maximum breaking load

简明释义

最大断裂载荷

英英释义

例句

1.Testing the rope's maximum breaking load 最大破断载荷 is crucial for climbing safety.

测试绳索的最大破断载荷 maximum breaking load对攀登安全至关重要。

2.The manufacturer provided the maximum breaking load 最大破断载荷 specifications for the new product.

制造商提供了新产品的最大破断载荷 maximum breaking load规格。

3.Before lifting the heavy machinery, we need to verify the maximum breaking load 最大破断载荷 of the crane.

在提升重型机械之前，我们需要验证起重机的最大破断载荷 maximum breaking load。

4.The engineer calculated the maximum breaking load 最大破断载荷 of the cable to ensure safety.

工程师计算了电缆的最大破断载荷 maximum breaking load以确保安全。

5.The bridge was designed with a maximum breaking load 最大破断载荷 of 50 tons to accommodate large trucks.

这座桥的设计最大破断载荷 maximum breaking load为50吨，以便容纳大型卡车。

作文

In the field of engineering and materials science, understanding the concept of maximum breaking load is crucial for ensuring safety and reliability in various applications. The maximum breaking load (MBL) refers to the maximum amount of weight or force that a material or structure can withstand before failure occurs. This concept is particularly important in industries such as construction, aerospace, and marine engineering, where the integrity of materials is paramount to the safety of operations.To illustrate the importance of maximum breaking load, consider the example of a suspension bridge. Engineers must calculate the MBL of the cables used to support the bridge. If the cables are not strong enough to handle the loads they will encounter, such as the weight of vehicles and environmental factors like wind, the risk of catastrophic failure increases significantly. Therefore, accurate calculations of the MBL are essential to prevent accidents and ensure the longevity of the structure.Moreover, the maximum breaking load is not a fixed value; it can vary based on several factors, including the material properties, temperature, and the presence of flaws or defects. For instance, steel has a high MBL compared to other materials like wood or plastic. However, if the steel is subjected to extreme temperatures or corrosive environments, its strength may diminish, leading to a lower MBL. This variability emphasizes the need for regular testing and maintenance of materials used in critical applications.In addition to structural applications, the concept of maximum breaking load is also vital in the design of everyday items, such as ropes and cables. When selecting a rope for climbing or lifting, climbers and workers must consider the MBL to ensure their safety. Using a rope with an inadequate MBL could result in severe injuries or fatalities. Therefore, manufacturers often provide specifications that include the MBL of their products, allowing consumers to make informed choices based on their needs.Furthermore, understanding the maximum breaking load can aid in the development of new materials and technologies. Researchers are continually looking for ways to create stronger, lighter materials that can withstand higher loads without failing. Innovations in composite materials, for instance, have led to the creation of products with impressive MBLs that are also lightweight, making them ideal for applications in aerospace and automotive industries.In conclusion, the concept of maximum breaking load is integral to many fields, from engineering to everyday life. By grasping the significance of MBL, professionals can design safer structures, select appropriate materials, and innovate new technologies. As we continue to advance in various industries, the understanding and application of the maximum breaking load will remain a key factor in promoting safety and efficiency. It is imperative for engineers, designers, and consumers alike to recognize the importance of this concept to prevent failures and enhance the performance of materials and structures in our world.

在工程和材料科学领域，理解最大破断负荷的概念对于确保各种应用的安全性和可靠性至关重要。最大破断负荷（MBL）指的是材料或结构在发生故障之前能够承受的最大重量或力量。这一概念在建筑、航空航天和海洋工程等行业尤为重要，因为材料的完整性对操作的安全性至关重要。为了说明最大破断负荷的重要性，考虑一个悬索桥的例子。工程师必须计算用于支撑桥梁的电缆的MBL。如果电缆的强度不足以承受它们将遇到的负载，例如车辆的重量和风等环境因素，灾难性故障的风险就会显著增加。因此，准确计算MBL对于防止事故和确保结构的耐久性至关重要。此外，最大破断负荷并不是一个固定值；它可能会根据多种因素而变化，包括材料特性、温度以及缺陷或瑕疵的存在。例如，钢材的MBL相较于木材或塑料等其他材料要高。然而，如果钢材暴露于极端温度或腐蚀性环境中，其强度可能会降低，导致MBL下降。这种可变性强调了对用于关键应用的材料进行定期测试和维护的必要性。除了结构应用，最大破断负荷的概念在日常物品的设计中也至关重要，例如绳索和电缆。在选择用于攀爬或提升的绳索时，攀登者和工人必须考虑MBL以确保他们的安全。使用MBL不足的绳索可能会导致严重的伤害或死亡。因此，制造商通常提供包括其产品MBL的规格，使消费者能够根据自己的需求做出明智的选择。此外，理解最大破断负荷可以帮助开发新材料和技术。研究人员不断寻找方法来创造更强、更轻的材料，能够在不发生故障的情况下承受更高的负载。例如，复合材料的创新导致了具有令人印象深刻的MBL且又轻便的产品的出现，使其在航空航天和汽车工业中理想。总之，最大破断负荷的概念在许多领域都是不可或缺的，从工程到日常生活。通过掌握MBL的重要性，专业人士可以设计更安全的结构、选择合适的材料，并创新新技术。随着我们在各个行业的不断进步，对最大破断负荷的理解和应用将继续成为促进安全和效率的关键因素。工程师、设计师和消费者都必须认识到这一概念的重要性，以防止故障并提高我们世界中材料和结构的性能。