composite structure

简明释义

1. 复合结构; 2. 混合结构;

英英释义

例句

1.Researchers are exploring new materials for composite structures in automotive applications.

研究人员正在探索用于汽车应用的新材料，以制造复合结构。

2.The bridge was designed with a composite structure to enhance its strength and durability.

这座桥的设计采用了复合结构，以增强其强度和耐久性。

3.In aerospace engineering, composite structures are used to reduce weight without sacrificing performance.

在航空航天工程中，复合结构被用来减少重量而不牺牲性能。

4.The architect proposed a building with a composite structure to improve energy efficiency.

建筑师提议建造一座采用复合结构的建筑，以提高能效。

5.The composite structure of the aircraft fuselage provides better resistance to fatigue.

飞机机身的复合结构提供了更好的抗疲劳能力。

作文

In the field of engineering and architecture, the term composite structure refers to a construction that combines materials with different properties to create a more efficient and stronger overall system. This innovative approach allows designers and builders to utilize the best characteristics of each material, resulting in structures that can withstand various environmental challenges while also being cost-effective. For example, in modern skyscrapers, steel and concrete are often used together; steel provides tensile strength, while concrete offers compressive strength. The synergy between these materials exemplifies the essence of a composite structure, as they work together to enhance the building's performance.The advantages of using a composite structure are numerous. Firstly, it allows for greater design flexibility. Architects can create unique shapes and forms that would be difficult or impossible to achieve with traditional materials alone. This flexibility not only enhances aesthetic appeal but also improves functionality. For instance, in bridges, the use of composite materials can lead to lighter structures that require less support, allowing for longer spans and more open designs.Moreover, composite structures can lead to improved sustainability. By combining materials intelligently, engineers can reduce waste and energy consumption during both the construction and operational phases of a building’s lifecycle. For example, using recycled materials in a composite structure not only minimizes the environmental impact but also contributes to green building certifications, which are increasingly valued in today’s construction industry.Another significant benefit is the enhanced durability and maintenance of composite structures. Many composite materials are designed to resist corrosion, weathering, and other forms of degradation that can compromise traditional building materials over time. This results in lower maintenance costs and longer lifespans for buildings and infrastructures. In coastal areas, where structures face harsh conditions from saltwater and storms, the use of composite structures can provide a viable solution that ensures longevity and safety.However, the implementation of composite structures is not without its challenges. One major concern is the initial cost, as composite materials can sometimes be more expensive than conventional options. Additionally, there may be a lack of familiarity among contractors and engineers with the specific requirements and best practices for working with these materials. As a result, it is crucial for professionals in the field to invest in education and training to fully leverage the potential of composite structures.In conclusion, the concept of composite structure represents a significant advancement in the construction industry. By harnessing the strengths of various materials, we can create buildings and infrastructures that are not only aesthetically pleasing but also resilient, sustainable, and efficient. As technology continues to evolve, the future of construction will likely see an even greater emphasis on composite solutions, paving the way for innovative designs that meet the demands of a changing world.

在工程和建筑领域，术语复合结构指的是一种结合了不同特性的材料以创建更高效、更强大的整体系统的建筑。这种创新的方法使设计师和施工人员能够利用每种材料的最佳特性，从而使结构能够承受各种环境挑战，同时又具有成本效益。例如，在现代摩天大楼中，钢材和混凝土常常一起使用；钢材提供抗拉强度，而混凝土则提供抗压强度。这些材料之间的协同作用体现了复合结构的本质，因为它们共同工作以增强建筑的性能。使用复合结构的优点有很多。首先，它允许更大的设计灵活性。建筑师可以创造出独特的形状和形式，这在单一传统材料中是困难或不可能实现的。这种灵活性不仅增强了美学吸引力，还改善了功能性。例如，在桥梁中，使用复合材料可以导致更轻的结构，减少对支撑的需求，从而允许更长的跨度和更开放的设计。此外，复合结构还可以提高可持续性。通过智能地组合材料，工程师可以在建筑生命周期的建设和运营阶段减少浪费和能源消耗。例如，在复合结构中使用回收材料不仅最小化了环境影响，而且有助于绿色建筑认证，这在当今的建筑行业中越来越受到重视。另一个显著的好处是复合结构的耐久性和维护性。许多复合材料被设计为抵抗腐蚀、风化和其他形式的降解，这些降解会随着时间的推移危及传统建筑材料的完整性。这导致了较低的维护成本和建筑物及基础设施的更长使用寿命。在沿海地区，建筑面临着来自盐水和风暴的恶劣条件，使用复合结构可以提供一种可行的解决方案，以确保耐久性和安全性。然而，实施复合结构并非没有挑战。一个主要问题是初始成本，因为复合材料有时可能比传统选项更昂贵。此外，承包商和工程师可能对使用这些材料的具体要求和最佳实践缺乏熟悉。因此，专业人士在该领域必须投资于教育和培训，以充分利用复合结构的潜力。总之，复合结构的概念代表了建筑行业的一项重大进步。通过利用各种材料的优势，我们可以创造出不仅美观而且坚固、可持续和高效的建筑和基础设施。随着技术的不断发展，未来的建筑将可能更加重视复合解决方案，为满足变化世界的需求铺平道路。