chassisless construction

简明释义

无车身底盘结构

英英释义

例句

1.With chassisless construction, the overall vehicle height can be significantly lowered.

采用无底盘结构后，整体车辆高度可以显著降低。

2.The advantages of chassisless construction include lower manufacturing costs and easier assembly.

采用无底盘结构的优势包括较低的制造成本和更简单的组装。

3.Manufacturers are exploring chassisless construction to reduce weight and improve efficiency.

制造商正在探索无底盘结构以减轻重量并提高效率。

4.Many modern buses utilize chassisless construction to maximize passenger space.

许多现代公交车采用无底盘结构以最大化乘客空间。

5.The new electric vehicle features a chassisless construction, allowing for greater flexibility in design.

这款新电动车采用了无底盘结构，使设计更加灵活。

作文

In the world of modern engineering and architecture, the term chassisless construction refers to a building technique that eliminates the need for a traditional chassis or frame in the structural design. This innovative approach allows for greater flexibility in the design and functionality of buildings, making it an attractive option for architects and builders alike. By removing the chassis, which typically serves as the foundational support for walls, roofs, and floors, chassisless construction enables the creation of more open and spacious interiors without the constraints imposed by conventional framing methods.One of the primary advantages of chassisless construction is its potential for reducing material costs and overall weight. Traditional buildings often rely on heavy steel or wooden frames that can add significant weight to a structure. In contrast, chassisless construction utilizes lightweight materials such as advanced composites or modular components that can be easily assembled on-site. This not only decreases the amount of raw materials needed but also lowers transportation costs and the environmental impact associated with sourcing and delivering heavy construction materials.Moreover, chassisless construction offers enhanced design versatility. Architects can experiment with unconventional shapes and layouts, pushing the boundaries of creativity in their projects. Without the limitations of a rigid chassis, they can create unique architectural forms that stand out in urban landscapes. This freedom of design has led to the emergence of stunning structures that challenge traditional notions of what a building should look like.Another significant benefit of chassisless construction is its speed of assembly. As construction timelines become increasingly critical in today’s fast-paced world, the ability to quickly erect a building without the need for complex framing systems can be a game-changer. The modular nature of chassisless construction allows for prefabricated components to be manufactured off-site and then assembled on location, significantly reducing the time required for construction. This efficiency can lead to faster occupancy, enabling businesses and residents to move in sooner than traditional building methods would allow.However, chassisless construction is not without its challenges. The technology and materials used must be carefully engineered to ensure structural integrity and safety. There is also a learning curve for builders and contractors who may be accustomed to traditional construction methods. Training and education will be essential to fully realize the potential of chassisless construction and to address any concerns regarding durability and performance over time.In conclusion, chassisless construction represents a significant advancement in the field of architecture and engineering. Its benefits, including reduced material costs, design flexibility, and faster construction times, make it an appealing choice for modern building projects. As technology continues to evolve, it is likely that we will see an increasing number of structures utilizing this innovative approach, transforming the way we think about and construct our built environment. The future of architecture may very well lie in the hands of chassisless construction, paving the way for a new era of sustainable and creative building practices.

在现代工程和建筑的世界中，术语无底盘构造指的是一种建筑技术，该技术消除了传统底盘或框架在结构设计中的必要性。这种创新的方法允许建筑师和施工者在建筑的设计和功能上获得更大的灵活性，使其成为一个吸引人的选择。通过去除通常作为墙壁、屋顶和地板基础支撑的底盘，无底盘构造使得可以创建更开放和宽敞的内部空间，而不受传统框架方法施加的限制。无底盘构造的主要优势之一是它有潜力降低材料成本和整体重量。传统建筑通常依赖于重型钢或木框架，这可能会给结构增加显著的重量。相比之下，无底盘构造利用轻质材料，如先进的复合材料或模块化组件，可以在现场轻松组装。这不仅减少了所需原材料的数量，还降低了运输成本以及与采购和交付重型建筑材料相关的环境影响。此外，无底盘构造提供了增强的设计多样性。建筑师可以尝试非常规形状和布局，推动项目创意的边界。没有刚性底盘的限制，他们可以创造出在城市景观中脱颖而出的独特建筑形式。这种设计自由促使了引人注目的结构的出现，挑战了传统对建筑外观的看法。无底盘构造的另一个重要好处是其组装速度。随着建筑时间表在当今快节奏的世界中变得越来越关键，能够迅速建造一座没有复杂框架系统的建筑可能是一个改变游戏规则的因素。无底盘构造的模块化特性允许在现场组装预制组件，从而显著减少了施工所需的时间。这种效率可以导致更快的入住，使企业和居民能够比传统建筑方法更早搬入。然而，无底盘构造并非没有挑战。使用的技术和材料必须经过精心设计，以确保结构完整性和安全性。对于可能习惯于传统建筑方法的建筑商和承包商来说，也存在学习曲线。培训和教育将是充分实现无底盘构造潜力的关键，并解决有关耐用性和长期性能的任何担忧。总之，无底盘构造代表了建筑和工程领域的重要进步。其优点，包括降低材料成本、设计灵活性和更快的施工时间，使其成为现代建筑项目的一个吸引人选择。随着技术的不断发展，我们很可能会看到越来越多的结构采用这种创新的方法，改变我们对建筑环境的思考和构建方式。建筑的未来可能确实掌握在无底盘构造的手中，为可持续和创造性的建筑实践的新纪元铺平道路。