longitudinal rib

简明释义

纵向肋片

英英释义

例句

1.The architectural plan included longitudinal ribs to support the roof structure.

建筑设计方案中包含了纵向肋以支撑屋顶结构。

2.The boat's hull featured longitudinal ribs that provided additional strength against waves.

船体的外壳有纵向肋，提供了额外的抗波浪强度。

3.In the new model, the longitudinal ribs were optimized for weight reduction.

在新模型中，纵向肋经过优化以减轻重量。

4.Engineers studied the effects of longitudinal ribs on the aerodynamics of the aircraft.

工程师研究了纵向肋对飞机气动性能的影响。

5.The design of the bridge included a series of longitudinal ribs to enhance structural stability.

这座桥的设计包括一系列的纵向肋以增强结构稳定性。

作文

The concept of a longitudinal rib is often encountered in various fields, particularly in engineering and biology. In engineering, a longitudinal rib refers to a structural element that runs parallel to the length of an object, providing support and stability. This can be seen in the design of beams, bridges, and even aircraft wings, where longitudinal ribs help distribute loads and resist bending forces. The incorporation of longitudinal ribs into structures enhances their overall integrity, allowing them to withstand external pressures and environmental factors. In biology, longitudinal ribs may refer to the physical features found in certain organisms, such as the shells of mollusks or the exoskeletons of insects. These ribs serve as protective barriers and contribute to the organism's overall shape and function. For instance, in the case of a mollusk, the longitudinal ribs can aid in locomotion by providing traction against surfaces. Understanding the role of longitudinal ribs in biological structures can offer insights into evolutionary adaptations and the functional morphology of different species.The significance of longitudinal ribs extends beyond mere structural support; they also play a crucial role in the aesthetics of design. In architecture, the use of longitudinal ribs can create visually appealing lines and forms, contributing to the overall beauty of a building or structure. Designers often leverage the interplay between form and function, using longitudinal ribs not only for their strength but also for their ability to enhance the visual dynamics of a space.Moreover, the study of longitudinal ribs can lead to innovative applications in material science. Researchers are exploring new materials and technologies that incorporate the principles of longitudinal ribs to create lightweight yet strong components. For example, materials with ribbed structures can be used in the automotive and aerospace industries to reduce weight while maintaining performance standards. This advancement is crucial in developing more efficient vehicles and aircraft, ultimately contributing to sustainability efforts.In conclusion, the term longitudinal rib encompasses a variety of meanings across different disciplines, from engineering and biology to architecture and material science. Understanding the multifaceted roles of longitudinal ribs allows for a greater appreciation of their importance in both natural and man-made structures. As we continue to explore the applications and implications of longitudinal ribs, it becomes clear that they are integral to innovation and design, shaping the world around us in ways we may not always recognize. The study of longitudinal ribs is not just about understanding their function; it is about recognizing their potential to influence future advancements in technology and design.

“纵向肋”的概念在各个领域中经常出现，尤其是在工程和生物学中。在工程中，纵向肋指的是与物体长度平行的结构元素，提供支持和稳定性。这可以在梁、桥甚至飞机翼的设计中看到，纵向肋帮助分配载荷并抵抗弯曲力。将纵向肋纳入结构中增强了它们的整体完整性，使其能够承受外部压力和环境因素。在生物学中，纵向肋可能指某些生物体中的物理特征，例如软体动物的壳或昆虫的外骨骼。这些肋条作为保护屏障，并有助于生物体的整体形状和功能。例如，在软体动物的情况下，纵向肋可以通过提供对表面的牵引力来帮助运动。理解纵向肋在生物结构中的作用可以为我们提供有关进化适应和不同物种功能形态的洞察。纵向肋的重要性不仅限于单纯的结构支持；它们在设计美学中也发挥着关键作用。在建筑中，使用纵向肋可以创造出视觉上吸引人的线条和形状，增强建筑或结构的整体美感。设计师通常利用形式与功能之间的相互作用，不仅为了其强度而使用纵向肋，还为了增强空间的视觉动态。此外，纵向肋的研究可以导致材料科学中的创新应用。研究人员正在探索新材料和技术，这些材料和技术结合了纵向肋的原理，以创建轻巧但强大的组件。例如，具有肋状结构的材料可以用于汽车和航空航天工业，以减轻重量，同时保持性能标准。这一进展对开发更高效的车辆和飞机至关重要，最终有助于可持续发展努力。总之，术语纵向肋涵盖了不同学科中的多种含义，从工程和生物学到建筑和材料科学。理解纵向肋的多方面角色使我们更加欣赏它们在自然和人造结构中的重要性。随着我们继续探索纵向肋的应用和影响，显然它们对于创新和设计是不可或缺的，塑造着我们周围的世界，以我们可能并不总是意识到的方式。对纵向肋的研究不仅仅是理解其功能；而是认识到它们对未来技术和设计进步的潜力。