double curvature surface
简明释义
双曲面
英英释义
例句
1.Engineers must consider the stress distribution on a double curvature surface (双曲面) when designing aircraft wings.
工程师在设计飞机机翼时,必须考虑double curvature surface(双曲面)上的应力分布。
2.The sculpture was crafted from metal sheets, shaped into a double curvature surface (双曲面) that catches light beautifully.
这座雕塑由金属板制成,塑造成一个美丽反射光线的double curvature surface(双曲面)。
3.The design of the new sports car features a sleek body with a double curvature surface (双曲面) that enhances its aerodynamics.
新款跑车的设计采用了流线型车身,具有一个增强空气动力学性能的double curvature surface(双曲面)。
4.Architects often use double curvature surfaces (双曲面) to create visually stunning roofs that are both functional and aesthetic.
建筑师经常使用double curvature surfaces(双曲面)来创建既实用又美观的屋顶。
5.In computer graphics, rendering a double curvature surface (双曲面) can be complex but allows for more realistic models.
在计算机图形学中,渲染double curvature surface(双曲面)可能很复杂,但可以实现更逼真的模型。
作文
In the realm of architecture and design, the concept of a double curvature surface plays a crucial role in creating visually stunning and structurally sound buildings. A double curvature surface is defined as a surface that curves in two different directions, which can create complex shapes that are both aesthetically pleasing and functional. This characteristic is essential in modern architecture, where the focus is often on innovative designs that challenge traditional geometric forms.One of the most famous examples of a double curvature surface is the Guggenheim Museum in Bilbao, Spain, designed by Frank Gehry. The building’s organic shapes and flowing lines are made possible through the use of double curvature surfaces, which allow for a seamless integration of space and form. The museum has become an iconic symbol of contemporary architecture, showcasing how double curvature surfaces can transform a simple structure into a work of art.The advantages of using double curvature surfaces extend beyond aesthetics. From an engineering perspective, these surfaces can distribute loads more evenly, which can enhance the structural integrity of a building. For instance, when a roof is designed with a double curvature surface, it can shed water more effectively than a flat roof, reducing the risk of leaks and damage over time. This attribute makes double curvature surfaces particularly valuable in regions prone to heavy rainfall or snow accumulation.Moreover, the use of double curvature surfaces allows architects to explore new materials and construction techniques. With advancements in technology, such as computer-aided design (CAD) and 3D printing, creating double curvature surfaces has become more accessible. Architects can now visualize and manipulate complex geometries, leading to innovative designs that were previously unattainable. This technological evolution has opened doors to a new era of architectural creativity, where the limits of what is possible are continually being pushed.However, designing with double curvature surfaces is not without its challenges. The complexity of these surfaces can complicate the construction process, requiring highly skilled labor and precise fabrication techniques. Additionally, the cost of materials and construction can increase due to the need for custom solutions and specialized tools. Despite these challenges, many architects and designers continue to embrace double curvature surfaces for the unique opportunities they present.In conclusion, the significance of double curvature surfaces in architecture cannot be overstated. They offer a blend of beauty and functionality that is essential in modern design. As technology continues to advance, the possibilities for incorporating double curvature surfaces into buildings will only expand, allowing architects to create even more breathtaking structures that inspire and captivate. By understanding and mastering the principles behind double curvature surfaces, architects can push the boundaries of design and redefine our built environment.
在建筑和设计领域,双曲面的概念在创造视觉上令人惊叹且结构合理的建筑方面发挥着至关重要的作用。双曲面被定义为在两个不同方向上弯曲的表面,这可以创建复杂的形状,既美观又实用。这一特性在现代建筑中至关重要,因为现代建筑往往关注于挑战传统几何形式的创新设计。 双曲面最著名的例子之一是西班牙毕尔巴鄂的古根海姆博物馆,由弗兰克·盖里设计。该建筑的有机形状和流畅线条得益于双曲面的使用,使空间与形态的无缝融合成为可能。博物馆已成为当代建筑的标志性象征,展示了双曲面如何将简单结构转变为艺术作品。 使用双曲面的优势不仅限于美学。从工程的角度来看,这些表面可以更均匀地分配负载,从而增强建筑的结构完整性。例如,当屋顶设计为双曲面时,它可以比平屋顶更有效地排水,减少泄漏和长期损坏的风险。这一特性使得双曲面在降雨或积雪严重的地区特别有价值。 此外,使用双曲面还允许建筑师探索新材料和施工技术。随着计算机辅助设计(CAD)和3D打印等技术的进步,创建双曲面变得更加可行。建筑师现在可以可视化和操控复杂的几何形状,导致以前无法实现的创新设计。这一技术演变开启了建筑创意的新纪元,持续推动着可能性的边界。 然而,设计双曲面并非没有挑战。这些表面的复杂性可能会使施工过程复杂化,需要高技能的劳动力和精确的制造技术。此外,由于需要定制解决方案和专业工具,材料和施工的成本可能会增加。尽管存在这些挑战,许多建筑师和设计师仍然继续拥抱双曲面,因为它们所提供的独特机会。 总之,双曲面在建筑中的重要性不容小觑。它们提供了一种美与功能相结合的独特特性,这在现代设计中至关重要。随着技术的不断进步,将双曲面纳入建筑的可能性只会扩大,使建筑师能够创造出更令人叹为观止的结构,激励和吸引人们。通过理解和掌握双曲面背后的原理,建筑师可以突破设计的界限,重新定义我们的建筑环境。
