cohesive strength

简明释义

聚合强度

英英释义

例句

1.The cohesive strength of the adhesive was tested to ensure it could hold the components together under stress.

测试了粘合剂的内聚力以确保它可以在压力下将组件固定在一起。

2.The researchers found that the cohesive strength of the polymer increased with temperature changes.

研究人员发现，聚合物的内聚力随着温度变化而增加。

3.The engineer measured the cohesive strength of the soil to determine its stability for the construction project.

工程师测量了土壤的内聚力以确定其在建筑项目中的稳定性。

4.A higher cohesive strength in materials often leads to better performance in structural applications.

材料的内聚力越高，通常在结构应用中表现越好。

5.In geology, the cohesive strength of rock layers affects how they respond to erosion.

在地质学中，岩层的内聚力影响它们对侵蚀的反应。

作文

Cohesion is a fundamental property of materials, essential in various fields such as engineering, physics, and materials science. When we talk about the term cohesive strength, we refer to the internal strength that holds a material together. This concept is particularly important when assessing the stability and durability of structures. For instance, in civil engineering, understanding the cohesive strength of soil is crucial for building foundations that can withstand loads without collapsing. The stronger the cohesive strength, the more stable the structure will be under stress.In addition to construction, cohesive strength also plays a significant role in the design of various products. Take adhesives, for example. The effectiveness of an adhesive often depends on its cohesive strength. A strong adhesive must possess high cohesive strength to ensure that it can bond materials securely without breaking apart. This is why manufacturers conduct extensive tests to measure the cohesive strength of their products before they hit the market.Moreover, the concept of cohesive strength extends beyond physical materials; it can also be applied to biological systems. In nature, the cohesive strength of water molecules allows for the formation of droplets and the capability of some insects to walk on water. This unique property arises from the hydrogen bonds between water molecules, which create a strong cohesive force. Understanding this phenomenon is not only fascinating but also has practical implications in fields like environmental science and biology.Furthermore, the implications of cohesive strength can be seen in everyday life. For example, when you pour a glass of milk, you may notice that it forms a smooth surface rather than spilling over immediately. This behavior can be attributed to the cohesive strength of the liquid, which is strong enough to hold the milk together until a certain threshold is reached. Additionally, in social sciences, the idea of cohesive strength can be metaphorically applied to group dynamics. A team with high cohesive strength tends to work better together, as members support one another and share common goals. This kind of cohesion is critical in achieving success in collaborative projects, as it fosters trust and encourages open communication among team members.In conclusion, cohesive strength is a vital concept that permeates various aspects of our lives, from the materials we use to the teams we work with. Understanding this property helps us appreciate the importance of stability and durability in both physical and social constructs. Whether in engineering, biology, or teamwork, recognizing the significance of cohesive strength allows us to make informed decisions and create stronger, more effective solutions in our endeavors.

凝聚力是材料的基本属性，在工程、物理和材料科学等多个领域至关重要。当我们谈到术语凝聚强度时，我们指的是保持材料结合在一起的内部强度。这个概念在评估结构的稳定性和耐久性时尤为重要。例如，在土木工程中，理解土壤的凝聚强度对建造能够承受负荷而不倒塌的基础至关重要。凝聚强度越强，结构在应力下的稳定性就越高。除了建筑，凝聚强度在各种产品的设计中也扮演着重要角色。以粘合剂为例。粘合剂的有效性往往取决于其凝聚强度。一种强大的粘合剂必须具有高凝聚强度，以确保它能够牢固地粘合材料而不会断裂。这就是为什么制造商在产品上市之前进行广泛测试以测量其产品的凝聚强度。此外，凝聚强度的概念不仅限于物质材料；它也可以应用于生物系统。在自然界中，水分子的凝聚力使得水滴的形成成为可能，并且某些昆虫能够在水面上行走。这种独特属性源于水分子之间的氢键，这创造了强大的凝聚力。理解这一现象不仅令人着迷，而且在环境科学和生物学等领域有实际意义。此外，凝聚强度的影响可以在日常生活中看到。例如，当你倒一杯牛奶时，你可能会注意到它形成一个光滑的表面，而不是立即溢出。这种行为可以归因于液体的凝聚强度，它足够强大，可以保持牛奶在达到某个阈值之前结合在一起。此外，在社会科学中，凝聚强度的概念可以隐喻性地应用于团队动态。一个具有高凝聚强度的团队往往能够更好地协同工作，因为成员之间相互支持并分享共同目标。这种凝聚力在实现合作项目的成功中至关重要，因为它促进了信任并鼓励团队成员之间的开放沟通。总之，凝聚强度是一个重要的概念，渗透到我们生活的各个方面，从我们使用的材料到我们合作的团队。理解这一属性帮助我们欣赏物理和社会构造中稳定性和耐久性的重要性。在工程、生物学或团队合作中，认识到凝聚强度的重要性使我们能够做出明智的决策，并在我们的努力中创造更强大、更有效的解决方案。