earthen structure

简明释义

土工构筑物

英英释义

例句

1.In rural areas, many homes are still made from earthen structures due to their natural insulation properties.

在农村地区，由于其天然的隔热性能，许多房屋仍然由土结构建成。

2.To promote sustainability, architects are increasingly designing earthen structures using local materials.

为了促进可持续发展，建筑师越来越多地使用当地材料设计土结构。

3.The archaeological site revealed several layers of earthen structures that date back thousands of years.

考古遗址揭示了几层可以追溯到几千年前的土结构。

4.The ancient civilization built an impressive earthen structure that has stood the test of time.

这个古代文明建造了一座令人印象深刻的土结构，经受住了时间的考验。

5.During the rainy season, maintaining the integrity of earthen structures becomes a significant challenge.

在雨季，维护土结构的完整性成为一个重大挑战。

作文

Throughout history, humans have constructed various types of buildings and shelters to protect themselves from the elements. Among these constructions, earthen structures (土结构) have played a significant role, especially in regions where natural resources for building materials are scarce. These structures are primarily made from soil, clay, and other natural materials, making them not only sustainable but also environmentally friendly. In this essay, we will explore the significance, advantages, and cultural importance of earthen structures (土结构). One of the most remarkable aspects of earthen structures (土结构) is their ability to blend harmoniously with the environment. Unlike concrete or steel buildings, which can disrupt the natural landscape, earthen structures (土结构) often utilize locally sourced materials that are readily available. This practice not only reduces transportation costs but also minimizes the carbon footprint associated with construction. Furthermore, these structures can be designed to withstand extreme weather conditions, proving their resilience over time. In many cultures, earthen structures (土结构) hold historical significance. For instance, in regions like the Middle East and parts of Africa, ancient civilizations built impressive structures using mud bricks and adobe techniques. The Great Mosque of Djenné in Mali, a UNESCO World Heritage site, is a prime example of an earthen structure (土结构) that has stood the test of time. Such buildings not only serve as a testament to the architectural ingenuity of past societies but also continue to be functional spaces for communities today. Another advantage of earthen structures (土结构) is their thermal properties. The natural insulating qualities of earth materials help regulate indoor temperatures, keeping buildings cool in the summer and warm in the winter. This characteristic is particularly beneficial in areas with extreme temperature fluctuations. Additionally, earthen structures (土结构) often require less energy for heating and cooling, promoting energy efficiency and lowering utility costs for occupants. Moreover, the construction of earthen structures (土结构) promotes local craftsmanship and skills. Many traditional building techniques have been passed down through generations, creating a sense of community and shared knowledge. By engaging local artisans in the construction process, these projects can foster economic growth and preserve cultural heritage. In recent years, there has been a resurgence of interest in earthen structures (土结构) as architects and builders seek sustainable alternatives to modern construction methods. In conclusion, earthen structures (土结构) represent a unique intersection of sustainability, history, and cultural identity. Their ability to harmonize with the environment, coupled with their thermal efficiency and historical significance, makes them an important aspect of architectural heritage. As society continues to grapple with the challenges of climate change and resource depletion, revisiting and revitalizing the use of earthen structures (土结构) could provide valuable solutions for future generations. It is essential to recognize the value of these traditional building methods and integrate them into contemporary architectural practices to create a more sustainable and resilient built environment.

纵观历史，人类建造了各种类型的建筑和庇护所，以保护自己免受自然环境的侵害。在这些建筑中，土结构发挥了重要作用，特别是在建筑材料稀缺的地区。这些结构主要由土壤、粘土和其他天然材料制成，不仅可持续，而且环保。本文将探讨土结构的重要性、优点和文化意义。土结构最显著的特点之一是它们能够与环境和谐融合。与混凝土或钢铁建筑不同，后者可能会破坏自然景观，土结构通常利用当地可获得的材料。这种做法不仅降低了运输成本，还最小化了与建筑相关的碳足迹。此外，这些结构可以设计成抵御极端天气条件，证明了它们的韧性。在许多文化中，土结构具有历史意义。例如，在中东和非洲部分地区，古代文明使用泥砖和土坯技术建造了令人印象深刻的建筑。马里的大清真寺，作为联合国教科文组织的世界遗产，是一个典型的土结构示例，历经风雨依然屹立不倒。这些建筑不仅是过去社会建筑智慧的见证，而且至今仍为社区提供功能空间。土结构的另一个优点是其热性能。土壤材料的天然绝缘特性有助于调节室内温度，使建筑在夏季保持凉爽，在冬季保持温暖。这一特性在温差极大的地区尤为有利。此外，土结构通常需要更少的能源进行供暖和制冷，促进了能源效率，降低了居民的公用事业费用。此外，建设土结构还促进了当地工艺和技能的发展。许多传统建筑技术代代相传，创造了社区意识和共享知识。通过让当地工匠参与建设过程，这些项目可以促进经济增长并保护文化遗产。近年来，随着建筑师和建筑商寻求现代建筑方法的可持续替代方案，对土结构的兴趣重新兴起。总之，土结构代表了可持续性、历史和文化认同的独特交汇点。它们与环境的和谐共处，加上其热效率和历史意义，使其成为建筑遗产的重要组成部分。随着社会继续应对气候变化和资源枯竭的挑战，重新审视和振兴土结构的使用可能为未来几代人提供宝贵的解决方案。认识到这些传统建筑方法的价值，并将其融入当代建筑实践，对于创造一个更可持续和更具韧性的建筑环境至关重要。