skeleton construction

简明释义

骨架构造

英英释义

例句

1.The skeleton construction 骨架结构 of the new website was developed first to ensure a good user experience.

新网站的skeleton construction 骨架结构首先被开发出来，以确保良好的用户体验。

2.The architect presented the initial design using a skeleton construction 骨架结构 to outline the building's framework.

建筑师使用skeleton construction 骨架结构展示了初步设计，以勾勒建筑的框架。

3.Teachers often use skeleton construction 骨架结构 in lesson plans to provide a clear outline of topics to be covered.

教师们经常在课程计划中使用skeleton construction 骨架结构来提供要涵盖主题的清晰大纲。

4.In software development, a skeleton construction 骨架结构 can refer to the basic structure of an application before adding detailed features.

在软件开发中，skeleton construction 骨架结构可以指应用程序的基本结构，在添加详细功能之前。

5.The team used skeleton construction 骨架结构 to create a model of the new bridge before finalizing the design.

团队使用skeleton construction 骨架结构创建了新桥的模型，然后再最终确定设计。

作文

In the realm of architecture and construction, the term skeleton construction refers to a method where a building's framework is constructed first, forming the 'skeleton' of the structure. This technique has revolutionized modern architecture, allowing for more innovative designs and efficient use of materials. The skeleton construction method typically involves using steel or reinforced concrete to create a strong and stable framework that can support various types of building materials, such as glass, brick, or wood. The advantages of skeleton construction are numerous. Firstly, it allows for greater flexibility in design. Architects can create open spaces without the need for numerous supporting walls, which is particularly beneficial in commercial buildings where large, unobstructed areas are often required. Additionally, the skeleton construction method can significantly reduce construction time. Since the framework is built first, other elements such as plumbing and electrical systems can be installed simultaneously, leading to a more streamlined construction process.Moreover, skeleton construction enhances the durability and safety of buildings. The robust framework provides a solid base that can withstand various environmental stresses, such as high winds or earthquakes. This is especially important in urban areas where buildings must comply with strict safety regulations. The use of materials like steel not only contributes to the structural integrity but also offers fire resistance, making buildings safer for occupants.However, there are challenges associated with skeleton construction. For instance, the initial cost of materials, particularly steel, can be higher than traditional construction methods. Additionally, the design and engineering processes require skilled professionals who understand the complexities of creating a safe and functional skeleton. This can lead to increased labor costs and longer planning phases.Despite these challenges, the benefits of skeleton construction make it a popular choice in modern architecture. Iconic skyscrapers, such as the Empire State Building and the Burj Khalifa, utilize this method to achieve their impressive heights and distinctive designs. These structures showcase how skeleton construction can push the boundaries of what is possible in building design, enabling architects to realize their visions while maintaining safety and functionality.In conclusion, skeleton construction is a vital concept in contemporary architecture that emphasizes the importance of a strong framework in building design. Its ability to create flexible, durable, and innovative structures has made it a preferred method among architects and builders alike. As technology continues to evolve, the future of skeleton construction holds even more potential for creativity and efficiency in the construction industry. Understanding this method is essential for anyone interested in the fields of architecture and engineering, as it represents a fundamental shift in how we approach building design and construction.

在建筑和施工领域，术语骨架结构指的是一种方法，其中建筑的框架首先建造，形成结构的“骨架”。这一技术彻底改变了现代建筑，允许更具创新性的设计和材料的有效使用。骨架结构方法通常涉及使用钢或钢筋混凝土来创建一个强大而稳定的框架，可以支撑各种类型的建筑材料，如玻璃、砖块或木材。骨架结构的优点是众多的。首先，它允许更大的设计灵活性。建筑师可以创建开放的空间，而不需要许多支撑墙，这在商业建筑中尤其有益，因为通常需要大型无障碍区域。此外，骨架结构方法可以显著减少施工时间。由于框架首先建造，其他元素如管道和电气系统可以同时安装，从而使施工过程更加流畅。此外，骨架结构增强了建筑的耐久性和安全性。坚固的框架提供了一个坚实的基础，可以承受各种环境压力，例如强风或地震。这在城市地区尤为重要，因为建筑必须遵守严格的安全法规。使用像钢这样的材料不仅有助于结构的完整性，还提供了防火能力，使建筑对居住者更安全。然而，与骨架结构相关的挑战也存在。例如，材料的初始成本，特别是钢，可能高于传统的施工方法。此外，设计和工程过程需要熟练的专业人员，他们了解创建安全和功能性骨架的复杂性。这可能导致劳动力成本增加和更长的规划阶段。尽管面临这些挑战，骨架结构的好处使其成为现代建筑中的热门选择。标志性的摩天大楼，如帝国大厦和哈利法塔，利用这种方法实现其令人印象深刻的高度和独特的设计。这些结构展示了骨架结构如何突破建筑设计的可能性，使建筑师能够实现他们的愿景，同时保持安全性和功能性。总之，骨架结构是当代建筑中的一个重要概念，强调了在建筑设计中强大框架的重要性。它创造灵活、耐用和创新结构的能力使其成为建筑师和建筑商的首选方法。随着技术的不断发展，骨架结构的未来在建筑行业中具有更大的创造力和效率潜力。理解这一方法对于任何对建筑和工程领域感兴趣的人来说都是必不可少的，因为它代表了我们在建筑设计和施工方法上的根本转变。