岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2015年
2期
532-540
,共9页
李波%吴立%邓宗伟%陈剑%唐爱松
李波%吳立%鄧宗偉%陳劍%唐愛鬆
리파%오립%산종위%진검%당애송
高速铁路隧道%围岩抗力系数%径向液压枕法%理论计算模型%数值模拟
高速鐵路隧道%圍巖抗力繫數%徑嚮液壓枕法%理論計算模型%數值模擬
고속철로수도%위암항력계수%경향액압침법%이론계산모형%수치모의
high-speed railway tunnel%rock resistant coefficient%radial hydraulic pillow testing%theoretical calculation model%numerical simulation
以沪昆高速铁路隧道为依托,通过现场径向液压枕试验,测量各级压力下半径向变形,获取了隧道研究点处岩石抗力系数实测值。在实测数据的基础上,结合国内外相关的弹性抗力本构模型,建立了沪昆高速铁路隧道围岩抗力系数的5种理论计算模型:理想弹塑性模型、爆破裂缝弹塑性模型、塑性软化岩体模型、Lade-Duncan准则模型、统一强度理论模型,并有针对性的将所研究的20座隧道进行分类,分别计算其围岩抗力系数理论计算值。为了弥补现场试验点数目的限制,对所研究的隧道展开了数值模拟分析。通过对不同的埋深、围岩级别、地质特征下岩石抗力系数现场试验值、理论计算值、数值模拟值和规范值进行对比和综合,提出了高速铁路大断面隧道的围岩抗力系数推荐值,该推荐值突破了普通铁路隧道规范中关于抗力系数建议值仅限于弹性模型的限制,为优化隧道结构设计,充分利用围岩的自承能力提供了理论依据。
以滬昆高速鐵路隧道為依託,通過現場徑嚮液壓枕試驗,測量各級壓力下半徑嚮變形,穫取瞭隧道研究點處巖石抗力繫數實測值。在實測數據的基礎上,結閤國內外相關的彈性抗力本構模型,建立瞭滬昆高速鐵路隧道圍巖抗力繫數的5種理論計算模型:理想彈塑性模型、爆破裂縫彈塑性模型、塑性軟化巖體模型、Lade-Duncan準則模型、統一彊度理論模型,併有針對性的將所研究的20座隧道進行分類,分彆計算其圍巖抗力繫數理論計算值。為瞭瀰補現場試驗點數目的限製,對所研究的隧道展開瞭數值模擬分析。通過對不同的埋深、圍巖級彆、地質特徵下巖石抗力繫數現場試驗值、理論計算值、數值模擬值和規範值進行對比和綜閤,提齣瞭高速鐵路大斷麵隧道的圍巖抗力繫數推薦值,該推薦值突破瞭普通鐵路隧道規範中關于抗力繫數建議值僅限于彈性模型的限製,為優化隧道結構設計,充分利用圍巖的自承能力提供瞭理論依據。
이호곤고속철로수도위의탁,통과현장경향액압침시험,측량각급압력하반경향변형,획취료수도연구점처암석항력계수실측치。재실측수거적기출상,결합국내외상관적탄성항력본구모형,건립료호곤고속철로수도위암항력계수적5충이론계산모형:이상탄소성모형、폭파렬봉탄소성모형、소성연화암체모형、Lade-Duncan준칙모형、통일강도이론모형,병유침대성적장소연구적20좌수도진행분류,분별계산기위암항력계수이론계산치。위료미보현장시험점수목적한제,대소연구적수도전개료수치모의분석。통과대불동적매심、위암급별、지질특정하암석항력계수현장시험치、이론계산치、수치모의치화규범치진행대비화종합,제출료고속철로대단면수도적위암항력계수추천치,해추천치돌파료보통철로수도규범중관우항력계수건의치부한우탄성모형적한제,위우화수도결구설계,충분이용위암적자승능력제공료이론의거。
This paper focuses on the way to get the value of rock resistant coefficient in high-speed railway tunnel. It runs the radial hydraulic pillow testing to measure the radial deformation during various pressures on Shanghai-Kunming high-speed railway tunnel. Based on field test data and combining different constitutive models, five theoretical calculation models for tunnel rock resistant coefficients are established. They areideal elastic-plastic model, burst fissure elastic-plastic model, plastic softening rock model, Lade-Duncan criterion model and unified strength theory model respectively.Twenty tunnels are classified and the corresponding theoretical values of surrounding rock resistance coefficients are calculated respectively using the proposed models. To compensate the limitation of field test number, the numerical simulation of the research tunnel is carried out. Then the theoretical calculation values, field test values, numerical simulation values and standard values of rock resistant coefficients are compared and synthesized at different buried depths, rock grades and geological conditions. The recommended values of rock resistant coefficient of large section high-speed railway tunnel are proposed. The recommended value breaks through the limit of rock resistant coefficient standard values in ordinary high-speed railway tunnel based on elastic model. Also the recommended value can provide the theoretical basis for optimizing the design of the tunnel structure and making full use of the bearing capacity of the surrounding rock.