arcuate construction

简明释义

拱式构造;

英英释义

例句

1.The bridge features an impressive arcuate construction that allows for both strength and aesthetic appeal.

这座桥采用了令人印象深刻的弧形结构，既坚固又美观。

2.In architecture, the use of arcuate construction can create open spaces without the need for excessive support beams.

在建筑中，使用弧形结构可以创造开放空间，而无需过多的支撑梁。

3.The museum's entrance features a grand arcuate construction that draws visitors in.

博物馆的入口采用了宏伟的弧形结构，吸引了游客。

4.Engineers often choose arcuate construction for stadiums to enhance acoustics and sightlines.

工程师们通常选择弧形结构用于体育场，以增强声学效果和视线。

5.The ancient Roman aqueducts are a classic example of arcuate construction that has stood the test of time.

古罗马的输水道是一个经典的弧形结构例子，经受住了时间的考验。

作文

The term arcuate construction refers to a specific architectural style characterized by the use of arches. This technique has been employed throughout history, from ancient Roman aqueducts to modern bridges. The beauty of arcuate construction lies not only in its aesthetic appeal but also in its structural advantages. Arches can distribute weight more evenly than straight beams, allowing for larger spans and more open spaces within buildings.In ancient Rome, the mastery of arcuate construction was evident in structures such as the Colosseum and the Pantheon. These monumental buildings showcased the strength and durability of arches, which were essential for supporting heavy roofs and creating vast interior spaces. The Romans used a variety of materials, including stone and concrete, to construct their arches, demonstrating their innovative approach to engineering.As the centuries progressed, the principles of arcuate construction continued to influence architects and builders. During the Gothic period, for instance, the use of pointed arches became prevalent. This adaptation allowed for even taller structures, such as cathedrals, which reached new heights with their soaring ceilings and intricate designs. The combination of light and space created by arcuate construction in these buildings is breathtaking, drawing visitors from around the world.In contemporary architecture, the legacy of arcuate construction remains strong. Modern engineers utilize advanced materials and technologies to push the boundaries of what is possible with arches. For example, the Sydney Harbour Bridge and the Millau Viaduct in France exemplify how traditional arch techniques can be applied in innovative ways to create iconic structures that are both functional and visually stunning.Moreover, the ecological benefits of arcuate construction cannot be overlooked. By utilizing arches, architects can design buildings that require less material without compromising strength. This efficiency contributes to sustainability efforts in construction, aligning with modern environmental goals. As we face challenges related to climate change and resource depletion, the principles of arcuate construction offer valuable insights into creating structures that are not only beautiful but also responsible.In conclusion, the concept of arcuate construction encompasses a rich history of architectural innovation. From the grandeur of ancient Rome to the sleek lines of modern design, arches have played a crucial role in shaping our built environment. Understanding the significance of arcuate construction allows us to appreciate the artistry and engineering prowess that continues to inspire architects today. As we look to the future, embracing the lessons learned from this timeless technique will undoubtedly lead to more sustainable and aesthetically pleasing structures for generations to come.

“弧形结构”一词指的是一种特定的建筑风格，其特点是使用拱门。这种技术在历史上得到了广泛应用，从古罗马的水道桥到现代的桥梁。“弧形结构”的美不仅在于其美学吸引力，还在于其结构优势。拱门能够比直梁更均匀地分配重量，从而允许更大的跨度和建筑内部的更开放空间。在古罗马，“弧形结构”的精湛技艺在斗兽场和万神殿等建筑中得到了体现。这些宏伟的建筑展示了拱门的强度和耐久性，这对支撑重屋顶和创造宽敞的内部空间至关重要。罗马人使用石材和混凝土等多种材料来建造他们的拱门，展现了他们在工程方面的创新思维。随着世纪的推移，“弧形结构”的原则继续影响着建筑师和建筑工人。例如，在哥特时期，尖拱的使用变得普遍。这种适应使得更高的建筑成为可能，例如大教堂，以其高耸的天花板和复杂的设计达到了新的高度。“弧形结构”所创造的光线与空间的结合令人惊叹，吸引着来自世界各地的游客。在当代建筑中，“弧形结构”的遗产依然强烈。现代工程师利用先进的材料和技术，推动了拱门在创新方式中的应用。例如，悉尼海港大桥和法国米劳高架桥就是如何将传统拱门技术应用于创造既功能性又视觉上令人惊叹的标志性结构的典范。此外，“弧形结构”的生态效益也不容忽视。通过利用拱门，建筑师可以设计出所需材料更少的建筑，而不会妨碍其强度。这种效率有助于建筑的可持续性努力，与现代环境目标相一致。面对气候变化和资源枯竭等挑战，“弧形结构”的原则为创建不仅美观而且负责任的结构提供了宝贵的见解。总之，“弧形结构”这一概念涵盖了丰富的建筑创新历史。从古罗马的宏伟到现代设计的流畅线条，拱门在塑造我们的建筑环境中发挥了至关重要的作用。理解“弧形结构”的重要性使我们能够欣赏到艺术与工程才能的结合，而这种才能至今仍在激励着建筑师。展望未来，拥抱从这一永恒技术中汲取的教训，无疑将为未来几代人创造出更可持续和美观的建筑。