1·The method of treating loess with lime soil compaction pile is economical.
用(灰)土挤密桩处理地基完全可以达到以土治土、节约成本的目的。
2·So soil water should be analyzed as well as lime soil in the study on lime profile.
所以,对石灰土-土壤剖面化学组成的研究应同时将土壤和土壤水加以考虑。
3·This paper introduces the formative mechanism and discusses the effective factors to the lime soil strength.
简要介绍了石灰土强度的形成机理;阐述了石灰土施工质量对石灰土强度的影响。
4·There were corresponding correlations between lime soil enzyme activity and soil chemical and physical properties.
石灰土酶活性与土壤理化性质之间具有一定的响应关系。
5·Soil stabilized with AFS has higher early lime soils strength and better anti cracking characteristics than lime soil.
AFS稳定土和石灰土相比,早期强度有了较大提高,并具有较好的抗裂性。
6·The technique is simple and mature: the technique of the mixing proportion of soil cement and lime soil is very mature.
工艺简单且成熟:水泥土和石灰土的各种配合比工艺非常成熟。
7·The results showed that lime soil supplied the plants with more nitrogen nutrition, less phosphorus and potassium nutrition.
结果表明,石灰岩类土壤提供给烟株吸收利用的氮养分较多,而磷钾养分较少。
8·In this paper a new type compaction lime soil pile as strong force rammed expansion lime soil compaction pile is introduced.
介绍了一种新型的挤密灰土桩即强力夯扩挤密灰土桩。
9·Pure soil specimens, straw soil specimens and lime soil specimens are made of northwest loess, various proportions straw and lime.
取西北地区黄土、麦秸、石灰等为原材料,分别制作素土试件、不同比例的麦秸土和石灰土试件。
10·The influences of the maintained time and the freeze-thaw cycling on the unconfined compression strength of lime soil are discussed.
同时,试验分析了养护石灰土的工程特性,特别是探讨了养护龄期及冻融循环对石灰土无侧限抗压强度的影响。