girder for model attachment

简明释义

船模连接梁

英英释义

例句

1.We need to select a durable girder for model attachment that can withstand heavy loads during testing.

我们需要选择一个耐用的用于模型附加的梁，以便在测试期间承受重负荷。

2.The engineer specified a girder for model attachment to ensure the structural integrity of the prototype.

工程师指定了一个用于模型附加的梁以确保原型的结构完整性。

3.The architect designed a special girder for model attachment that would allow for easy modifications in the future.

建筑师设计了一种特殊的用于模型附加的梁，以便将来可以轻松修改。

4.The girder for model attachment was crucial for aligning the various components of the model accurately.

这个用于模型附加的梁对于准确对齐模型的各个组件至关重要。

5.During the construction phase, we installed a girder for model attachment to support the weight of the framework.

在施工阶段，我们安装了一个用于模型附加的梁以支撑框架的重量。

作文

In the world of construction and architectural design, precision and stability are paramount. One of the crucial components that contribute to these qualities is the structural element known as a girder for model attachment. A girder for model attachment serves as a horizontal support beam that plays a significant role in the distribution of loads across a structure. This component is essential not only for ensuring the integrity of the building but also for providing a reliable framework for various attachments, such as models or additional structures that may be added later. When designing a building or any large structure, engineers and architects must consider the types of materials they will use and how these materials will interact with one another. The girder for model attachment is typically made from strong materials like steel or reinforced concrete, which can withstand significant weight and stress. This strength is crucial when considering the dynamic loads that a building may face, including wind, earthquakes, and the weight of the occupants and furniture inside. Moreover, the placement of the girder for model attachment within a structure is carefully planned. It is often positioned in areas where support is most needed, such as under large open spaces or where multiple floors converge. This strategic positioning helps to minimize the risk of structural failure and ensures that the building remains safe for its inhabitants. In modern architecture, the girder for model attachment has also evolved to accommodate aesthetic considerations. Architects often seek to create visually appealing designs while maintaining structural integrity. This means that the girder for model attachment must not only function effectively but also blend seamlessly into the overall design of the building. Innovative design techniques allow for the girder for model attachment to be exposed as part of the interior decor, showcasing its strength while contributing to the artistic expression of the space. In addition to its structural and aesthetic roles, the girder for model attachment is also vital in the context of sustainability. As the construction industry moves towards more environmentally friendly practices, the materials used for girders are being chosen with sustainability in mind. Recycled steel, for example, is becoming increasingly popular as it reduces waste and lowers the carbon footprint of a building project. Furthermore, the girder for model attachment can facilitate future modifications to a building. As needs change over time, having a robust and well-placed girder for model attachment allows for the easy addition of new rooms or structures without compromising the safety or integrity of the existing framework. This adaptability is essential in today’s fast-paced world, where flexibility in design can significantly enhance the longevity and usefulness of a building. In conclusion, the girder for model attachment is a vital component in construction that combines functionality, aesthetics, and sustainability. Its role in supporting structures while allowing for creative design and future adaptability makes it an indispensable element in modern architecture. Understanding the importance of the girder for model attachment not only highlights its technical significance but also emphasizes the intricate relationship between engineering and design in creating safe and beautiful spaces for people to inhabit.

在建筑和建筑设计的世界中，精确性和稳定性至关重要。一个对这些品质有重大贡献的关键组成部分是被称为模型附加用梁的结构元素。模型附加用梁作为一种水平支撑梁，在负载分配方面发挥了重要作用。这个组件不仅对确保建筑物的完整性至关重要，而且为各种附加结构（如后期可能添加的模型或其他结构）提供了可靠的框架。在设计建筑或任何大型结构时，工程师和建筑师必须考虑他们将使用的材料类型，以及这些材料之间的相互作用。模型附加用梁通常由强大的材料制成，如钢或钢筋混凝土，这些材料能够承受相当大的重量和压力。这种强度在考虑建筑物可能面临的动态负载时至关重要，包括风、地震以及内部居民和家具的重量。此外，模型附加用梁在结构内的放置经过精心规划。它通常位于需要支撑的区域，例如大型开放空间下或多个楼层交汇处。这种战略性的位置有助于最小化结构失效的风险，并确保建筑物对其居民保持安全。在现代建筑中，模型附加用梁也在适应美学考虑方面发展。建筑师常常寻求创造视觉上令人愉悦的设计，同时保持结构的完整性。这意味着模型附加用梁不仅必须有效地发挥作用，还必须无缝融入建筑的整体设计中。创新的设计技术使得模型附加用梁可以作为室内装饰的一部分暴露出来，展示其强度，同时为空间的艺术表现做出贡献。除了其结构和美学角色外，模型附加用梁在可持续性背景下也至关重要。随着建筑行业向更环保的实践转变，梁所使用的材料正以可持续性为考量标准。例如，回收钢材越来越受到欢迎，因为它减少了废物并降低了建筑项目的碳足迹。此外，模型附加用梁可以促进建筑的未来改造。随着时间的推移，需求的变化使得拥有坚固且位置合理的模型附加用梁可以轻松添加新房间或结构，而不会危及现有框架的安全性或完整性。这种适应性在当今快速发展的世界中至关重要，在这里，设计的灵活性可以显著增强建筑的耐久性和实用性。总之，模型附加用梁是建筑中一个至关重要的组成部分，它结合了功能、美学和可持续性。它在支撑结构的同时允许创造性的设计和未来的适应性，使其成为现代建筑中不可或缺的元素。理解模型附加用梁的重要性不仅突显了其技术意义，还强调了工程与设计之间复杂的关系，以创造安全而美丽的空间供人们居住。