combustibleness

简明释义

英[kəmˈbʌstɪblnəs]美[kəmˈbʌstəblnəs]

n. 可燃性；易怒

英英释义

单词用法

同义词

反义词

例句

1.The engineer conducted tests to determine the combustibleness of the new material, which refers to its ability to catch fire.

工程师进行了测试以确定新材料的可燃性，即其着火的能力。

2.In the chemistry lab, we learned about the combustibleness of different compounds and how it affects their safety.

在化学实验室，我们学习了不同化合物的可燃性及其对安全性的影响。

3.The fire department emphasized the importance of understanding the combustibleness of household materials to prevent fires.

消防部门强调了解家庭材料的可燃性的重要性，以防止火灾。

4.Before storing chemicals, it's crucial to assess their combustibleness to ensure proper safety measures are in place.

在储存化学品之前，评估它们的可燃性至关重要，以确保采取适当的安全措施。

5.The construction materials used in the building were chosen for their low combustibleness, enhancing fire safety.

建筑中使用的建筑材料因其低可燃性而被选中，从而增强了消防安全。

作文

In the field of chemistry and material science, understanding the properties of substances is crucial for various applications. One such property that often comes into play is combustibleness, which refers to the ability of a material to catch fire and burn. This characteristic is particularly important in industries such as construction, manufacturing, and transportation, where the safety of materials can impact human lives and the environment. For instance, when selecting building materials, architects must consider the combustibleness of different options to ensure that they meet safety regulations and minimize the risk of fire hazards. The combustibleness of a material can be influenced by several factors, including its chemical composition, physical structure, and environmental conditions. For example, organic materials like wood and paper have high combustibleness, making them susceptible to ignition when exposed to heat or flame. Conversely, materials such as metals and ceramics typically exhibit low combustibleness, meaning they are less likely to ignite and burn. In recent years, there has been a growing emphasis on developing fire-resistant materials to combat the dangers associated with high combustibleness. Innovations in this area include the use of fire retardants, which can be added to materials to reduce their flammability. These advancements not only enhance safety but also contribute to sustainable building practices by allowing for the use of more environmentally friendly materials without compromising fire safety. Moreover, understanding combustibleness is not only beneficial for industrial applications but also plays a significant role in everyday life. For instance, household items such as furniture, curtains, and carpets are often made from materials with varying degrees of combustibleness. Awareness of these properties can help individuals make safer choices in their homes, reducing the risk of accidental fires. Educational institutions also recognize the importance of teaching students about combustibleness and fire safety. Science classes often include experiments that demonstrate how different materials react to flames, helping students grasp the concept of combustibleness in a practical context. By fostering an understanding of this property, educators equip future generations with the knowledge needed to navigate potential fire hazards effectively. In conclusion, combustibleness is a vital property that influences material selection across various fields, from construction to everyday household items. By understanding and managing combustibleness, we can enhance safety, promote sustainability, and reduce the risks associated with fire. As our knowledge of materials continues to evolve, so too will our ability to create safer environments for ourselves and future generations.

在化学和材料科学领域，理解物质的性质对于各种应用至关重要。一个经常涉及的特性是可燃性，指的是材料着火和燃烧的能力。这一特性在建筑、制造和运输等行业尤为重要，因为材料的安全性可能影响人类生命和环境。例如，在选择建筑材料时，建筑师必须考虑不同选项的可燃性，以确保它们符合安全法规并尽量减少火灾风险。 材料的可燃性受多种因素的影响，包括其化学成分、物理结构和环境条件。例如，像木材和纸张这样的有机材料具有较高的可燃性，在暴露于热量或火焰时容易着火。相反，金属和陶瓷等材料通常表现出较低的可燃性，这意味着它们不太可能点燃和燃烧。 近年来，开发防火材料以应对与高可燃性相关的危险的重视程度不断增加。在这一领域的创新包括使用阻燃剂，这些阻燃剂可以添加到材料中以降低其易燃性。这些进展不仅提高了安全性，还有助于可持续建筑实践，使得在不妨碍防火安全的情况下使用更环保的材料成为可能。 此外，理解可燃性不仅对工业应用有益，还在日常生活中发挥着重要作用。例如，家具、窗帘和地毯等家居用品通常由具有不同程度可燃性的材料制成。对这些特性的认识可以帮助个人在家中做出更安全的选择，从而降低意外火灾的风险。 教育机构也认识到教授学生关于可燃性和火灾安全的重要性。科学课通常包括演示不同材料如何对火焰反应的实验，帮助学生在实际环境中理解可燃性的概念。通过培养对这一特性的理解，教育工作者为未来几代人提供了有效应对潜在火灾危险所需的知识。 总之，可燃性是一个重要特性，影响各个领域的材料选择，从建筑到日常家居用品。通过理解和管理可燃性，我们可以提高安全性、促进可持续发展，并减少与火灾相关的风险。随着我们对材料知识的不断发展，我们将能够为自己和未来几代人创造更安全的环境。