bound rupture

简明释义

链断裂;

英英释义

例句

1.The engineers were concerned about the potential for a bound rupture 界限破裂 in the pipeline due to pressure buildup.

工程师们担心由于压力积累，管道可能发生界限破裂。

2.The geologist explained that a bound rupture 界限破裂 could trigger an earthquake in this region.

地质学家解释说，这个地区的界限破裂可能会引发地震。

3.During the experiment, we observed a bound rupture 界限破裂 in the material when it exceeded its tensile strength.

在实验过程中，我们观察到材料在超过其拉伸强度时发生了界限破裂。

4.In the context of material science, a bound rupture 界限破裂 indicates a failure along a defined boundary.

在材料科学中，界限破裂表示沿着一个定义的边界的失效。

5.The team monitored the structure closely to prevent any bound rupture 界限破裂 that could compromise safety.

团队密切监控结构，以防止任何可能危及安全的界限破裂。

作文

In the realm of science, particularly in materials science and engineering, the term bound rupture refers to a specific type of failure that occurs within a material when it is subjected to stress. This phenomenon is crucial for understanding how different materials respond under various conditions and is essential for engineers and scientists alike. To grasp the concept of bound rupture more effectively, one must first consider the properties of materials and the forces they encounter during their use.Materials are often designed with certain specifications in mind, including strength, durability, and flexibility. However, when these materials are pushed beyond their limits, they can experience failure in several forms. One of the most critical types of failure is the bound rupture, which signifies a break or fracture that occurs at a predetermined point due to the material’s inherent properties and the external forces applied to it.To illustrate this concept, let us consider the example of a rubber band. When you stretch a rubber band, it can withstand a significant amount of tension without breaking. However, if you continue to pull it past its elastic limit, the rubber band will eventually snap. This snapping point represents a bound rupture where the material has exceeded its capacity to hold together. The concept is not limited to rubber bands; it applies to metals, plastics, and other materials used in construction and manufacturing.Understanding bound rupture is vital for engineers who design structures such as bridges, buildings, and vehicles. They must ensure that the materials used can endure the stresses they will face over time. For instance, if a bridge is constructed using steel that has a low tensile strength, it may be susceptible to bound rupture under heavy loads or extreme weather conditions. Therefore, selecting the right materials and understanding their properties can prevent catastrophic failures.Furthermore, the study of bound rupture also extends to the field of geology, particularly in understanding earthquakes. When tectonic plates move and build up stress along fault lines, they can eventually reach a point of bound rupture. This release of energy results in an earthquake, demonstrating how the principles of material failure can be applied to natural phenomena.In conclusion, the term bound rupture encapsulates a critical aspect of material science that has far-reaching implications in various fields. By comprehending how and why materials fail at specific points, we can better design and utilize them to ensure safety and durability. Whether in engineering, geology, or everyday life, recognizing the potential for bound rupture allows us to make informed decisions and create more resilient systems. As we continue to advance in technology and material development, the importance of understanding this concept will only grow, guiding us toward innovations that can withstand the test of time and stress.

在科学领域，特别是材料科学和工程中，术语bound rupture指的是当材料受到应力时发生的一种特定类型的失效现象。这一现象对于理解不同材料在各种条件下的反应至关重要，对于工程师和科学家而言都是必不可少的。要更有效地掌握bound rupture的概念，首先必须考虑材料的属性以及它们在使用过程中所遇到的力量。材料通常是根据特定的规格进行设计的，包括强度、耐用性和灵活性。然而，当这些材料被推向极限时，它们可能会以几种形式经历失效。其中最关键的失效类型之一是bound rupture，它表示由于材料固有的特性和施加的外部力量，在预定点发生的断裂或破裂。为了说明这一概念，让我们考虑一个橡皮筋的例子。当你拉伸橡皮筋时，它能够承受相当大的张力而不会断裂。然而，如果你继续将其拉伸超过弹性极限，橡皮筋最终会断裂。这个断裂点代表了bound rupture，即材料超出了保持在一起的能力。这个概念不仅限于橡皮筋；它适用于金属、塑料以及建筑和制造中使用的其他材料。理解bound rupture对于设计桥梁、建筑物和车辆等结构的工程师至关重要。他们必须确保所使用的材料能够承受随时间推移所面临的压力。例如，如果一座桥是用低抗拉强度的钢材建造的，它可能在重载或极端天气条件下容易发生bound rupture。因此，选择合适的材料并理解其特性可以防止灾难性的失效。此外，bound rupture的研究还扩展到地质学领域，特别是在理解地震方面。当构造板块移动并在断层线上积累应力时，它们最终可能达到bound rupture的临界点。这种能量的释放导致地震，展示了材料失效原理如何应用于自然现象。总之，术语bound rupture概括了材料科学中的一个关键方面，这在各个领域都有深远的影响。通过理解材料为何以及如何在特定点失效，我们可以更好地设计和利用这些材料，以确保安全和耐用性。无论是在工程、地质学还是日常生活中，认识到发生bound rupture的潜力使我们能够做出明智的决策，创造出更具韧性的系统。随着我们在技术和材料开发方面的不断进步，理解这一概念的重要性只会增加，引导我们走向能够经受时间和压力考验的创新。