longitudinal construction

简明释义

纵向结构

英英释义

例句

1.Using longitudinal construction, the team was able to observe the effects of education on income over decades.

通过使用纵向构建，团队能够观察教育对收入的影响跨越数十年。

2.In the field of psychology, longitudinal construction helps in understanding developmental trends.

在心理学领域，纵向构建有助于理解发展趋势。

3.The researchers utilized longitudinal construction to analyze changes in behavior over time.

研究人员利用纵向构建分析行为随时间的变化。

4.The study employed a longitudinal construction to track participants' health outcomes across several years.

该研究采用纵向构建跟踪参与者数年的健康结果。

5.The longitudinal construction of the survey allowed for more accurate predictions about societal changes.

调查的纵向构建使得对社会变化的预测更加准确。

作文

In the field of engineering and architecture, the term longitudinal construction refers to a design approach that emphasizes the extension of structures along a specific length. This method is particularly significant in the creation of buildings, bridges, and other infrastructural elements where the length of the structure plays a crucial role in its functionality and aesthetic appeal. The concept of longitudinal construction can be illustrated through various examples, each showcasing how this design principle can enhance both practicality and beauty. One of the most prominent examples of longitudinal construction is seen in the design of modern skyscrapers. These towering structures often utilize vertical space efficiently by extending upwards while maintaining a slender profile. The longitudinal construction approach allows architects to create tall buildings that are not only visually striking but also capable of housing multiple functions within a limited footprint. This is achieved by carefully planning the layout of floors and utilizing materials that support such elongated designs. Another application of longitudinal construction can be observed in the design of bridges. A bridge's primary function is to span distances, making longitudinal design essential for ensuring stability and safety. Engineers must consider factors such as load distribution and material strength when implementing longitudinal construction techniques. For instance, suspension bridges rely on cables that extend longitudinally to distribute weight evenly, allowing for longer spans between supports. This not only enhances the bridge's structural integrity but also contributes to its sleek and elegant appearance. Moreover, longitudinal construction is not limited to large-scale projects. It can also be applied in residential architecture. Many homes today are designed with an open floor plan that emphasizes a flow from one room to another along a longitudinal axis. This design choice creates a sense of spaciousness and connectivity, making the home feel more inviting. By focusing on longitudinal construction, architects can maximize natural light and ventilation, contributing to a healthier living environment. The advantages of longitudinal construction extend beyond aesthetics and functionality. This approach often leads to more efficient use of materials and resources. For example, when designing a building with a longitudinal emphasis, architects can minimize waste by optimizing the use of structural elements. This not only reduces costs but also aligns with sustainable building practices, which are increasingly important in today's environmentally conscious society. In conclusion, longitudinal construction is a vital concept in the realms of engineering and architecture. Its application can be seen across various types of structures, from skyscrapers to bridges and even residential homes. By understanding and implementing this design principle, architects and engineers can create spaces that are not only functional but also visually appealing and sustainable. As we continue to innovate and push the boundaries of design, the importance of longitudinal construction will undoubtedly remain a key consideration in shaping our built environment.

在工程和建筑领域，术语纵向构造指的是一种设计方法，强调沿特定长度延伸结构。这种方法在建筑、桥梁和其他基础设施元素的创建中尤为重要，因为结构的长度在其功能性和美学吸引力中起着至关重要的作用。纵向构造的概念可以通过各种例子来说明，每个例子都展示了这种设计原则如何增强实用性和美感。 纵向构造最显著的例子之一是在现代摩天大楼的设计中。这些高耸的建筑通常通过向上有效利用垂直空间，同时保持纤细的轮廓。纵向构造的方法使建筑师能够创建不仅在视觉上引人注目，而且能够在有限的占地面积内容纳多种功能的高楼。这是通过仔细规划楼层布局并利用支持这种延长设计的材料来实现的。 纵向构造的另一个应用可以在桥梁设计中观察到。桥梁的主要功能是跨越距离，使得纵向设计对于确保稳定性和安全性至关重要。在实施纵向构造技术时，工程师必须考虑负载分布和材料强度等因素。例如，悬索桥依赖于沿纵向延伸的电缆来均匀分配重量，从而允许支撑之间的跨度更长。这不仅增强了桥梁的结构完整性，还为其流线型和优雅的外观做出了贡献。 此外，纵向构造并不限于大规模项目。它也可以应用于住宅建筑。如今，许多房屋的设计采用开放式平面图，强调沿纵向轴线从一个房间流向另一个房间。这种设计选择创造了一种宽敞和连通的感觉，使家居环境更加温馨。通过关注纵向构造，建筑师可以最大限度地利用自然光和通风，促进更健康的生活环境。 纵向构造的优势超越了美学和功能性。这种方法通常导致材料和资源的更有效使用。例如，在设计具有纵向重点的建筑时，建筑师可以通过优化结构元素的使用来最小化浪费。这不仅降低了成本，还与可持续建筑实践相一致，而这些在当今环保意识日益增强的社会中越来越重要。 总之，纵向构造是工程和建筑领域的重要概念。它的应用可以在各种类型的结构中看到，从摩天大楼到桥梁，甚至是住宅。通过理解和实施这一设计原则，建筑师和工程师可以创造出既实用又美观且可持续的空间。随着我们不断创新并推动设计的边界，纵向构造的重要性无疑将继续成为塑造我们建筑环境的关键考虑因素。