bulkhead boundary stiffener
简明释义
舱壁加强框
英英释义
例句
1.The bulkhead boundary stiffener plays a crucial role in maintaining the integrity of the vessel's hull.
在保持船体完整性方面,舱壁边界加劲肋起着至关重要的作用。
2.We designed a new bulkhead boundary stiffener to withstand higher pressures in the deep-sea environment.
我们设计了一种新的舱壁边界加劲肋,以承受深海环境中的更高压力。
3.The installation of the bulkhead boundary stiffener was completed ahead of schedule.
舱壁边界加劲肋的安装提前完成。
4.During the inspection, we found that the bulkhead boundary stiffener had corroded and needed replacement.
在检查过程中,我们发现舱壁边界加劲肋已经腐蚀,需要更换。
5.The engineer recommended reinforcing the structure with a bulkhead boundary stiffener to improve its stability.
工程师建议用舱壁边界加劲肋加固结构,以提高其稳定性。
作文
In the world of engineering and construction, particularly in naval architecture and aerospace design, the term bulkhead boundary stiffener is frequently encountered. This phrase refers to a structural component that serves as a reinforcement at the junction between bulkheads and other structural elements. Bulkheads are vertical partitions that divide a ship or aircraft into compartments, enhancing structural integrity and providing safety by containing potential hazards such as flooding. The bulkhead boundary stiffener plays a crucial role in maintaining the rigidity and strength of these bulkheads, especially under various stress conditions.The importance of a bulkhead boundary stiffener cannot be overstated. When a vessel or aircraft is subjected to forces such as turbulence, pressure changes, or impacts, the bulkheads must withstand these stresses without deforming or failing. The stiffeners are typically made from materials such as steel or aluminum, which offer high tensile strength and durability. They are strategically placed along the edges of bulkheads to distribute loads evenly and prevent buckling, which can lead to catastrophic structural failures.Moreover, the design and placement of bulkhead boundary stiffeners are critical in the overall engineering process. Engineers must consider factors such as weight, material properties, and the specific operational environment of the vessel or aircraft. For instance, in naval ships, where weight is a significant concern, the use of advanced materials such as composites may be explored to create effective stiffeners that do not add excessive weight.In addition to their structural benefits, bulkhead boundary stiffeners also contribute to the overall safety of the ship or aircraft. By reinforcing the bulkheads, they help to ensure that compartments remain sealed during emergencies, thereby preventing the spread of water or fire. This containment is vital for the crew’s safety and the preservation of the vessel’s integrity.The manufacturing process of bulkhead boundary stiffeners involves precise engineering and fabrication techniques. Modern technology allows for computer-aided design (CAD) and finite element analysis (FEA) to optimize the shape and size of these stiffeners. This ensures that they provide maximum support while minimizing material use, contributing to more efficient and sustainable engineering practices.In conclusion, the bulkhead boundary stiffener is an essential element in the construction of ships and aircraft, ensuring structural integrity and safety. Its role in reinforcing bulkheads under various stress conditions highlights the importance of careful design and material selection in engineering. As technology advances, the methods for creating and implementing these stiffeners will continue to evolve, further enhancing the performance and reliability of marine and aerospace vehicles.
在工程和建筑领域,尤其是在船舶设计和航空航天设计中,术语bulkhead boundary stiffener(舱壁边界加劲肋)是一个常见的术语。这个短语指的是一种结构组件,用于在舱壁与其他结构元素之间的连接处进行加固。舱壁是将船只或飞机分隔成多个舱室的垂直隔板,它增强了结构的完整性,并通过限制潜在的危险(如洪水)来提供安全保障。bulkhead boundary stiffener(舱壁边界加劲肋)在保持这些舱壁的刚度和强度方面发挥着至关重要的作用,尤其是在各种应力条件下。bulkhead boundary stiffener(舱壁边界加劲肋)的重要性不容忽视。当船只或飞机受到气流、压力变化或冲击等力量的作用时,舱壁必须承受这些应力而不发生变形或失效。加劲肋通常由钢或铝等材料制成,这些材料具有高抗拉强度和耐用性。它们被战略性地放置在舱壁的边缘,以均匀分布负载并防止屈曲,这可能导致灾难性的结构失败。此外,bulkhead boundary stiffeners(舱壁边界加劲肋)的设计和放置在整体工程过程中也至关重要。工程师必须考虑诸如重量、材料特性以及船只或飞机的具体操作环境等因素。例如,在海军舰艇中,重量是一个重要问题,因此可能会探索使用先进材料(如复合材料)来制造有效的加劲肋,以避免增加过多的重量。除了其结构优势外,bulkhead boundary stiffeners(舱壁边界加劲肋)还对船只或飞机的整体安全性做出了贡献。通过加固舱壁,它们有助于确保在紧急情况下舱室保持密封,从而防止水或火的蔓延。这种隔离对于船员的安全和船只完整性的保护至关重要。bulkhead boundary stiffeners(舱壁边界加劲肋)的制造过程涉及精确的工程和加工技术。现代技术允许计算机辅助设计(CAD)和有限元分析(FEA)来优化这些加劲肋的形状和尺寸。这确保了它们在最大程度上提供支持的同时,最小化材料使用,从而有助于更高效和可持续的工程实践。总之,bulkhead boundary stiffener(舱壁边界加劲肋)是船舶和飞机建造中的一个重要元素,确保结构完整性和安全性。它在各种应力条件下加强舱壁的作用突显了在工程设计和材料选择中的重要性。随着技术的进步,制造和实施这些加劲肋的方法将继续演变,进一步提升海洋和航空器的性能和可靠性。
相关单词
