重庆建筑
重慶建築
중경건축
Chongqing Architecture
2015年
10期
41-44
,共4页
边坡工程%预应力锚索%数值模拟%边坡稳定性
邊坡工程%預應力錨索%數值模擬%邊坡穩定性
변파공정%예응력묘색%수치모의%변파은정성
slope engineering%pre-stressed anchor cable%numerical simulation%slope stability
结合工程实例,采用有限元软件ANSYS,对全粘结拉力型、自由段非粘结拉力型和压力型预应力锚索加固边坡进行数值计算,并基于强度折减法原理,计算了边坡加固前后的稳定安全系数,对预应力锚索加固边坡的稳定性进行评价。结果表明,预应力锚索加固边坡后,边坡的最大变形、最大竖向位移、最大塑性等效应变和最大等效应力均较小,边坡塑性区很小,并且有限元计算得到的稳定安全系数满足要求,达到了加固边坡的效果;压力型预应力锚索最大等效应力小于拉力型预应力锚索,且全粘结拉力型预应力锚索在滑带处产生应力集中,因此压力型预应力锚索具有一定的优越性。
結閤工程實例,採用有限元軟件ANSYS,對全粘結拉力型、自由段非粘結拉力型和壓力型預應力錨索加固邊坡進行數值計算,併基于彊度摺減法原理,計算瞭邊坡加固前後的穩定安全繫數,對預應力錨索加固邊坡的穩定性進行評價。結果錶明,預應力錨索加固邊坡後,邊坡的最大變形、最大豎嚮位移、最大塑性等效應變和最大等效應力均較小,邊坡塑性區很小,併且有限元計算得到的穩定安全繫數滿足要求,達到瞭加固邊坡的效果;壓力型預應力錨索最大等效應力小于拉力型預應力錨索,且全粘結拉力型預應力錨索在滑帶處產生應力集中,因此壓力型預應力錨索具有一定的優越性。
결합공정실례,채용유한원연건ANSYS,대전점결랍력형、자유단비점결랍력형화압력형예응력묘색가고변파진행수치계산,병기우강도절감법원리,계산료변파가고전후적은정안전계수,대예응력묘색가고변파적은정성진행평개。결과표명,예응력묘색가고변파후,변파적최대변형、최대수향위이、최대소성등효응변화최대등효응력균교소,변파소성구흔소,병차유한원계산득도적은정안전계수만족요구,체도료가고변파적효과;압력형예응력묘색최대등효응력소우랍력형예응력묘색,차전점결랍력형예응력묘색재활대처산생응력집중,인차압력형예응력묘색구유일정적우월성。
Combined with practical projects, and with the FEM software ANSYS, the whole bond tensioned grout anchor, the not whole bond tensioned grout anchor and pressured grout anchor reinforcing slope are analyzed by numerical calculation. Based on strength reduction method principle, the stabil-ity factor before and after slope reinforcement is calculated and the stability of pre-stressed anchor reinforced slope is evaluated. The results show that the maximum deformation, maximum vertical displacement, maximum plasticity equivalent strain and maximum equivalent stress are tiny and the plasticity zone is small after pre-stressed anchor reinforced slope. The stability factor calculated by numerical calculation meets the demand and achieves the aim of reinforcement. The maximum equivalent stress of pressured grout anchor is less than that of tensioned grout anchor and there is stress concentration with tensioned grout anchor at slide area, so the pressured grout anchor reinforcing slope is superior to that of tensioned grout anchor.