freely supported structure

简明释义

简支结构

英英释义

例句

1.In architecture, a freely supported structure can offer more open space without the need for internal columns.

在建筑学中，自由支撑结构可以提供更多开放空间，而无需内部柱子。

2.The bridge was designed as a freely supported structure, allowing for natural movement during high winds.

这座桥被设计为一个自由支撑结构，以便在强风中自然移动。

3.The designer emphasized that a freely supported structure is essential for maximizing light and air flow in the room.

设计师强调，自由支撑结构对于最大化房间内的光线和空气流通至关重要。

4.Engineers often prefer a freely supported structure for its flexibility in adapting to environmental changes.

工程师通常更喜欢自由支撑结构，因为它在适应环境变化方面具有灵活性。

5.A freely supported structure can be particularly advantageous in seismic zones due to its ability to absorb shocks.

在地震带，自由支撑结构特别有利，因为它能够吸收冲击。

作文

In the realm of architecture and engineering, the concept of a freely supported structure plays a crucial role in the design and functionality of various buildings and infrastructures. A freely supported structure refers to a type of construction that is supported at specific points, allowing it to bear loads without the need for continuous support along its length. This design approach offers numerous advantages, including flexibility in layout, ease of construction, and the ability to create open spaces that are aesthetically pleasing and functional.One of the most notable examples of a freely supported structure is the cantilever beam. This structural element extends beyond its support point, creating an overhang that can be used for balconies, bridges, or even large roof structures. The cantilever design allows for expansive open areas underneath, which can be utilized for various purposes, such as outdoor seating or parking. Additionally, this type of structure provides an opportunity for architects to experiment with innovative designs and materials, leading to unique and eye-catching buildings.The benefits of employing a freely supported structure extend beyond aesthetics. From a practical standpoint, these structures often require less material than traditional continuous support systems, making them more cost-effective. The reduced material usage not only lowers construction costs but also contributes to sustainability efforts by minimizing waste and resource consumption. Furthermore, the simplicity of the design can lead to faster construction times, allowing projects to be completed efficiently and within budget.However, designing a freely supported structure does come with its challenges. Engineers must carefully consider the load distribution and potential stress points to ensure the safety and stability of the structure. Proper calculations and simulations are essential to predict how the structure will behave under various conditions, including wind, seismic activity, and the weight of occupants or equipment. Failure to account for these factors can result in structural failure, leading to costly repairs or even catastrophic accidents.In conclusion, the concept of a freely supported structure is integral to modern architecture and engineering. Its ability to create open, flexible spaces while providing cost-effective solutions makes it a popular choice among designers and builders. As technology continues to advance, we can expect to see even more innovative applications of freely supported structures, pushing the boundaries of what is possible in construction. Ultimately, understanding and mastering this concept will allow future generations of architects and engineers to design safe, functional, and visually stunning environments that enhance our quality of life.

在建筑和工程领域，自由支撑结构的概念在各种建筑和基础设施的设计和功能中发挥着至关重要的作用。自由支撑结构指的是一种在特定点支撑的建筑类型，使其能够承载负荷，而无需沿其长度提供连续支撑。这种设计方法提供了许多优点，包括布局灵活性、施工简便性，以及创造美观且功能齐全的开放空间的能力。其中一个最显著的例子是悬臂梁。这种结构元件超出其支撑点延伸，形成一个悬挑，可以用于阳台、桥梁甚至大型屋顶结构。悬臂设计允许下面有广阔的开放区域，可以用于各种目的，例如户外座位或停车。此外，这种类型的结构为建筑师提供了实验创新设计和材料的机会，从而导致独特而引人注目的建筑。采用自由支撑结构的好处不仅限于美学。从实用的角度来看，这些结构通常比传统的连续支撑系统所需的材料更少，从而使其更具成本效益。减少材料的使用不仅降低了施工成本，还通过减少废物和资源消耗来促进可持续发展。此外，设计的简单性可以缩短施工时间，使项目能够高效完成并控制在预算之内。然而，设计自由支撑结构也面临挑战。工程师必须仔细考虑负荷分布和潜在的应力点，以确保结构的安全性和稳定性。适当的计算和模拟对于预测结构在各种条件下的表现至关重要，包括风力、地震活动以及人员或设备的重量。如果未能考虑这些因素，可能会导致结构失败，从而导致昂贵的维修或甚至灾难性的事故。总之，自由支撑结构的概念对现代建筑和工程至关重要。它能够创造开放、灵活的空间，同时提供成本效益解决方案，使其成为设计师和建筑商的热门选择。随着技术的不断进步，我们可以期待看到更多创新的自由支撑结构应用，推动建筑可能性的边界。最终，理解和掌握这一概念将使未来一代建筑师和工程师能够设计安全、功能性强且视觉上令人惊叹的环境，从而提升我们的生活质量。