上海国土资源
上海國土資源
상해국토자원
2013年
3期
85~88
,共null页
软粘土 变形 加筋土 无侧限抗压强度 棕榈 麦秸秆
軟粘土 變形 加觔土 無側限抗壓彊度 棕櫚 麥秸稈
연점토 변형 가근토 무측한항압강도 종려 맥갈간
soft clay; deformation; reinforced soil; unconfined compressive strength; palm; wheat straw
为改良上海粘土的强度和变形特性,分别采用棕榈和麦秸秆加筋,以提高土的强度和抗变形性能。试验以质量加筋率和加筋长度作为影响因素,分析比较两种加筋土的无侧限抗压强度。试验结果为:(1)棕榈加筋土的无侧限抗压强度高于麦秸秆加筋土,两种加筋土均高于素土。(2)棕榈的适宜加筋条件为:质量加筋率1.0%,加筋长度的平均值15mm;四分之一圆管状麦秸秆的适宜加筋条件为:质量加筋率0.3%~0.4%,加筋长度15mm。(3)棕榈加筋土的应力应变曲线表现为应变强化型,麦秸秆加筋土的应力应变曲线表现为应变软化型。初步试验结果表明,棕榈与麦秸秆均适宜作上海地区粘土的加筋材料,加筋效果棕榈优于麦秸秆。
為改良上海粘土的彊度和變形特性,分彆採用棕櫚和麥秸稈加觔,以提高土的彊度和抗變形性能。試驗以質量加觔率和加觔長度作為影響因素,分析比較兩種加觔土的無側限抗壓彊度。試驗結果為:(1)棕櫚加觔土的無側限抗壓彊度高于麥秸稈加觔土,兩種加觔土均高于素土。(2)棕櫚的適宜加觔條件為:質量加觔率1.0%,加觔長度的平均值15mm;四分之一圓管狀麥秸稈的適宜加觔條件為:質量加觔率0.3%~0.4%,加觔長度15mm。(3)棕櫚加觔土的應力應變麯線錶現為應變彊化型,麥秸稈加觔土的應力應變麯線錶現為應變軟化型。初步試驗結果錶明,棕櫚與麥秸稈均適宜作上海地區粘土的加觔材料,加觔效果棕櫚優于麥秸稈。
위개량상해점토적강도화변형특성,분별채용종려화맥갈간가근,이제고토적강도화항변형성능。시험이질량가근솔화가근장도작위영향인소,분석비교량충가근토적무측한항압강도。시험결과위:(1)종려가근토적무측한항압강도고우맥갈간가근토,량충가근토균고우소토。(2)종려적괄의가근조건위:질량가근솔1.0%,가근장도적평균치15mm;사분지일원관상맥갈간적괄의가근조건위:질량가근솔0.3%~0.4%,가근장도15mm。(3)종려가근토적응력응변곡선표현위응변강화형,맥갈간가근토적응력응변곡선표현위응변연화형。초보시험결과표명,종려여맥갈간균괄의작상해지구점토적가근재료,가근효과종려우우맥갈간。
To improve the strength and deformation characteristics of Shanghai cohesive soil, both palm and wheat straw were added to the soil. The unconfined compressive strength (UCS) of the soils reinforced with palm and wheat straw was analyzed by selecting different reinforcement lengths and reinforcement quality ratios as influencing factors. The analyses yielded the following results. (1) The UCS of palm-reinforced soil is higher than that of wheat-straw-reinforced soil, and both composite mixtures are stronger than the original soil. (2) The optimal reinforcement length of palm is approximately 15 mm and the optimal reinforcement ratio is about 1.0% of total weight. The optimal reinforcement length of wheat straw is approximately 15 mm and the optimal reinforcement ratio is about 0.3%-0.4% of total weight. (3)The stress-strain curve of palm-reinforced soil is found to be a strain-hardening type, whereas the stress-strain curve of wheat-straw-reinforced soil is a strain-softening type. Preliminary results show that both palm and wheat straw are optimal for use as a reinforcement material and that the reinforcement effect of palm is better than that of wheat straw.