break strength

简明释义

断裂强度

英英释义

例句

1.A parachute must have a high break strength to ensure safety during descent.

降落伞必须具有高断裂强度以确保下降过程中的安全。

2.When selecting materials for construction, always consider the break strength of each component.

在选择建筑材料时，总是要考虑每个组件的断裂强度。

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

这条绳子的断裂强度为2000磅，适合重物提升。

4.The break strength of this fishing line is crucial for catching larger fish.

这条钓鱼线的断裂强度对于捕捉较大鱼类至关重要。

5.Engineers tested the cables to determine their break strength before installation.

工程师在安装之前测试了电缆以确定它们的断裂强度。

作文

The concept of break strength is crucial in various fields, especially in engineering and materials science. Break strength refers to the maximum load that a material can withstand before it fails or breaks. This property is particularly important when selecting materials for construction, manufacturing, and other applications where durability and safety are paramount. Understanding the break strength of a material helps engineers and designers ensure that structures can support expected loads without risk of failure.For instance, when designing a bridge, engineers must consider the break strength of the materials used in its construction. If the materials do not have adequate break strength, the bridge could collapse under heavy traffic or adverse weather conditions. Therefore, comprehensive testing is often conducted to determine the break strength of steel, concrete, and other materials before they are used in critical infrastructure.In addition to engineering, the concept of break strength is also relevant in the textile industry. Fabrics and fibers are tested for their break strength to ensure they can withstand the stresses of everyday use. For example, a climbing rope must have a high break strength to ensure the safety of climbers. If the rope fails, it could lead to serious injuries or even fatalities. Thus, manufacturers must rigorously test and validate the break strength of their products.Moreover, the break strength of a material can be influenced by several factors, including temperature, humidity, and the presence of defects. For instance, a metal that has been exposed to extreme temperatures may experience a reduction in its break strength. Similarly, materials with micro-cracks or other imperfections may fail at lower loads than expected. This variability highlights the importance of quality control in manufacturing processes to ensure that materials meet the required break strength specifications.Understanding break strength is not only limited to physical materials but also extends to biological materials. In the realm of biology, the break strength of bones or tendons is a critical factor in medical fields such as orthopedics. Doctors need to understand how much force a bone can handle before it fractures. This knowledge is essential for making decisions about treatment plans, especially after injuries or surgeries.In conclusion, the term break strength encompasses a wide array of applications across different industries. Whether in construction, textiles, or medicine, knowing the break strength of materials allows professionals to make informed decisions that prioritize safety and efficiency. As technology advances, methods for testing and improving break strength will continue to evolve, ensuring that materials can meet the demands of modern applications. Ultimately, a thorough understanding of break strength is vital for innovation and progress in any field that relies on material integrity.

“断裂强度”的概念在各个领域都是至关重要的，尤其是在工程和材料科学中。“断裂强度”是指材料在失败或断裂之前能够承受的最大负荷。这一特性在选择建筑、制造和其他需要耐久性和安全性的应用材料时尤为重要。理解材料的“断裂强度”有助于工程师和设计师确保结构能够支持预期的负荷，而不会出现失效的风险。例如，在设计桥梁时，工程师必须考虑所用材料的“断裂强度”。如果材料的“断裂强度”不足，桥梁可能会在重型交通或不利天气条件下倒塌。因此，通常会进行全面的测试，以确定钢材、混凝土和其他材料的“断裂强度”，以便在关键基础设施中使用。除了工程领域，“断裂强度”的概念在纺织工业中也相关。面料和纤维的“断裂强度”经过测试，以确保它们能够承受日常使用中的压力。例如，攀岩绳必须具有高“断裂强度”，以确保攀登者的安全。如果绳索断裂，可能会导致严重的伤害甚至死亡。因此，制造商必须严格测试和验证其产品的“断裂强度”。此外，材料的“断裂强度”可能受到多种因素的影响，包括温度、湿度和缺陷的存在。例如，暴露于极端温度的金属可能会经历“断裂强度”的降低。同样，具有微裂纹或其他缺陷的材料可能在低于预期的负荷下断裂。这种变化强调了制造过程中的质量控制的重要性，以确保材料符合所需的“断裂强度”规格。理解“断裂强度”不仅限于物理材料，还扩展到生物材料。在生物学领域，骨骼或肌腱的“断裂强度”是医学领域（如骨科）的关键因素。医生需要了解骨骼在骨折之前能够承受多少力量。这一知识对于制定治疗方案至关重要，尤其是在受伤或手术后。总之，“断裂强度”这一术语涵盖了不同产业中的广泛应用。无论是在建筑、纺织还是医学领域，了解材料的“断裂强度”使专业人士能够做出优先考虑安全和效率的明智决策。随着技术的进步，测试和提高“断裂强度”的方法将继续发展，确保材料能够满足现代应用的需求。最终，深入理解“断裂强度”对任何依赖材料完整性的领域的创新和进步都是至关重要的。