breaking strength

简明释义

抗断强度破断强度

英英释义

例句

1.Engineers must test the breaking strength of cables before using them in bridges.

工程师在桥梁使用电缆之前必须测试其断裂强度。

2.When selecting materials for construction, it's crucial to consider the breaking strength of each component.

在选择建筑材料时，考虑每个组件的断裂强度是至关重要的。

3.The breaking strength of this fishing line is high enough to catch large fish.

这条钓鱼线的断裂强度足以捕捉到大鱼。

4.The rope has a breaking strength of 2000 pounds, making it suitable for heavy lifting.

这根绳子的断裂强度为2000磅，适合重物提升。

5.The safety harness is designed with a breaking strength of 3000 pounds to ensure worker safety.

安全带的设计断裂强度为3000磅，以确保工人安全。

作文

When it comes to materials and their applications in various industries, one of the most critical properties to consider is their breaking strength. The term breaking strength refers to the maximum amount of stress or force a material can withstand before it fails or breaks. This property is essential in engineering, construction, and manufacturing, as it determines how much load a material can handle safely without risking structural integrity. Understanding breaking strength is vital for ensuring safety and durability in any project that involves material usage.For instance, in the construction industry, the breaking strength of concrete and steel is carefully calculated to ensure that buildings can support their own weight, as well as the weight of occupants and furniture. If the materials used do not have sufficient breaking strength, the structure could collapse, leading to catastrophic consequences. Engineers perform rigorous testing to determine the breaking strength of materials, using standardized methods to apply increasing loads until failure occurs. This data helps them select the right materials for specific applications, ensuring that the final structure is safe and reliable.Similarly, in the textile industry, the breaking strength of fabrics is an important consideration. For example, when designing parachutes or safety harnesses, manufacturers must ensure that the materials used can withstand significant forces without tearing. A parachute with insufficient breaking strength could fail during descent, putting the user’s life at risk. Therefore, thorough testing and quality control processes are implemented to guarantee that all products meet the required breaking strength standards.Moreover, the breaking strength is not only relevant to rigid materials but also to flexible ones. For instance, ropes and cables are often subjected to high tensile forces, and their breaking strength is crucial for applications such as climbing, sailing, and rescue operations. A rope with inadequate breaking strength could snap under load, leading to dangerous situations. Thus, manufacturers provide detailed specifications regarding the breaking strength of their products, allowing consumers to make informed choices based on their needs.In addition to its practical implications, understanding breaking strength also has broader environmental and economic impacts. Choosing materials with appropriate breaking strength can lead to more sustainable practices, as it reduces the need for excessive material use and minimizes waste. By selecting materials that can endure greater loads, engineers and designers can create more efficient structures and products, ultimately benefiting both the environment and the economy.In conclusion, the concept of breaking strength is fundamental across various fields, from construction and textiles to safety equipment. It represents the limit of a material's capacity to resist breaking under stress, making it a crucial factor in design and engineering decisions. By understanding and applying the principles of breaking strength, professionals can enhance safety, performance, and sustainability in their respective industries. As we continue to innovate and develop new materials, a solid grasp of breaking strength will remain essential for ensuring that our creations are both functional and safe.

当谈到材料及其在各个行业中的应用时，最关键的属性之一就是它们的破断强度。术语破断强度指的是材料在失效或断裂之前能够承受的最大应力或力。这一属性在工程、建筑和制造中至关重要，因为它决定了材料能够安全承受多少负载，而不会危及结构的完整性。理解破断强度对于确保任何涉及材料使用的项目的安全性和耐久性至关重要。例如，在建筑行业，混凝土和钢材的破断强度被仔细计算，以确保建筑物能够支撑自身的重量，以及居住者和家具的重量。如果所用材料的破断强度不足，结构可能会崩溃，导致灾难性的后果。工程师进行严格的测试，以确定材料的破断强度，使用标准化的方法施加逐渐增加的负载，直到发生失效。这些数据帮助他们选择适合特定应用的材料，确保最终结构安全可靠。同样，在纺织行业，面料的破断强度也是一个重要考虑因素。例如，在设计降落伞或安全带时，制造商必须确保所用材料能够承受显著的力量而不撕裂。具有不足破断强度的降落伞在下降过程中可能会失效，危及用户的生命。因此，实施彻底的测试和质量控制流程，以保证所有产品符合所需的破断强度标准。此外，破断强度不仅与刚性材料相关，也与柔性材料相关。例如，绳索和电缆通常承受高拉伸力，它们的破断强度对攀岩、航海和救援操作等应用至关重要。具有不足破断强度的绳索在负载下可能会断裂，导致危险情况。因此，制造商提供详细的产品破断强度规格，使消费者能够根据需求做出明智的选择。除了其实际影响外，理解破断强度还具有更广泛的环境和经济影响。选择具有适当破断强度的材料可以导致更可持续的实践，因为这减少了过量材料使用的需要并最小化了浪费。通过选择能够承受更大负载的材料，工程师和设计师可以创造出更高效的结构和产品，最终使环境和经济受益。总之，破断强度的概念在各个领域都是基础，从建筑和纺织到安全设备。它代表了材料在应力下抵抗断裂的能力极限，这使其成为设计和工程决策中的关键因素。通过理解和应用破断强度的原则，专业人士可以增强各自行业的安全性、性能和可持续性。随着我们继续创新和开发新材料，对破断强度的扎实掌握将继续对确保我们的创造既功能性又安全性至关重要。