load—carrying capacity per high—strength holt

简明释义

单个高强螺桂承载能力

英英释义

例句

1.The contractor specified a high load—carrying capacity per high—strength holt to support the weight of the steel beams.

承包商指定了一个高高强度螺栓的承载能力以支撑钢梁的重量。

2.Testing the load—carrying capacity per high—strength holt helped identify potential failure points in the design.

测试高强度螺栓的承载能力有助于识别设计中的潜在故障点。

3.The specification sheet included details about the load—carrying capacity per high—strength holt used in the assembly.

规格表中包含了组装中使用的高强度螺栓的承载能力的详细信息。

4.In the construction project, understanding the load—carrying capacity per high—strength holt was crucial for safety.

在建设项目中，了解高强度螺栓的承载能力对安全至关重要。

5.The engineer calculated the load—carrying capacity per high—strength holt to ensure the bridge could handle heavy traffic.

工程师计算了高强度螺栓的承载能力以确保桥梁能够承受重型交通。

作文

In the realm of engineering and construction, understanding the concept of load—carrying capacity per high—strength holt is crucial for ensuring safety and efficiency. The term refers to the maximum load that a high-strength bolt can support without failing. This measurement is essential for structural integrity, as it helps engineers determine how many bolts are needed to secure various components of a structure. Without this knowledge, buildings and bridges could be at risk of catastrophic failure due to inadequate support. High-strength bolts are commonly used in construction because of their superior tensile strength compared to standard bolts. These bolts are designed to withstand greater forces and loads, making them ideal for heavy-duty applications. The load—carrying capacity per high—strength holt provides a quantifiable measure that engineers can use to assess whether a particular bolt is suitable for a given application. For instance, when constructing a bridge, engineers must consider the weight of vehicles, pedestrians, and environmental factors like wind and seismic activity. By calculating the load—carrying capacity per high—strength holt, they can ensure that the bolts used in the bridge's construction will be able to handle the anticipated loads over time. This process involves rigorous testing and adherence to industry standards to guarantee that the bolts meet the necessary specifications. Moreover, the importance of understanding this concept extends beyond just the initial construction phase. Regular inspections and maintenance are vital to ensure that the bolts continue to perform as expected throughout the lifespan of the structure. Engineers often monitor the load—carrying capacity per high—strength holt as part of their routine assessments to identify any potential issues before they lead to significant problems. In addition to safety, considering the load—carrying capacity per high—strength holt also has economic implications. Using the appropriate number and type of bolts can help reduce costs associated with materials and labor. Over-engineering a structure by using more bolts than necessary can lead to unnecessary expenses, while under-engineering can result in costly repairs or even tragic failures. Therefore, finding the right balance is essential for both safety and cost-effectiveness. In conclusion, the concept of load—carrying capacity per high—strength holt is a fundamental aspect of engineering that cannot be overlooked. It ensures the safety and reliability of structures while also promoting economic efficiency. As technology advances and new materials are developed, the methods for determining this capacity may evolve, but the underlying principle will remain critical in the field of construction and engineering. Understanding this term not only enhances our knowledge of structural integrity but also emphasizes the importance of precision and diligence in engineering practices.

在工程和建筑领域，理解“高强度螺栓的承载能力”这一概念对于确保安全和效率至关重要。该术语指的是高强度螺栓在不发生故障的情况下能够支持的最大负载。这一测量对于结构的完整性至关重要，因为它帮助工程师确定需要多少个螺栓来固定结构的各个组件。如果没有这些知识，建筑物和桥梁可能会因为支撑不足而面临灾难性的失败。高强度螺栓因其相较于标准螺栓的优越抗拉强度而广泛应用于建筑中。这些螺栓旨在承受更大的力量和负载，使其成为重型应用的理想选择。“高强度螺栓的承载能力”提供了一种可量化的度量，工程师可以利用这一指标来评估某个特定的螺栓是否适合某一特定应用。例如，在建造桥梁时，工程师必须考虑车辆、行人以及风和地震等环境因素的重量。通过计算“高强度螺栓的承载能力”，他们可以确保用于桥梁建设的螺栓能够承受预期的负载。这一过程涉及严格的测试和遵循行业标准，以保证螺栓符合必要的规格。此外，理解这一概念的重要性不仅限于初始建设阶段。定期检查和维护对于确保螺栓在整个结构生命周期内继续按预期工作至关重要。工程师通常会在例行评估中监测“高强度螺栓的承载能力”，以在潜在问题导致重大问题之前识别出来。除了安全性，考虑“高强度螺栓的承载能力”还有经济意义。使用适当数量和类型的螺栓可以帮助降低材料和劳动力相关的成本。通过使用比必要的更多螺栓来过度设计结构可能会导致不必要的开支，而设计不足则可能导致昂贵的修复或甚至悲惨的失败。因此，找到适当的平衡对于安全性和经济效益都是至关重要的。总之，“高强度螺栓的承载能力”这一概念是工程学中的一个基本方面，不能被忽视。它确保了结构的安全性和可靠性，同时也促进了经济效率。随着技术的发展和新材料的出现，确定这一能力的方法可能会不断演变，但其根本原则在建筑和工程领域依然至关重要。理解这个术语不仅增强了我们对结构完整性的认识，还强调了工程实践中精确性和谨慎性的重要性。