fissility

简明释义

英[fɪˈsɪlɪti]美[fɪˈsɪləti]

n. 易裂性；可裂变性

英英释义

单词用法

同义词

反义词

例句

1.The change of the components leads to high temperature stress, as well as remarkable shrinkage and deformation; also, its characteristics induce friability and fissility of concrete.

现代混凝土组分的变化导致了温度应力高、收缩变形大，早强和高强也引发了混凝土的早裂和高脆性。

2.The change of the components leads to high temperature stress, as well as remarkable shrinkage and deformation; also, its characteristics induce friability and fissility of concrete.

现代混凝土组分的变化导致了温度应力高、收缩变形大，早强和高强也引发了混凝土的早裂和高脆性。

3.The geologist noted the high degree of fissility in the shale, indicating it could easily split into thin layers.

地质学家注意到页岩的高裂片性，这表明它可以很容易地分裂成薄层。

4.In sedimentary rocks, fissility is often a key characteristic used to identify the rock type.

在沉积岩中，裂片性通常是用于识别岩石类型的关键特征。

5.The fissility of the slate made it an ideal material for roofing tiles.

该石板的裂片性使其成为理想的屋顶瓦材料。

6.Understanding the fissility of a rock can help engineers predict how it will behave under stress.

理解岩石的裂片性可以帮助工程师预测它在压力下的表现。

7.The artist appreciated the fissility of the clay, which allowed for intricate detailing in her sculptures.

艺术家欣赏粘土的裂片性，这使她的雕塑能够进行复杂的细节处理。

作文

The concept of fissility is often explored in the fields of geology and material science. It refers to the property of a material to split or separate along specific planes, indicating how easily it can be divided. This characteristic is particularly significant when analyzing sedimentary rocks, as their fissility can provide insights into the conditions under which they were formed. For instance, shale is known for its high fissility, allowing it to break into thin layers. This feature not only impacts the rock's physical properties but also influences its behavior during processes such as erosion and weathering. In addition to geological contexts, fissility can also be observed in various materials used in construction and manufacturing. For example, certain types of clay exhibit notable fissility, making them suitable for pottery and ceramics. The ability of these materials to split easily allows artisans to shape and mold them with precision. Understanding the fissility of a material is crucial for engineers and architects, as it affects the durability and longevity of structures built with those materials. Moreover, fissility plays a role in the study of metamorphic rocks. As these rocks undergo changes due to heat and pressure, their fissility can change dramatically. This transformation can lead to the formation of schist, which is characterized by its pronounced layering and foliation. The study of fissility in metamorphic rocks helps geologists understand the history of the Earth's crust and the dynamic processes that shape our planet. In a broader context, the idea of fissility can be metaphorically applied to various aspects of life. Just as materials can split along certain lines, human relationships can also experience fractures. Communication is key in maintaining connections; however, misunderstandings can lead to divisions that are difficult to mend. The concept of fissility serves as a reminder of the fragility of bonds and the importance of nurturing them to prevent separation. In conclusion, fissility is a multifaceted term that extends beyond its geological roots. It encompasses the physical properties of materials, their applications in various industries, and even serves as a metaphor for human relationships. By understanding fissility, we gain insight into the natural world and our interactions within it. The study of fissility not only enhances our knowledge of geology and material science but also encourages us to reflect on the connections we forge in our lives.

“fissility”这个概念通常在地质学和材料科学领域中探讨。它指的是一种材料沿特定平面分裂或分离的特性，表明它被分割的容易程度。这一特性在分析沉积岩时尤为重要，因为它们的“fissility”可以提供有关形成条件的见解。例如，页岩以其高“fissility”而闻名，使其能够分成薄层。这一特性不仅影响岩石的物理属性，还影响其在侵蚀和风化等过程中表现出的行为。 除了地质背景外，“fissility”还可以在建筑和制造所用的各种材料中观察到。例如，某些类型的粘土表现出显著的“fissility”，使其适合用于陶器和陶瓷。这些材料易于分裂的能力使工匠能够精确地塑造和成型。理解材料的“fissility”对工程师和建筑师至关重要，因为它影响所用材料构建的结构的耐久性和寿命。 此外，“fissility”在变质岩的研究中也起着作用。当这些岩石因热和压力而发生变化时，它们的“fissility”可能会发生剧烈变化。这种转变可能导致片岩的形成，其特征是明显的分层和片理。对变质岩中“fissility”的研究帮助地质学家理解地壳的历史以及塑造我们星球的动态过程。 在更广泛的背景下，“fissility”的理念可以隐喻性地应用于生活的各个方面。正如材料可以沿特定线条分裂，人际关系也可能经历破裂。沟通是维持联系的关键；然而，误解可能导致难以修复的分裂。“fissility”的概念提醒我们联系的脆弱性以及培养这些联系以防止分离的重要性。 总之，“fissility”是一个多面的术语，超越了其地质根源。它涵盖了材料的物理特性、在各个行业的应用，甚至作为人际关系的隐喻。通过理解“fissility”，我们对自然界和我们在其中的互动有了更深入的了解。“fissility”的研究不仅增强了我们对地质学和材料科学的知识，还鼓励我们反思在生活中建立的联系。