uncompacted
简明释义
英[ʌnˈkəmˌpæktɪd]美[ʌnˈkɑːmˌpæktɪd]
adj. 未压实的(不密实的)
英英释义
未压缩或紧凑;松散且未密集堆积。 |
单词用法
未压实的土壤 | |
未压实的碎石 | |
未压实的回填材料 | |
未压实的层 |
同义词
| 松散的 | 土壤松散,有利于排水。 | ||
| 未压缩的 | 数据未压缩,以便于更容易访问。 | ||
| 稀疏的 | The vegetation in the area is sparse, indicating poor soil quality. | 该地区的植被稀疏,表明土壤质量差。 |
反义词
| 压实的 | 土壤被压实以提供稳定的基础。 | ||
| 密集的 | The compacted layers of sediment create a strong support for the structure. | 压实的沉积层为结构提供了强有力的支撑。 |
例句
1.In a compacted basin, natural hydraulic fracturing is one of the key factors of the pore fluid expulsion of uncompacted belt.
压实盆地中的自然水力破裂是欠压实带孔隙流体排驱的关键因素之一。
2.Generally, such gas reservoir rock is in the uncompacted state, and their variation with pressure and petrophysical parameters is very different than normal pressure gas reservoir system.
这类气藏储集层岩石一般处于欠压实状态,岩石物性参数及其随压力的变化规律和正常的压力系统气藏相比有很大的差异。
3.Generally, such gas reservoir rock is in the uncompacted state, and their variation with pressure and petrophysical parameters is very different than normal pressure gas reservoir system.
这类气藏储集层岩石一般处于欠压实状态,岩石物性参数及其随压力的变化规律和正常的压力系统气藏相比有很大的差异。
4.An uncompacted belt can be described as an abnormal pore fluid pressure belt surrounded by "shell".
欠压实带可描述成被“壳”包围的一个异常孔隙流体压力带。
5.The compaction constant is 1.0 for a completely compacted formation and less than 1.6 for an uncompacted formation.
对于完全压实的地层,压实常数为1.0;未压实的地层,压实常数小于1.6。
6.In loading condition, the shear fracturing of the bottom shell of the uncompacted belt would appear earlier than that of the top.
在加载条件下,欠压实带的顶、底壳发生剪切破裂,底壳早于顶壳。
7.The deviation ranges of uncompacted backfill and cavity thicknesses behind the lining agree with those when the antenna closes up to the lining specimen surface.
衬砌背后回填不密实层和空洞厚度检测值的误差范围与天线密贴衬砌的情况一致。
8.In construction, uncompacted fill can lead to settling issues over time.
在建筑中,未压实的填土可能会导致随着时间的推移而出现沉降问题。
9.When building the foundation, it is crucial to avoid uncompacted areas to ensure stability.
在建造基础时,避免出现未压实的区域是确保稳定性的关键。
10.The soil in the garden was left uncompacted, allowing for better drainage.
花园里的土壤保持了松散,有利于更好的排水。
11.The engineers decided to leave the earth uncompacted until the next phase of the project.
工程师们决定在项目的下一个阶段之前将土壤保持未压实状态。
12.The uncompacted layers of gravel provided excellent support for the road.
这层未压实的碎石为道路提供了极好的支撑。
作文
The concept of soil compaction is crucial in various fields such as agriculture, construction, and environmental science. Soil that is uncompacted (未压实的) has significant implications for plant growth, water retention, and overall soil health. When soil is uncompacted (未压实的), it retains air spaces that allow roots to breathe and absorb nutrients more effectively. This is particularly important in agricultural practices where the quality of the soil directly affects crop yields. Farmers often aim to maintain their soil in an uncompacted (未压实的) state to promote healthy root development and enhance the growth of their plants.In construction, understanding the properties of uncompacted (未压实的) soil is equally important. Engineers must assess the soil's stability before laying foundations. Soil that is too compacted can lead to poor drainage and increased runoff, while uncompacted (未压实的) soil may not provide the necessary support for structures. Therefore, construction teams often conduct tests to determine the level of compaction in the soil, ensuring it is neither too compacted nor overly uncompacted (未压实的).Additionally, environmental scientists study uncompacted (未压实的) soil to understand its role in ecosystems. Healthy, uncompacted (未压实的) soil can support a diverse range of organisms, from earthworms to microorganisms, which contribute to nutrient cycling and soil fertility. Conversely, when soil becomes compacted due to heavy machinery or foot traffic, it can lead to decreased biodiversity and poorer soil quality.Moreover, the management of uncompacted (未压实的) soil is essential for sustainable land use. Practices such as crop rotation, cover cropping, and reduced tillage help maintain soil structure and prevent compaction. By promoting uncompacted (未压实的) soil conditions, these methods enhance the resilience of agricultural systems against climate change and other environmental stresses.In conclusion, the importance of uncompacted (未压实的) soil cannot be overstated. Whether in agriculture, construction, or environmental conservation, understanding the dynamics of uncompacted (未压实的) soil is vital for promoting health, sustainability, and productivity. As we continue to face challenges related to soil degradation and climate change, prioritizing the maintenance of uncompacted (未压实的) soil will be a key factor in ensuring a balanced ecosystem and food security for future generations.
土壤压实的概念在农业、建筑和环境科学等多个领域至关重要。未压实的土壤(uncompacted)对植物生长、水分保持和整体土壤健康有重要影响。当土壤处于未压实状态时,它保留了空气空间,使根系能够更有效地呼吸和吸收养分。这在农业实践中尤为重要,因为土壤的质量直接影响作物产量。农民通常希望保持土壤的未压实状态,以促进健康的根系发育,增强植物的生长。在建筑中,理解未压实土壤(uncompacted)的特性同样重要。工程师必须在铺设基础之前评估土壤的稳定性。过于压实的土壤可能导致排水不良和径流增加,而未压实的土壤可能无法为结构提供必要的支撑。因此,施工团队通常会进行测试,以确定土壤的压实程度,确保其既不太压实也不太未压实。此外,环境科学家研究未压实的土壤(uncompacted),以了解其在生态系统中的作用。健康的未压实土壤可以支持多种生物,从蚯蚓到微生物,这些生物有助于养分循环和土壤肥力。相反,当土壤因重型机械或人流而变得压实时,可能导致生物多样性下降和土壤质量变差。此外,未压实土壤(uncompacted)的管理对于可持续土地利用至关重要。轮作、覆盖作物和减少耕作等做法有助于维持土壤结构,防止压实。通过促进未压实的土壤条件,这些方法增强了农业系统对气候变化和其他环境压力的抵御能力。总之,未压实土壤(uncompacted)的重要性不容小觑。无论是在农业、建筑还是环境保护中,理解未压实土壤的动态对于促进健康、可持续性和生产力至关重要。随着我们继续面临与土壤退化和气候变化相关的挑战,优先维护未压实的土壤将是确保未来世代生态平衡和粮食安全的关键因素。
