rigid construction

简明释义

刚性结构

英英释义

例句

1.In manufacturing, rigid construction is essential for producing durable products.

在制造业中，刚性结构对于生产耐用产品至关重要。

2.Due to its rigid construction, the vehicle offers excellent protection in a crash.

由于其刚性结构，该车辆在碰撞中提供了出色的保护。

3.The designer chose a rigid construction for the sculpture to maintain its shape over time.

设计师选择了刚性结构来确保雕塑随着时间的推移保持形状。

4.The building's rigid construction ensures it can withstand strong earthquakes.

这座建筑的刚性结构确保它能抵御强烈的地震。

5.Engineers often prefer rigid construction for bridges to enhance stability.

工程师们通常更喜欢使用刚性结构来增强桥梁的稳定性。

作文

In the realm of architecture and engineering, the term rigid construction refers to a building method that emphasizes stability and strength through the use of solid materials and structural elements. This approach is often employed in the design of skyscrapers, bridges, and other large structures where safety and durability are paramount. The concept of rigid construction can be contrasted with flexible construction methods, which allow for more movement and adaptability in response to environmental forces such as wind or earthquakes.One of the primary advantages of rigid construction is its ability to withstand various loads and stresses. For example, when designing a high-rise building, engineers must consider not only the weight of the structure itself but also the impact of external forces like wind pressure and seismic activity. By utilizing rigid construction techniques, architects can create designs that are not only aesthetically pleasing but also structurally sound. This is achieved through the use of materials such as steel and reinforced concrete, which provide the necessary strength and rigidity.Moreover, rigid construction plays a crucial role in ensuring the longevity of a structure. Buildings constructed with this method tend to have a longer lifespan due to their robust nature. This is particularly important in urban areas where real estate is valuable, and the cost of construction is high. A well-constructed building using rigid construction principles can endure the test of time, requiring less frequent repairs and renovations.However, it is essential to note that rigid construction is not without its drawbacks. One significant limitation is the lack of flexibility in design. While rigid structures are strong, they can be less adaptable to changes in use or function over time. For instance, if a building designed with rigid construction needs to be repurposed, significant modifications may be required, which can be costly and time-consuming. In contrast, buildings designed with more flexible construction methods can be more easily adapted to new uses, making them potentially more versatile in the long run.Additionally, the environmental impact of rigid construction cannot be overlooked. The materials used in this type of construction, such as concrete and steel, often have a high carbon footprint due to the energy-intensive processes involved in their production. As the world becomes increasingly aware of climate change and sustainability issues, architects and engineers are challenged to find a balance between the benefits of rigid construction and the need for environmentally friendly practices.In conclusion, rigid construction remains a cornerstone of modern architecture and engineering, providing the strength and stability required for large-scale projects. While it offers numerous advantages, including durability and longevity, it also presents challenges related to flexibility and environmental impact. As the field continues to evolve, it is essential for professionals to explore innovative solutions that incorporate the strengths of rigid construction while addressing its limitations. Ultimately, the goal is to create structures that not only stand the test of time but also contribute positively to the environment and the communities they serve.

在建筑和工程领域，术语rigid construction指的是一种建筑方法，强调通过使用坚固的材料和结构元素来实现稳定性和强度。这种方法通常用于摩天大楼、桥梁和其他大型结构的设计中，在这些结构中，安全性和耐久性至关重要。rigid construction的概念可以与灵活的建筑方法形成对比，后者允许在应对风或地震等环境力量时有更多的运动和适应性。rigid construction的主要优点之一是其能够承受各种负载和压力。例如，在设计高层建筑时，工程师必须考虑到不仅是建筑本身的重量，还要考虑外部力量如风压和地震活动的影响。通过利用rigid construction技术，建筑师可以创建既美观又结构坚固的设计。这是通过使用钢材和钢筋混凝土等材料来实现的，这些材料提供了必要的强度和刚性。此外，rigid construction在确保结构的耐久性方面也起着至关重要的作用。采用这种方法建造的建筑由于其坚固的特性，往往具有更长的使用寿命。这在房地产价值高、建筑成本昂贵的城市地区尤为重要。使用rigid construction原则精心建造的建筑可以经受住时间的考验，需要更少的维修和翻新。然而，值得注意的是，rigid construction并非没有缺点。一个显著的限制是设计的灵活性不足。虽然刚性结构很强，但在使用或功能变化时，它们可能不够适应。例如，如果一栋采用rigid construction设计的建筑需要重新利用，可能需要进行重大修改，这可能会耗费成本和时间。相比之下，采用更灵活的建筑方法设计的建筑可以更容易地适应新的用途，从长远来看可能更具多样性。此外，rigid construction的环境影响也不容忽视。这种类型的建筑中使用的材料，如混凝土和钢铁，由于其生产过程中能量密集型的特性，往往具有较高的碳足迹。随着世界对气候变化和可持续性问题的日益关注，建筑师和工程师面临着在rigid construction的好处与环保实践之间找到平衡的挑战。总之，rigid construction仍然是现代建筑和工程的基石，为大型项目提供所需的强度和稳定性。虽然它提供了许多优点，包括耐久性和长寿命，但也面临与灵活性和环境影响相关的挑战。随着该领域的不断发展，专业人士必须探索创新解决方案，结合rigid construction的优势，同时解决其局限性。最终目标是创造出不仅经得起时间考验，而且对环境和服务的社区产生积极贡献的结构。