lattice design

简明释义

栅格设计

英英释义

例句

1.The architect incorporated a beautiful lattice design into the building facade to enhance its aesthetic appeal.

建筑师在建筑外立面中融入了美丽的格子设计以增强其美学吸引力。

2.The furniture store showcased a collection of chairs featuring a modern lattice design in their showroom.

家具店在展厅中展示了一系列带有现代格子设计的椅子。

3.In gardening, a lattice design can provide support for climbing plants and add structure to the landscape.

在园艺中，格子设计可以为攀爬植物提供支撑，并为景观增添结构。

4.For her art project, she created a stunning piece using a lattice design made from recycled materials.

为了她的艺术项目，她用回收材料制作了一个惊艳的作品，采用了格子设计。

5.The new park features a walking path surrounded by a decorative lattice design that encourages visitors to explore.

新公园设有一条被装饰性格子设计环绕的步道，鼓励游客探索。

作文

The concept of lattice design has gained significant attention in various fields, particularly in architecture and engineering. A lattice design refers to a structural framework that is composed of a network of intersecting elements, creating a grid-like pattern. This design approach is not only aesthetically pleasing but also offers numerous advantages in terms of strength and efficiency. In this essay, I will explore the characteristics, benefits, and applications of lattice design in contemporary structures.One of the most notable features of lattice design is its ability to distribute loads evenly across a structure. By utilizing a series of interconnected beams or bars, the lattice design effectively transfers weight and stress, reducing the likelihood of structural failure. This is particularly important in large-scale constructions such as bridges and skyscrapers, where the forces acting on the structure can be immense. The use of a lattice design allows engineers to create lighter yet stronger structures, ultimately leading to cost savings in materials and construction.Moreover, lattice design promotes flexibility in architectural design. The open framework created by a lattice design allows for greater adaptability in the use of space. For instance, in modern buildings, the incorporation of lattice design can facilitate natural light penetration while maintaining structural integrity. This not only enhances the aesthetic appeal of a building but also contributes to energy efficiency by reducing the need for artificial lighting.In addition to its structural benefits, lattice design also plays a crucial role in sustainability. With the growing emphasis on eco-friendly construction practices, architects and engineers are increasingly turning to lattice design to minimize material usage and waste. By optimizing the structural elements, a lattice design can significantly reduce the amount of raw materials needed, thereby lessening the environmental impact of construction projects.The applications of lattice design are diverse and far-reaching. In the realm of civil engineering, we see lattice design implemented in the construction of bridges, where the intricate patterns provide both strength and stability. Additionally, in the field of aerospace engineering, lattice design is utilized to create lightweight components for aircraft, enhancing fuel efficiency and performance.Furthermore, the popularity of lattice design has extended into the realm of product design and manufacturing. The advent of 3D printing technology has allowed designers to experiment with complex lattice designs that were previously impossible to achieve. These innovative designs not only improve the functionality of products but also contribute to their visual appeal, making them more attractive to consumers.In conclusion, the significance of lattice design in modern architecture and engineering cannot be overstated. Its unique properties offer a perfect blend of strength, efficiency, and aesthetic appeal. As we continue to face challenges related to sustainability and resource management, the adoption of lattice design will likely play a pivotal role in shaping the future of construction and design. By embracing this innovative approach, we can create structures that are not only functional but also environmentally responsible, paving the way for a more sustainable future.

“格子设计”的概念在各个领域，尤其是建筑和工程中，受到了广泛关注。“格子设计”指的是由交叉元素组成的结构框架，形成一种网格状的图案。这种设计方法不仅具有美学吸引力，而且在强度和效率方面提供了许多优势。在本文中，我将探讨现代结构中“格子设计”的特征、好处和应用。“格子设计”的一个显著特点是其均匀分配负荷的能力。通过利用一系列相互连接的梁或杆，“格子设计”有效地转移重量和应力，减少结构失效的可能性。这在桥梁和摩天大楼等大型建筑中尤为重要，因为施加在结构上的力量可能是巨大的。“格子设计”的使用使工程师能够创造出更轻但更强的结构，最终节省材料和施工成本。此外，“格子设计”还促进了建筑设计的灵活性。“格子设计”所创建的开放框架允许在空间使用上有更大的适应性。例如，在现代建筑中，结合“格子设计”可以促进自然光的渗透，同时保持结构的完整性。这不仅增强了建筑的美学吸引力，还通过减少对人工照明的需求来提高能源效率。除了结构优势外，“格子设计”在可持续性方面也发挥着至关重要的作用。随着对环保建筑实践日益重视，建筑师和工程师越来越倾向于采用“格子设计”，以最小化材料使用和浪费。通过优化结构元素，“格子设计”可以显著减少所需的原材料数量，从而减轻建筑项目对环境的影响。“格子设计”的应用广泛且深远。在土木工程领域，我们看到“格子设计”在桥梁建设中的实施，其中复杂的图案提供了强度和稳定性。此外，在航空航天工程领域，“格子设计”被用于制造飞机的轻量化组件，提高燃油效率和性能。此外，“格子设计”的受欢迎程度已经扩展到产品设计和制造领域。3D打印技术的出现使设计师能够尝试以前无法实现的复杂“格子设计”。这些创新设计不仅提高了产品的功能性，还增强了其视觉吸引力，使其对消费者更具吸引力。总之，现代建筑和工程中“格子设计”的重要性不容小觑。其独特的属性提供了强度、效率和美学吸引力的完美结合。随着我们继续面临与可持续性和资源管理相关的挑战，“格子设计”的采用可能在塑造未来建筑和设计中发挥关键作用。通过采用这种创新的方法，我们可以创造出不仅功能齐全而且对环境负责的结构，为更可持续的未来铺平道路。