self ignition temperature
简明释义
自燃温度
英英释义
The self ignition temperature is the lowest temperature at which a material will spontaneously ignite without an external ignition source. | 自燃温度是指一种材料在没有外部点火源的情况下,自发点燃的最低温度。 |
例句
1.Different substances have varying self ignition temperatures, which affect their handling.
不同物质具有不同的自燃温度,这会影响它们的处理方式。
2.The self ignition temperature of wood varies based on moisture content.
木材的自燃温度因水分含量而异。
3.The self ignition temperature of gasoline is around 247 degrees Celsius.
汽油的自燃温度大约是247摄氏度。
4.Understanding the self ignition temperature of materials is crucial for fire safety.
了解材料的自燃温度对消防安全至关重要。
5.In industrial settings, the self ignition temperature must be monitored to prevent fires.
在工业环境中,必须监测自燃温度以防止火灾。
作文
The concept of self ignition temperature refers to the minimum temperature at which a substance will spontaneously ignite without an external source of ignition, such as a flame or spark. This phenomenon is crucial in various fields, including chemistry, engineering, and safety management. Understanding the self ignition temperature of materials is essential for preventing fires and explosions in industrial settings and laboratories.For instance, many organic compounds have specific self ignition temperatures that dictate how they should be stored and handled. When these substances reach their self ignition temperature, they can ignite on their own, leading to potentially dangerous situations. This is particularly relevant in industries that handle flammable chemicals, where improper storage or handling can result in catastrophic accidents.In the realm of safety management, knowing the self ignition temperature of various substances helps in creating effective safety protocols. For example, if a chemical has a low self ignition temperature, it must be stored in a cool environment to minimize the risk of accidental ignition. Additionally, workers must be trained to recognize the self ignition temperature of the materials they work with, ensuring they take necessary precautions to avoid reaching those critical temperatures.Moreover, the self ignition temperature can vary significantly between different substances. For example, some hydrocarbons may have a self ignition temperature as low as 200 degrees Celsius, while others might require temperatures above 600 degrees Celsius. This variability highlights the importance of conducting thorough research and testing to determine the self ignition temperature of any new materials introduced into a work environment.Another aspect to consider is the environmental conditions that can influence the self ignition temperature. Factors such as pressure, humidity, and the presence of other chemicals can all affect how easily a substance ignites. Therefore, it is crucial to monitor these conditions closely in environments where flammable materials are present.In conclusion, the self ignition temperature is a vital concept that plays a significant role in safety and risk management across various industries. By understanding and respecting the self ignition temperature of different substances, we can prevent accidents and ensure a safer working environment. As technology advances and new materials are developed, ongoing research into self ignition temperature will remain essential to keep pace with the evolving landscape of industrial safety.
自燃点(self ignition temperature)的概念是指物质在没有外部点火源(如火焰或火花)的情况下,自发点燃所需的最低温度。这个现象在化学、工程和安全管理等多个领域都至关重要。了解材料的自燃点(self ignition temperature)对于防止工业环境和实验室中的火灾和爆炸至关重要。例如,许多有机化合物具有特定的自燃点(self ignition temperature),这决定了它们的存储和处理方式。当这些物质达到其自燃点(self ignition temperature)时,它们可能会自行点燃,从而导致潜在的危险情况。这在处理可燃化学品的行业中特别相关,因为不当的存储或处理可能导致灾难性的事故。在安全管理领域,了解各种物质的自燃点(self ignition temperature)有助于制定有效的安全协议。例如,如果某种化学品的自燃点(self ignition temperature)较低,则必须在凉爽的环境中存储,以减少意外点燃的风险。此外,工人必须接受培训,以识别他们所处理材料的自燃点(self ignition temperature),确保他们采取必要的预防措施,以避免达到这些关键温度。此外,不同物质之间的自燃点(self ignition temperature)可能会有显著差异。例如,一些烃类化合物的自燃点(self ignition temperature)可能低至200摄氏度,而其他化合物可能需要超过600摄氏度的温度。这种变异性突显了进行彻底研究和测试以确定任何新材料在工作环境中自燃点(self ignition temperature)的重要性。另一个需要考虑的方面是可能影响自燃点(self ignition temperature)的环境条件。压力、湿度和其他化学物质的存在等因素都可能影响物质点燃的易燃性。因此,在存在可燃材料的环境中,密切监测这些条件至关重要。总之,自燃点(self ignition temperature)是一个重要概念,在各个行业的安全和风险管理中发挥着重要作用。通过理解和尊重不同物质的自燃点(self ignition temperature),我们可以防止事故发生,并确保更安全的工作环境。随着技术的进步和新材料的开发,持续研究自燃点(self ignition temperature)将继续对保持工业安全的不断演变至关重要。
相关单词
