dead weight load
简明释义
载重量
英英释义
例句
1.The ship's dead weight load 净重载荷 includes all the cargo, fuel, and supplies necessary for the journey.
这艘船的dead weight load 净重载荷包括了所有的货物、燃料和旅途所需的补给。
2.In construction, understanding the dead weight load 净重载荷 is crucial for designing stable structures.
在建筑中,理解dead weight load 净重载荷对于设计稳定的结构至关重要。
3.Engineers must calculate the dead weight load 净重载荷 to ensure the bridge can support the weight of vehicles safely.
工程师必须计算dead weight load 净重载荷,以确保桥梁能够安全承受车辆的重量。
4.When loading a truck, it's important to balance the dead weight load 净重载荷 to prevent tipping.
在装载卡车时,平衡dead weight load 净重载荷是防止倾倒的重要措施。
5.The dead weight load 净重载荷 of the aircraft affects its fuel efficiency during long flights.
飞机的dead weight load 净重载荷会影响其在长途飞行中的燃油效率。
作文
In the world of engineering and construction, understanding various concepts is crucial for success. One such concept that often arises in discussions about load-bearing structures is the term dead weight load. This term refers to the static load that a structure must support, which includes the weight of the building materials themselves, as well as any permanent fixtures or installations. Essentially, the dead weight load represents the unchanging weight that a structure must bear over its lifespan. When designing a building, engineers must accurately calculate the dead weight load to ensure that the foundation and supporting elements are sufficiently robust. If a structure is not designed to handle its dead weight load, it can lead to catastrophic failures, resulting in safety hazards and financial losses. For instance, if the weight of the walls, roof, and flooring exceeds what the foundation can support, it may lead to structural collapse. Therefore, understanding the dead weight load is vital for maintaining the integrity of any construction project.In addition to buildings, the concept of dead weight load is also applicable in other fields such as transportation and manufacturing. For example, in shipping, the dead weight load of a vessel includes the weight of the ship itself plus the cargo, fuel, and crew. This total weight must be managed carefully to ensure that the ship remains buoyant and stable. Similarly, in manufacturing, machines and equipment must be designed to accommodate their own dead weight load along with any additional loads they may encounter during operation.The implications of miscalculating the dead weight load can be severe. In civil engineering, for instance, a bridge that cannot support its dead weight load could result in significant structural damage, leading to costly repairs and potential loss of life. This highlights the importance of thorough planning and precise calculations when assessing the dead weight load of any structure.Moreover, the dead weight load can also influence the choice of materials used in construction. Builders may opt for lighter materials to reduce the dead weight load, thereby allowing for more innovative designs and greater flexibility in architectural choices. For example, using lightweight steel or composite materials can significantly decrease the dead weight load, enabling architects to create larger open spaces without compromising structural integrity.In conclusion, the concept of dead weight load is fundamental in various fields, particularly in engineering and construction. It represents the static weight that a structure must support, influencing everything from design and material selection to safety considerations. By understanding and accurately calculating the dead weight load, engineers and architects can ensure the longevity and stability of their projects, ultimately contributing to safer and more efficient built environments. The significance of this term cannot be overstated, as it plays a crucial role in the successful execution of construction projects worldwide.
在工程和建筑的世界中,理解各种概念对于成功至关重要。其中一个经常在承重结构讨论中出现的术语是dead weight load。这个术语指的是结构必须支持的静态负载,包括建筑材料本身的重量,以及任何永久性装置或安装。基本上,dead weight load代表了结构在其生命周期内必须承受的不变重量。在设计建筑时,工程师必须准确计算dead weight load,以确保基础和支撑元素足够坚固。如果结构未能设计成能够承受其dead weight load,可能会导致灾难性的失败,造成安全隐患和经济损失。例如,如果墙壁、屋顶和地板的重量超过基础所能支持的重量,可能会导致结构倒塌。因此,理解dead weight load对于维护任何建筑项目的完整性至关重要。除了建筑,dead weight load的概念在运输和制造等其他领域也适用。例如,在航运中,一艘船的dead weight load包括船本身的重量加上货物、燃料和船员的重量。必须仔细管理这一总重量,以确保船只保持浮力和稳定。同样,在制造中,机器和设备必须设计成能够容纳其自身的dead weight load以及在操作过程中可能遇到的任何额外负载。错误计算dead weight load的影响可能是严重的。在土木工程中,例如,无法支持其dead weight load的桥梁可能导致重大结构损坏,导致昂贵的修复和潜在的生命损失。这突显了在评估任何结构的dead weight load时进行全面规划和精确计算的重要性。此外,dead weight load还可以影响建筑中使用的材料选择。建筑商可能会选择更轻的材料来减少dead weight load,从而允许更具创新性的设计和更大的建筑选择灵活性。例如,使用轻质钢或复合材料可以显著减少dead weight load,使建筑师能够在不妥协结构完整性的情况下创造更大的开放空间。总之,dead weight load的概念在各个领域都是基础,特别是在工程和建筑领域。它代表了结构必须支持的静态重量,影响从设计和材料选择到安全考虑的方方面面。通过理解和准确计算dead weight load,工程师和建筑师可以确保他们项目的持久性和稳定性,最终为更安全、更高效的建筑环境做出贡献。这个术语的重要性不言而喻,因为它在全球建筑项目的成功执行中发挥着至关重要的作用。
