combination construction

简明释义

混合结构

英英释义

例句

1.The new residential complex features a combination construction of concrete and glass for modern aesthetics.

新的住宅综合体采用了混凝土和玻璃的组合结构，展现出现代美学。

2.In civil engineering, combination construction techniques can enhance the stability of bridges.

在土木工程中，组合结构技术可以增强桥梁的稳定性。

3.The architect designed a unique building using a combination construction that blends steel and wood.

建筑师设计了一座独特的建筑，采用了组合结构，将钢材和木材结合在一起。

4.The combination construction of various materials allows for more creative architectural designs.

各种材料的组合结构允许更具创意的建筑设计。

5.Using combination construction, the team was able to reduce costs while maintaining quality.

通过使用组合结构，团队能够在保持质量的同时降低成本。

作文

In the field of architecture and design, the concept of combination construction plays a crucial role in creating innovative structures that meet both aesthetic and functional needs. 组合建筑 refers to the method of integrating various construction techniques and materials to form a cohesive and efficient building. This approach not only enhances the visual appeal of a structure but also improves its durability and sustainability. One of the primary advantages of combination construction is its flexibility. Architects can choose from a wide range of materials such as wood, steel, concrete, and glass, allowing them to tailor each project to the specific requirements of its environment and purpose. For example, a building designed for a coastal area may utilize corrosion-resistant materials combined with traditional wood to create a unique aesthetic while ensuring longevity against harsh weather conditions. This adaptability is essential in modern architecture, where climate change and environmental factors increasingly influence design decisions.Furthermore, combination construction allows for innovative architectural styles that blend different cultural influences. In cities where historical buildings coexist with modern skyscrapers, architects often employ this technique to create structures that honor the past while embracing contemporary design elements. This fusion can be seen in various iconic buildings around the world, where traditional motifs are combined with modern materials and forms, resulting in a dialogue between history and innovation.Another significant benefit of combination construction is its potential for enhancing energy efficiency. By combining materials with different thermal properties, architects can optimize a building's insulation and reduce energy consumption. For instance, using a combination of high-performance glazing and insulated walls can significantly lower heating and cooling costs. Additionally, incorporating renewable energy sources, such as solar panels, into the design further emphasizes the importance of sustainability in modern construction practices.However, the successful implementation of combination construction requires careful planning and collaboration among various stakeholders, including architects, engineers, and contractors. Each material and technique must be thoughtfully integrated to ensure structural integrity and coherence in design. This collaborative process often leads to more creative solutions and innovative designs, ultimately benefiting the end-users by providing them with functional and aesthetically pleasing spaces.In conclusion, combination construction represents a forward-thinking approach in architecture that embraces diversity in materials and techniques. As the industry continues to evolve, the integration of different construction methods will likely become even more prevalent, enabling architects to push the boundaries of design while addressing the pressing challenges of our time. The future of architecture lies in the ability to harmonize various elements into a unified whole, creating spaces that are not only beautiful but also sustainable and resilient. As we move forward, understanding and mastering the principles of combination construction will be essential for architects and designers aiming to make a lasting impact on the built environment.

在建筑和设计领域，组合建筑的概念在创造满足美学和功能需求的创新结构中发挥着至关重要的作用。组合建筑指的是将各种建筑技术和材料整合在一起，形成一个统一高效的建筑的方法。这种方法不仅增强了结构的视觉吸引力，还提高了其耐久性和可持续性。组合建筑的主要优势之一是其灵活性。建筑师可以从木材、钢铁、混凝土和玻璃等多种材料中选择，使他们能够根据环境和用途的具体要求量身定制每个项目。例如，为海岸地区设计的建筑可能会利用耐腐蚀材料与传统木材相结合，以创造独特的美学，同时确保在恶劣天气条件下的持久性。这种适应性在现代建筑中至关重要，因为气候变化和环境因素日益影响设计决策。此外，组合建筑还允许不同文化影响的创新建筑风格。在历史建筑与现代摩天大楼共存的城市中，建筑师常常采用这种技术来创造尊重过去同时又融入当代设计元素的结构。这种融合可以在世界各地的各种标志性建筑中看到，其中传统的图案与现代材料和形式相结合，形成历史与创新之间的对话。组合建筑的另一个重要好处是其提高能源效率的潜力。通过结合具有不同热性能的材料，建筑师可以优化建筑的绝缘性能，减少能源消耗。例如，使用高性能玻璃和绝缘墙体的组合可以显著降低供暖和制冷成本。此外，将可再生能源源（如太阳能电池板）纳入设计中，进一步强调了可持续性在现代建筑实践中的重要性。然而，成功实施组合建筑需要各方参与者之间的仔细规划和合作，包括建筑师、工程师和承包商。每种材料和技术都必须经过深思熟虑的整合，以确保结构的完整性和设计的一致性。这一协作过程通常会导致更具创造性的解决方案和创新的设计，最终使最终用户受益，提供功能性和美观的空间。总之，组合建筑代表了一种前瞻性的建筑方法，拥抱材料和技术的多样性。随着行业的不断发展，不同建筑方法的结合可能会变得更加普遍，使建筑师能够突破设计的界限，同时应对我们时代的紧迫挑战。建筑的未来在于将各种元素和谐地融为一体，创造出既美观又可持续和韧性的空间。随着我们向前迈进，理解和掌握组合建筑的原则对于旨在对建筑环境产生持久影响的建筑师和设计师来说将是至关重要的。