laminated construction

简明释义

叠层结构

英英释义

例句

1.The school decided to build a new gym using laminated construction for better energy efficiency.

学校决定使用层压结构建造新的体育馆，以提高能效。

2.Due to its durability, laminated construction is often used in modern furniture design.

由于其耐用性，层压结构常用于现代家具设计。

3.The company specializes in laminated construction materials that are both lightweight and strong.

该公司专注于既轻便又坚固的层压结构材料。

4.In earthquake-prone areas, laminated construction provides additional safety and stability.

在地震多发地区，层压结构提供额外的安全性和稳定性。

5.The architect recommended using laminated construction for the new building to enhance its structural integrity.

建筑师建议在新建筑中使用层压结构以增强其结构完整性。

作文

Laminated construction is a technique that has gained significant popularity in various fields, especially in architecture and engineering. This method involves bonding together multiple layers of materials to create a composite structure that offers enhanced strength, durability, and aesthetic appeal. The process of laminated construction (层压结构) allows for the use of different materials, such as wood, plastic, or metal, which can be combined to take advantage of their unique properties. For instance, in the case of wooden beams, layers of thin wood are glued together to form a single beam that is much stronger than a solid piece of wood. One of the primary benefits of laminated construction (层压结构) is its ability to reduce waste. By utilizing smaller pieces of material and combining them, builders can make efficient use of resources while still achieving the desired structural integrity. This is particularly important in today’s world, where sustainability and environmental consciousness are at the forefront of construction practices. Additionally, laminated construction (层压结构) can lead to lighter structures, which can be advantageous in reducing the overall load on foundations and supporting elements.Another aspect worth mentioning is the versatility that laminated construction (层压结构) offers. Designers can manipulate the layers to achieve specific shapes and sizes, allowing for creative freedom in architectural design. This method is not only limited to buildings but is also used in furniture design, bridges, and even musical instruments. For example, many high-quality pianos utilize laminated construction (层压结构) in their soundboards to enhance sound quality and durability.Moreover, laminated construction (层压结构) enhances resistance to environmental factors. Structures built using this method can better withstand changes in temperature and humidity, reducing the risk of warping and cracking. This characteristic makes laminated construction (层压结构) particularly suitable for regions with extreme weather conditions. In addition, the bonding process used in laminated construction (层压结构) often incorporates adhesives that can provide additional resistance against moisture and pests, further extending the lifespan of the structure.However, it is essential to consider the challenges associated with laminated construction (层压结构). The initial cost can be higher due to the materials and specialized equipment required for the lamination process. Furthermore, the quality of the adhesive used plays a crucial role in the overall performance of the laminated product. If not properly selected or applied, the adhesive may fail, leading to structural weaknesses. Therefore, it is vital for architects and engineers to carefully evaluate the materials and techniques they choose when employing laminated construction (层压结构).In conclusion, laminated construction (层压结构) represents a significant advancement in building technology, offering numerous advantages such as enhanced strength, reduced waste, and design flexibility. As the construction industry continues to evolve, the use of laminated construction (层压结构) is likely to expand, paving the way for innovative and sustainable building solutions. By understanding the principles and applications of laminated construction (层压结构), we can appreciate its role in shaping the future of architecture and engineering, ultimately leading to more resilient and environmentally friendly structures.

层压结构是一种在建筑和工程等多个领域中越来越受欢迎的技术。这种方法涉及将多层材料粘合在一起，以创建一个复合结构，从而提供增强的强度、耐用性和美学吸引力。层压结构（laminated construction）这一过程允许使用不同的材料，例如木材、塑料或金属，这些材料可以结合起来，利用它们独特的属性。例如，在木梁的情况下，将薄木层胶合在一起，形成一个单一的梁，这比一块实心木材要强得多。层压结构（laminated construction）的主要好处之一是其减少浪费的能力。通过利用较小的材料片并将它们组合在一起，建筑商可以有效利用资源，同时仍然实现所需的结构完整性。在当今这个可持续性和环境意识占主导地位的建筑实践中，这一点尤为重要。此外，层压结构（laminated construction）可以导致更轻的结构，这在减少基础和支撑元素的整体负荷方面可能具有优势。另一个值得一提的方面是层压结构（laminated construction）所提供的多样性。设计师可以操纵层次以实现特定的形状和尺寸，从而在建筑设计中获得创造自由。这种方法不仅限于建筑，还用于家具设计、桥梁甚至乐器。例如，许多高质量的钢琴在其音板中采用了层压结构（laminated construction），以增强音质和耐用性。此外，层压结构（laminated construction）提高了对环境因素的抵抗力。使用此方法建造的结构能够更好地抵御温度和湿度的变化，减少翘曲和开裂的风险。这一特性使得层压结构（laminated construction）特别适合极端天气条件的地区。此外，使用在层压结构（laminated construction）中的粘合过程通常会采用能够提供额外抵抗力的粘合剂，以抵御潮湿和害虫，从而进一步延长结构的使用寿命。然而，必须考虑与层压结构（laminated construction）相关的挑战。由于层压过程所需的材料和专业设备，初始成本可能较高。此外，所使用的粘合剂的质量在层压产品的整体性能中起着至关重要的作用。如果未能正确选择或应用，粘合剂可能会失效，导致结构弱点。因此，建筑师和工程师在采用层压结构（laminated construction）时，必须仔细评估所选择的材料和技术。总之，层压结构（laminated construction）代表了建筑技术的一项重大进步，提供了众多优势，如增强的强度、减少的浪费和设计灵活性。随着建筑行业的不断发展，层压结构（laminated construction）的使用可能会扩展，为创新和可持续的建筑解决方案铺平道路。通过理解层压结构（laminated construction）的原理和应用，我们可以欣赏它在塑造建筑和工程未来中的作用，最终导致更具韧性和环保的结构。