built-up sectional material

简明释义

组合型材

英英释义

例句

1.In the construction of high-rise buildings, built-up sectional material is often preferred for its strength and flexibility.

在高层建筑的施工中，通常优先选择组合截面材料，因为它具有强度和灵活性。

2.The engineers decided to use built-up sectional material for the new bridge design, ensuring it could withstand heavy loads.

工程师们决定在新桥设计中使用组合截面材料，以确保其能够承受重载。

3.Using built-up sectional material can reduce the overall weight of the structure without compromising safety.

使用组合截面材料可以在不影响安全性的情况下减少结构的整体重量。

4.The factory specializes in producing built-up sectional material for various structural applications.

该工厂专门生产用于各种结构应用的组合截面材料。

5.Architects are increasingly turning to built-up sectional material for innovative design solutions.

建筑师们越来越多地转向组合截面材料以寻求创新的设计方案。

作文

In the field of engineering and construction, the term built-up sectional material refers to a type of structural component that is created by assembling various sections or parts together to form a larger, more complex structure. This approach allows engineers and architects to design buildings and other structures that are both strong and lightweight, optimizing the use of materials while ensuring safety and durability. The use of built-up sectional material has become increasingly popular in modern construction due to its versatility and efficiency. One of the primary advantages of using built-up sectional material is that it enables the creation of custom shapes and sizes that can meet specific design requirements. For instance, when constructing a bridge, engineers may choose to use built-up sectional material to create beams that can support heavy loads while spanning long distances. This method not only enhances the structural integrity of the bridge but also reduces the overall weight of the materials used, leading to cost savings and easier transportation. Moreover, the use of built-up sectional material can significantly improve the sustainability of construction projects. By allowing for the efficient use of resources, this technique minimizes waste and reduces the environmental impact of building activities. For example, when constructing high-rise buildings, developers often opt for built-up sectional material to create lighter yet strong frameworks that require less energy to produce and transport. This contributes to more sustainable construction practices and aligns with global efforts to reduce carbon footprints. In addition to its benefits in terms of strength and sustainability, built-up sectional material also offers aesthetic advantages. Architects can utilize this material to create visually appealing designs that stand out in urban environments. The ability to combine different materials, such as steel and concrete, allows for innovative architectural expressions that capture the imagination. For example, many modern skyscrapers feature intricate facades made from built-up sectional material, showcasing unique patterns and textures that enhance the overall visual impact of the building. However, working with built-up sectional material does come with its challenges. Engineers must carefully consider factors such as load distribution, stress points, and potential weaknesses in the joints where sections are connected. Proper design and fabrication techniques are crucial to ensure that the assembled components work together effectively and can withstand the forces they will encounter over time. Additionally, rigorous testing and quality control measures are essential to guarantee the safety and reliability of structures built with built-up sectional material. In conclusion, the use of built-up sectional material has revolutionized the way we approach construction and engineering. Its ability to combine strength, sustainability, and aesthetic appeal makes it a favored choice among professionals in the industry. As technology continues to advance, we can expect to see even more innovative applications of built-up sectional material, paving the way for a future where our built environment is not only functional but also inspiring. Understanding and mastering the concept of built-up sectional material is essential for anyone looking to make a significant impact in the field of construction and design.

在工程和建筑领域，术语built-up sectional material指的是通过将各种部分或部分组装在一起形成更大、更复杂结构的一种结构组件。这种方法使工程师和建筑师能够设计出既坚固又轻便的建筑和其他结构，优化材料的使用，同时确保安全性和耐久性。由于其多功能性和高效性，使用built-up sectional material在现代建筑中变得越来越流行。使用built-up sectional material的主要优点之一是，它可以创建符合特定设计要求的自定义形状和尺寸。例如，在建造桥梁时，工程师可能选择使用built-up sectional material来创建可以支持重载并跨越长距离的梁。这种方法不仅增强了桥梁的结构完整性，还减少了所用材料的整体重量，从而节省成本并简化运输。此外，使用built-up sectional material还可以显著提高建筑项目的可持续性。通过允许有效利用资源，这种技术最小化了浪费，并减少了建筑活动对环境的影响。例如，在建造高层建筑时，开发商通常选择使用built-up sectional material来创建更轻但强度更高的框架，这需要更少的能量进行生产和运输。这有助于更可持续的建筑实践，并与全球减少碳足迹的努力保持一致。除了在强度和可持续性方面的好处外，built-up sectional material还提供了美学优势。建筑师可以利用这种材料创造出在城市环境中脱颖而出的视觉吸引力设计。结合不同材料（如钢和混凝土）的能力，使创新的建筑表现成为可能，激发想象力。例如，许多现代摩天大楼的外立面采用了由built-up sectional material制成的复杂设计，展示了独特的图案和纹理，增强了建筑整体的视觉冲击力。然而，处理built-up sectional material也带来了挑战。工程师必须仔细考虑负载分布、应力点和连接处可能存在的弱点。适当的设计和制造技术对于确保组装的组件有效协同工作并能承受随时间推移所遇到的力至关重要。此外，严格的测试和质量控制措施对于保证使用built-up sectional material建造的结构的安全性和可靠性至关重要。总之，使用built-up sectional material彻底改变了我们对建筑和工程的看法。它结合了强度、可持续性和美学吸引力，使其成为行业专业人士的首选。随着技术的不断进步，我们可以期待看到built-up sectional material的更多创新应用，为我们的建筑环境不仅具有功能性而且富有启发性的未来铺平道路。理解和掌握built-up sectional material的概念对于任何希望在建筑和设计领域产生重大影响的人来说都是至关重要的。