当温度在火灾中升高时，不同的植被类型在不同的“燃烧温度”下点燃。通过研究这些温度，研究人员可以预测火灾行为、评估风险，并制定更好的森林管理策略。此外，“燃烧温度”在应用热量的工业过程中也是必不可少的。在冶金学中，了解金属的“燃烧温度”可以指导制造商选择合适的焊接或切割材料的方法。如果温度超过金属的“燃烧温度”，可能会导致不必要的反应或对材料的损害。此外，“燃烧温度”可能会根据压力和湿度等环境条件而变化。例如，在空气稀薄的高海拔地区，某些燃料的“燃烧温度”可能会改变，从而影响燃烧效率。因此，工程师和科学家在为不同环境设计发动机或燃烧系统时，必须考虑这些因素。总之，“燃烧温度”是影响科学和工程多个方面的关键参数。从确保建筑安全到优化工业过程和理解环境影响，“燃烧温度”的重要性不容小觑。随着我们继续开发新材料和技术，对“燃烧温度”的全面理解将在促进各个应用领域的安全、高效和可持续性方面发挥重要作用。