asphaltous acid

简明释义

沥青酸

英英释义

例句

1.During the environmental assessment, the presence of asphaltous acid 沥青酸 in the soil raised concerns about pollution.

在环境评估过程中，土壤中存在的沥青酸 asphaltous acid 引发了对污染的担忧。

2.In the laboratory, the team analyzed the properties of asphaltous acid 沥青酸 to determine its potential applications in road construction.

在实验室中，团队分析了沥青酸 asphaltous acid 的特性，以确定其在道路建设中的潜在应用。

3.Engineers found that adding asphaltous acid 沥青酸 to the asphalt mix improved its durability.

工程师发现，将沥青酸 asphaltous acid 添加到沥青混合料中可以提高其耐久性。

4.The oil refinery reported an increase in asphaltous acid 沥青酸 production due to new extraction techniques.

炼油厂报告称，由于新提取技术的应用，沥青酸 asphaltous acid 的生产量有所增加。

5.The researchers discovered that asphaltous acid 沥青酸 can be used to improve the viscosity of certain oil products.

研究人员发现，沥青酸 asphaltous acid 可以用来改善某些石油产品的粘度。

作文

Asphalt has been a crucial material in construction and road maintenance for centuries. Among its various components, one that stands out is asphaltous acid. This compound plays a significant role in determining the properties of asphalt, affecting its durability, flexibility, and overall performance. Understanding asphaltous acid is essential for engineers and researchers who work with asphalt materials. The term asphaltous acid refers to a group of organic compounds that are derived from the thermal decomposition of organic matter. These acids are characterized by their complex structures, which often include aromatic rings and long hydrocarbon chains. The presence of asphaltous acid in asphalt contributes to its viscous nature, making it an ideal binder for aggregates in road construction. One of the primary functions of asphaltous acid is to enhance the adhesion properties of asphalt. When mixed with other materials, it helps to create a strong bond between the asphalt and the aggregate, ensuring the longevity of the pavement. This adhesion is crucial, especially in regions that experience extreme weather conditions, as it prevents water infiltration and subsequent damage to the road surface. Moreover, the chemical composition of asphaltous acid affects the thermal properties of asphalt. For instance, the melting point and viscosity of asphalt can be influenced by the concentration of asphaltous acid within the mixture. Higher concentrations typically lead to lower viscosity, which can facilitate easier application during road construction. However, it is essential to balance this with the need for adequate strength and performance under load. Research into asphaltous acid has also revealed its potential environmental impacts. As the demand for sustainable construction materials grows, scientists are exploring ways to minimize the ecological footprint of asphalt production. By understanding the role of asphaltous acid, researchers can develop modified asphalt formulations that reduce harmful emissions during production and improve recyclability at the end of the material's life cycle. In conclusion, asphaltous acid is a vital component of asphalt that significantly influences its properties and performance in construction applications. As we continue to innovate and seek more sustainable practices in the industry, a deeper understanding of asphaltous acid will be essential. Engineers and researchers must collaborate to explore new formulations that harness the benefits of asphaltous acid while addressing environmental concerns. Through such efforts, we can ensure that our infrastructure remains resilient and sustainable for future generations.

沥青在建筑和道路维护中已经发挥了重要作用，历经几个世纪。在其各种成分中，有一个显著的成分就是沥青酸。这种化合物在决定沥青的特性方面起着重要作用，影响其耐久性、柔韧性和整体性能。理解沥青酸对于从事沥青材料工作的工程师和研究人员来说至关重要。 术语沥青酸指的是一组源自有机物热解的有机化合物。这些酸的特点是其复杂的结构，通常包含芳香环和长烃链。沥青酸在沥青中的存在使其具有粘稠的特性，使其成为路面施工中集料的理想粘合剂。 沥青酸的主要功能之一是增强沥青的粘附性能。当与其他材料混合时，它有助于在沥青和集料之间形成强大的结合，确保路面的持久性。这种粘附性尤其在经历极端天气条件的地区至关重要，因为它能防止水渗透及随之而来的路面损坏。 此外，沥青酸的化学成分影响沥青的热性能。例如，沥青的熔点和粘度可以受到混合物中沥青酸浓度的影响。较高的浓度通常导致较低的粘度，这可以在道路施工过程中促进更容易的应用。然而，必须平衡这一点与在负载下所需的足够强度和性能。 对沥青酸的研究还揭示了其潜在的环境影响。随着对可持续建筑材料需求的增长，科学家们正在探索减少沥青生产生态足迹的方法。通过理解沥青酸的作用，研究人员可以开发出减少生产过程中的有害排放并改善材料生命周期末期可回收性的改性沥青配方。 总之，沥青酸是沥青的重要成分，显著影响其在建筑应用中的特性和性能。随着我们继续创新并寻求行业内更可持续的实践，对沥青酸的深入理解将是必不可少的。工程师和研究人员必须合作探索新的配方，以利用沥青酸的好处，同时解决环境问题。通过这样的努力，我们可以确保我们的基础设施在未来几代人中保持韧性和可持续性。