arcuation

简明释义

英[ˌɑːkjʊˈeɪʃən]美[ˌɑrkjʊˈeʃən]

n. 弯曲；弧形；拱形结构的使用；拱形结构

英英释义

单词用法

同义词

反义词

例句

1.Objective: Regulate imbalance of dynamic equilibrium of neck soft tissue and treat the anteriad arcuation of cervical vertebrae by acupotomy.

结论：针刀松解术是治疗软组织粘连、瘢痕、挛缩、堵塞造成后颈部软组织动态平衡失调的最有效的方法。

2.Regulate imbalance of dynamic equilibrium of neck soft tissue and treat the anteriad arcuation of cervical vertebrae by acupotomy.

调节颈部软组织的动平衡失衡，并通过针灸治疗颈椎弓曲。

3.Objective: Regulate imbalance of dynamic equilibrium of neck soft tissue and treat the anteriad arcuation of cervical vertebrae by acupotomy.

结论：针刀松解术是治疗软组织粘连、瘢痕、挛缩、堵塞造成后颈部软组织动态平衡失调的最有效的方法。

4.The architect emphasized the importance of arcuation in the design of the new bridge.

建筑师强调了在新桥设计中弧形结构的重要性。

5.In her painting, the artist used arcuation to create a sense of movement.

在她的画作中，艺术家使用弧形结构来创造一种运动感。

6.The arcuation of the roof allows for better water drainage.

屋顶的弧形结构可以更好地排水。

7.During the lecture, the professor explained how arcuation affects the stability of arches.

在讲座中，教授解释了弧形结构如何影响拱门的稳定性。

8.The ancient Roman aqueducts are a perfect example of arcuation used in engineering.

古罗马的水道是工程中使用弧形结构的完美例子。

作文

In the realm of architecture and design, the concept of arcuation (拱形) plays a crucial role in the aesthetic and structural integrity of buildings. The term refers to the curvature or arching of a structure, often seen in bridges, arches, and other architectural elements. Understanding arcuation is essential for architects and engineers as it influences not only the visual appeal of a structure but also its stability and strength.Historically, the use of arcuation can be traced back to ancient civilizations. The Romans, for instance, mastered the art of arch construction, which allowed them to build enduring structures such as aqueducts and amphitheaters. These arches, characterized by their curved shape, distribute weight more evenly than flat surfaces, enabling the creation of larger and more open spaces. This innovation marked a significant advancement in engineering and architecture, showcasing how arcuation could enhance both functionality and beauty.In contemporary design, arcuation continues to inspire architects to push boundaries. Modern buildings often incorporate curved forms and arches, reflecting a departure from traditional linear designs. For example, the Sydney Opera House is renowned for its sail-like arcuation, which not only serves an artistic purpose but also contributes to the building's acoustics and overall performance. Such examples illustrate how the integration of arcuation can create iconic landmarks that resonate with people on multiple levels.Moreover, the principles of arcuation are not limited to physical structures; they can also be applied in various forms of art and design. Graphic designers, for instance, utilize curves and arches to create visually appealing layouts that guide the viewer's eye. In painting, artists may employ arcuation to evoke movement and flow, drawing attention to specific elements within the artwork. This versatility highlights the importance of arcuation beyond mere structural considerations, emphasizing its role in enhancing creativity and expression.In addition to its aesthetic implications, arcuation serves practical purposes in the field of engineering. The curvature of an arch can significantly affect the distribution of forces, making it a vital consideration in the design of bridges and other load-bearing structures. Engineers must carefully analyze the arcuation of materials to ensure that they can withstand various stresses and loads over time. This scientific approach underscores the intersection of art and science in architectural design, where the beauty of arcuation must align with engineering principles for successful outcomes.As we move forward, the exploration of arcuation will likely continue to evolve. With advancements in technology and materials, architects and designers are equipped to experiment with new forms of curvature that challenge conventional norms. The future of architecture may see even more innovative uses of arcuation, leading to structures that are not only visually stunning but also environmentally sustainable and efficient.In conclusion, arcuation (拱形) is a fundamental concept that intertwines aesthetics, engineering, and artistry. Its historical significance, contemporary applications, and future potential make it a vital area of study for anyone involved in design and architecture. By embracing the principles of arcuation, we can create spaces that inspire and endure, reflecting the beauty of our built environment for generations to come.

在建筑和设计领域，arcuation（拱形）的概念在建筑物的美学和结构完整性中扮演着至关重要的角色。这个术语指的是结构的曲率或拱形，通常可以在桥梁、拱门和其他建筑元素中看到。理解arcuation对建筑师和工程师来说至关重要，因为它不仅影响结构的视觉吸引力，还影响其稳定性和强度。从历史上看，arcuation的使用可以追溯到古代文明。例如，罗马人掌握了拱形结构的艺术，使他们能够建造持久的结构，如渡槽和圆形剧场。这些拱门以其曲线形状为特征，能够比平面表面更均匀地分配重量，从而使得创建更大和更开放的空间成为可能。这一创新标志着工程和建筑方面的重大进步，展示了arcuation如何增强功能性和美观性。在当代设计中，arcuation继续激励建筑师突破界限。现代建筑通常采用曲线形状和拱形，反映出对传统线性设计的偏离。例如，悉尼歌剧院因其帆状的arcuation而闻名，这不仅服务于艺术目的，还促进了建筑的声学效果和整体性能。这些例子说明了arcuation的整合如何创造出具有标志性的地标，能够在多个层面上与人们产生共鸣。此外，arcuation的原理并不仅限于物理结构；它们也可以应用于各种艺术和设计形式。例如，平面设计师利用曲线和拱形来创建视觉上吸引人的布局，引导观众的视线。在绘画中，艺术家可能会运用arcuation来唤起运动和流动，吸引观众注意作品中的特定元素。这种多样性突显了arcuation在超越单纯结构考虑方面的重要性，强调了它在增强创造力和表现力中的作用。除了美学影响外，arcuation在工程领域也具有实际用途。拱形的曲率可以显著影响力量的分布，使其成为桥梁和其他承重结构设计中的重要考虑因素。工程师必须仔细分析材料的arcuation，以确保它们能够承受各种压力和负载。这种科学方法强调了艺术与科学在建筑设计中的交汇点，在这里，arcuation的美感必须与工程原理相一致，以实现成功的结果。随着我们向前发展，arcuation的探索可能会继续演变。随着技术和材料的进步，建筑师和设计师有能力尝试新的曲率形式，挑战传统规范。建筑的未来可能会看到对arcuation的更具创新性的使用，导致不仅视觉上令人惊叹，而且在环境可持续性和效率方面也表现出色的结构。总之，arcuation（拱形）是一个基本概念，交织着美学、工程和艺术。它的历史意义、当代应用和未来潜力使其成为任何参与设计和建筑的人都必须研究的重要领域。通过拥抱arcuation的原则，我们可以创造出激励和持久的空间，反映我们建筑环境的美丽，为后代留下深远的影响。