combustibility

简明释义

英[kəmˌbʌstəˈbɪlɪti]美[kəmˌbʌstɪˈbɪlɪti;kəmbʌstəˈbɪ

n. 燃烧性；[热] 可燃性

英英释义

单词用法

同义词

反义词

例句

1.COMBUSTIBILITY: Does not burn. Retards the flame when coated on combustible materials such as Styrofoam.

可燃性：不燃烧。涂抹在易燃材料表面例如聚苯乙烯材料可阻燃。

2.Another important reason is that the structural parameter of original gasoline engine is designed to aim at the combustibility of gasoline and it misfits the combustion of LPG.

而另一个重要原因是原汽油机的结构和参数是针对汽油的燃烧特性而设计的，并不适合于液化石油气的燃烧做功。

3.And based on the fire load density of the combustible and combustibility of decoration material, calculate the value of fire increasing modulus.

根据可燃物的火灾荷载密度和装饰材料的燃烧性能确定火灾增长系数的值。

4.The char types of the various macerals and their combustion modes were investigated in detail according to the drop tube furnace and one-dimension coal combustibility tests.

本文依据沉降炉和一维煤粉燃烧特性试验，对不同显微组分的残炭类型及其燃烧方式进行了详尽的探讨。

5.Higher combustibility and coal injection rate can be acquired in BF by using the coal with lower metamorphic degree and higher content of active matter.

喷吹低变质度、高活性组份含量的煤可以获得较高的燃烧率和较大的喷煤量。

6.Study of halogen-free flame retardant polypropylene combustibility by using cone calorimeter;

对所得阻燃棉纤维采用锥形量热分析研究其阻燃、抑烟效果。

7.The fire department conducted tests to assess the combustibility of various materials used in construction.

消防部门进行了测试，以评估在建筑中使用的各种材料的可燃性。

8.Understanding the combustibility of chemicals is crucial for laboratory safety.

了解化学品的可燃性对实验室安全至关重要。

9.The combustibility of the fuel directly affects the efficiency of the engine.

燃料的可燃性直接影响发动机的效率。

10.Certain plastics have a high combustibility, making them dangerous in high-temperature environments.

某些塑料具有高可燃性，在高温环境中可能很危险。

11.Engineers must consider the combustibility of materials when designing buildings in wildfire-prone areas.

工程师在设计易发生野火的地区的建筑时，必须考虑材料的可燃性。

作文

Combustibility is a term that refers to the ability of a substance to catch fire and burn. Understanding the concept of combustibility (可燃性) is crucial, especially in fields such as chemistry, engineering, and safety management. In our daily lives, we encounter various materials with different levels of combustibility (可燃性), from the wood we use for cooking to the gasoline that fuels our vehicles. Each of these materials has specific properties that determine how easily they ignite and how intensely they burn. In chemistry, combustibility (可燃性) is often studied in relation to the molecular structure of substances. For instance, hydrocarbons, which are compounds made up of hydrogen and carbon atoms, are highly combustible. This is why they are commonly used as fuels. When hydrocarbons are exposed to heat and oxygen, they undergo a chemical reaction known as combustion, producing energy in the form of heat and light. The higher the combustibility (可燃性) of a material, the more readily it will ignite and sustain a flame. From an engineering perspective, understanding combustibility (可燃性) is essential for designing safe buildings and transportation systems. Engineers must consider the materials used in construction and their potential fire hazards. For example, materials like steel and concrete have low combustibility (可燃性), making them ideal for structural components. On the other hand, materials like wood and certain plastics can pose significant fire risks if not treated properly. Fire-resistant coatings and proper ventilation systems are often employed to mitigate these risks. Safety management professionals also need to be well-versed in combustibility (可燃性) when conducting risk assessments. They evaluate the potential fire hazards associated with different materials and implement measures to prevent fires. This includes creating evacuation plans, installing fire suppression systems, and training employees on fire safety protocols. By understanding the combustibility (可燃性) of various substances, safety managers can significantly reduce the likelihood of fire-related accidents. In everyday life, we can observe the effects of combustibility (可燃性) in numerous situations. For instance, when grilling food, we rely on the combustibility (可燃性) of charcoal or propane to create heat. Similarly, in the case of wildfires, understanding the combustibility (可燃性) of different vegetation types can help firefighters strategize their containment efforts. Certain plants may ignite more easily than others, affecting how quickly a fire can spread. In conclusion, combustibility (可燃性) is a vital concept that permeates various aspects of our lives. Whether we are examining the chemical properties of fuels, ensuring the safety of buildings, or managing fire risks in the workplace, understanding this term is essential. As we continue to innovate and develop new materials, the study of combustibility (可燃性) will remain a critical area of research, helping us to harness energy safely and effectively while minimizing fire hazards.