characteristic value of horizontal crane load

简明释义

吊车水平荷载标准值

英英释义

例句

1.To perform accurate simulations, the characteristic value of horizontal crane load was integrated into the software model.

为了进行准确的模拟，水平起重机荷载的特征值被整合到软件模型中。

2.The construction team adjusted their plans based on the characteristic value of horizontal crane load provided by the structural engineer.

施工团队根据结构工程师提供的水平起重机荷载的特征值调整了他们的计划。

3.The engineer calculated the characteristic value of horizontal crane load to ensure the stability of the structure.

工程师计算了水平起重机荷载的特征值以确保结构的稳定性。

4.In the design phase, we must consider the characteristic value of horizontal crane load to avoid overloading.

在设计阶段，我们必须考虑水平起重机荷载的特征值以避免超载。

5.The safety regulations specify the maximum characteristic value of horizontal crane load for different types of cranes.

安全规定为不同类型的起重机指定了最大水平起重机荷载的特征值。

作文

The construction industry has always been at the forefront of technological advancements, and one of the critical aspects that engineers must consider is the load that cranes can handle. Among various factors, the characteristic value of horizontal crane load plays a vital role in ensuring safety and efficiency on construction sites. This term refers to the maximum load that a crane can safely lift and move horizontally without compromising its structural integrity or stability. Understanding this value is crucial for engineers and operators alike, as it directly influences the design and operation of lifting equipment.When planning a construction project, engineers must first determine the types of loads that will be encountered during the lifting process. The characteristic value of horizontal crane load is derived from various factors, including the weight of the materials being lifted, the distance the load needs to be moved, and the crane's specifications. Each crane model has its own unique set of parameters that dictate its lifting capacity, and these must be carefully considered to avoid accidents or equipment failure.For instance, if a crane is designed to lift heavy steel beams, the characteristic value of horizontal crane load will vary based on the beam's weight and the reach of the crane's arm. If a crane operator attempts to lift a load that exceeds this characteristic value, it could lead to catastrophic consequences, including tipping over or dropping the load. Therefore, it is imperative that operators are trained to understand and respect these limits.Moreover, the characteristic value of horizontal crane load is not static; it can change based on environmental conditions. Factors such as wind speed, ground stability, and even the type of materials being lifted can affect how much weight a crane can safely handle. For example, strong winds can create additional forces on the load, potentially exceeding the crane's lifting capacity. Engineers must take these variables into account when assessing the safety of a lifting operation.In addition to safety concerns, understanding the characteristic value of horizontal crane load also has economic implications. Construction companies aim to maximize productivity while minimizing costs. By accurately calculating this value, companies can optimize their lifting strategies, ensuring that they use the right equipment for the job. This not only helps in completing projects on time but also reduces the risk of damage to materials and equipment, ultimately saving money.Furthermore, regulatory bodies often require that cranes operate within specified limits, including the characteristic value of horizontal crane load. Compliance with these regulations is essential for obtaining necessary permits and ensuring the safety of workers on site. Failure to adhere to these guidelines can result in severe penalties, including fines and work stoppages.In conclusion, the characteristic value of horizontal crane load is a fundamental concept in the construction industry that encompasses safety, efficiency, and regulatory compliance. It is essential for engineers and crane operators to have a thorough understanding of this value to ensure that lifting operations are conducted safely and effectively. As technology continues to evolve, so too will the methods for calculating and applying this characteristic value, further enhancing the safety and productivity of construction projects worldwide.

建筑行业一直处于技术进步的前沿，而工程师必须考虑的一个关键方面是起重机能够承受的负载。在各种因素中，水平起重机负载的特征值在确保施工现场的安全和效率方面发挥着重要作用。这个术语指的是起重机可以安全地提升和水平移动的最大负载，而不危及其结构完整性或稳定性。理解这个值对于工程师和操作员来说至关重要，因为它直接影响到起重设备的设计和操作。在规划建设项目时，工程师首先必须确定在提升过程中将遇到的负载类型。水平起重机负载的特征值是根据多种因素得出的，包括被提升材料的重量、负载需要移动的距离以及起重机的规格。每种起重机型号都有自己独特的一组参数，决定了其提升能力，这些必须仔细考虑，以避免事故或设备故障。例如，如果一台起重机设计用于提升重型钢梁，则水平起重机负载的特征值将根据梁的重量和起重机臂的伸展范围而有所不同。如果起重机操作员试图提升超过该特征值的负载，可能会导致灾难性后果，包括倾覆或掉落负载。因此，操作员必须接受培训，以理解和尊重这些限制。此外，水平起重机负载的特征值并不是静态的；它可以根据环境条件而变化。风速、地面稳定性甚至被提升材料的类型等因素都可以影响起重机安全处理的重量。例如，强风可能会对负载产生额外的力，可能会超过起重机的提升能力。工程师在评估提升操作的安全性时，必须考虑这些变量。除了安全问题，理解水平起重机负载的特征值还有经济影响。建筑公司旨在最大化生产力，同时最小化成本。通过准确计算该值，公司可以优化其提升策略，确保为工作使用合适的设备。这不仅有助于按时完成项目，还减少了对材料和设备的损坏风险，从而最终节省了资金。此外，监管机构通常要求起重机在规定的限制内运行，包括水平起重机负载的特征值。遵守这些规定对于获得必要的许可证和确保工地工人的安全至关重要。未能遵守这些指导方针可能导致严重的处罚，包括罚款和停工。总之，水平起重机负载的特征值是建筑行业的一个基本概念，涵盖了安全性、效率和法规遵从性。工程师和起重机操作员必须深入理解这一数值，以确保提升操作的安全和有效。随着技术的不断发展，计算和应用这一特征值的方法也将不断演进，进一步增强全球建筑项目的安全性和生产力。