bottom longitudinal
简明释义
船底纵桁
英英释义
Referring to the lengthwise orientation or alignment of an object or structure, specifically at its lower or bottom part. | 指的是一个物体或结构在其下部的长度方向或排列,特别是底部部分。 |
例句
1.The boat's hull features a reinforced bottom longitudinal section for added durability.
船体的底部具有加固的底部纵向部分,以增加耐用性。
2.The design required a strong bottom longitudinal framework to ensure stability.
设计要求有一个坚固的底部纵向框架以确保稳定性。
3.We need to measure the alignment of the bottom longitudinal axis before proceeding.
在继续之前,我们需要测量底部纵向轴的对齐情况。
4.The engineer analyzed the stress distribution along the bottom longitudinal beams of the bridge.
工程师分析了桥梁的底部纵向梁上的应力分布。
5.During the inspection, we found that the bottom longitudinal supports were corroded.
在检查过程中,我们发现底部纵向支撑已腐蚀。
作文
In the realm of engineering and design, understanding various terms is crucial for effective communication and implementation. One such term that often arises in discussions about structural integrity and design analysis is bottom longitudinal. This phrase refers to a specific type of structural element that runs along the length of a component, typically positioned at the lowest part of a structure. The significance of the bottom longitudinal element cannot be overstated, as it plays a vital role in distributing loads and ensuring stability.When designing any structure, engineers must consider how forces will interact with the materials used. The bottom longitudinal component is essential in this regard, as it helps to manage tensile and compressive forces that act upon the structure. For instance, in bridge construction, the bottom longitudinal beams are responsible for bearing the weight of vehicles and pedestrians, transferring these loads to the supporting pillars. Without adequately designed bottom longitudinal elements, the entire structure could be compromised, leading to potential failures.Moreover, the bottom longitudinal components can vary significantly depending on the material used and the specific requirements of the project. Steel, concrete, and composite materials each have unique properties that influence how the bottom longitudinal elements behave under stress. Engineers must conduct thorough analyses to determine the best materials and designs for these critical components, ensuring they meet safety standards and performance expectations.In addition to their structural importance, bottom longitudinal elements also have implications for maintenance and durability. Over time, these components may be subjected to environmental factors, such as corrosion or fatigue, which can weaken their effectiveness. Regular inspections and maintenance are necessary to ensure that bottom longitudinal elements remain in good condition and continue to perform their intended functions. This aspect of engineering highlights the need for a comprehensive understanding of all structural components, including the bottom longitudinal elements.Furthermore, the concept of bottom longitudinal can extend beyond traditional engineering applications. In fields such as aerospace and automotive engineering, the principles of load distribution and structural integrity are equally important. For example, in aircraft design, the bottom longitudinal components of the fuselage must be engineered to withstand the forces experienced during flight, ensuring passenger safety and comfort.In conclusion, the term bottom longitudinal encapsulates a fundamental aspect of structural design and engineering. Its role in load distribution, material selection, and maintenance underscores its importance in creating safe and reliable structures. As engineers continue to innovate and push the boundaries of design, a solid grasp of concepts like bottom longitudinal will remain essential for success in the field. Understanding this term not only enhances communication among professionals but also contributes to the overall advancement of engineering practices, ultimately leading to safer and more efficient structures for society at large.
在工程和设计的领域中,理解各种术语对于有效的沟通和实施至关重要。其中一个在讨论结构完整性和设计分析时常出现的术语是底部纵向。这个短语指的是沿着组件长度延伸的一种特定结构元素,通常位于结构的最低部分。底部纵向元素的重要性不容小觑,因为它在分配负载和确保稳定性方面发挥着至关重要的作用。在设计任何结构时,工程师必须考虑力如何与所使用的材料相互作用。底部纵向组件在这方面至关重要,因为它有助于管理作用于结构上的拉伸和压缩力。例如,在桥梁建设中,底部纵向梁负责承载车辆和行人的重量,将这些负载传递给支撑柱。如果没有适当设计的底部纵向元素,整个结构可能会受到影响,导致潜在的失败。此外,底部纵向组件可以根据所用材料和项目的具体要求而显著变化。钢、混凝土和复合材料各自具有独特的特性,影响底部纵向元素在应力下的表现。工程师必须进行彻底的分析,以确定最佳材料和设计,以确保这些关键组件满足安全标准和性能期望。除了结构重要性外,底部纵向元素对维护和耐用性也有影响。随着时间的推移,这些组件可能会受到环境因素的影响,例如腐蚀或疲劳,这可能会削弱其有效性。定期检查和维护是必要的,以确保底部纵向元素保持良好状态,并继续执行其预期功能。这一工程方面突显了全面理解所有结构组件的必要性,包括底部纵向元素。此外,底部纵向的概念还可以扩展到传统工程应用之外。在航空航天和汽车工程等领域,负载分配和结构完整性的原则同样重要。例如,在飞机设计中,机身的底部纵向组件必须经过工程设计,以承受飞行过程中经历的力量,确保乘客的安全和舒适。总之,术语底部纵向概括了结构设计和工程的基本方面。它在负载分配、材料选择和维护中的作用强调了它在创建安全可靠结构中的重要性。随着工程师不断创新并推动设计的边界,对像底部纵向这样的概念的深入理解将继续是该领域成功的关键。理解这个术语不仅增强了专业人士之间的沟通,还促进了工程实践的整体进步,最终为社会创造出更安全、更高效的结构。
相关单词
