隧道建设
隧道建設
수도건설
TUNNEL CONSTRUCTION
2014年
z1期
35-40
,共6页
铁路隧道%工程状态%围岩压力%荷载修正
鐵路隧道%工程狀態%圍巖壓力%荷載脩正
철로수도%공정상태%위암압력%하재수정
railway tunnel%project status%surrounding rock pressure%loading correction
铁路隧道复合式衬砌结构的计算荷载,按有关资料建议取值存在主观操作差异,设计失之指导与规范。通过进一步分析隧道工程状态,认为应规范化区别各级围岩及其级内差异和支护强度,以体现不同围岩衬砌的受力差异和平衡同级衬砌受力水平,为合理确定结构荷载提供条件;综合新奥法和传统矿山法分析,衬砌结构“远期”都承受相当的围岩压力,经结构验算和实测压力分析比较,并参考公路隧道设计细则,确定铁路深埋隧道坍方荷载按现行公式计算,Ⅱ、Ⅲ级衬砌荷载为坍方荷载的40%;Ⅳ、Ⅴ级衬砌分别为50%和70%;Ⅱ、Ⅲ级单线衬砌可视为安全储备,当跨度增加时,应全面满足构造、工程类比和结构检算要求;各级围岩侧压力系数按规范沿用,可以此统筹当前设计。建议通过系统性实测统计分析和试验研究,为进一步完善结构设计方法提供条件。
鐵路隧道複閤式襯砌結構的計算荷載,按有關資料建議取值存在主觀操作差異,設計失之指導與規範。通過進一步分析隧道工程狀態,認為應規範化區彆各級圍巖及其級內差異和支護彊度,以體現不同圍巖襯砌的受力差異和平衡同級襯砌受力水平,為閤理確定結構荷載提供條件;綜閤新奧法和傳統礦山法分析,襯砌結構“遠期”都承受相噹的圍巖壓力,經結構驗算和實測壓力分析比較,併參攷公路隧道設計細則,確定鐵路深埋隧道坍方荷載按現行公式計算,Ⅱ、Ⅲ級襯砌荷載為坍方荷載的40%;Ⅳ、Ⅴ級襯砌分彆為50%和70%;Ⅱ、Ⅲ級單線襯砌可視為安全儲備,噹跨度增加時,應全麵滿足構造、工程類比和結構檢算要求;各級圍巖側壓力繫數按規範沿用,可以此統籌噹前設計。建議通過繫統性實測統計分析和試驗研究,為進一步完善結構設計方法提供條件。
철로수도복합식츤체결구적계산하재,안유관자료건의취치존재주관조작차이,설계실지지도여규범。통과진일보분석수도공정상태,인위응규범화구별각급위암급기급내차이화지호강도,이체현불동위암츤체적수력차이화평형동급츤체수력수평,위합리학정결구하재제공조건;종합신오법화전통광산법분석,츤체결구“원기”도승수상당적위암압력,경결구험산화실측압력분석비교,병삼고공로수도설계세칙,학정철로심매수도담방하재안현행공식계산,Ⅱ、Ⅲ급츤체하재위담방하재적40%;Ⅳ、Ⅴ급츤체분별위50%화70%;Ⅱ、Ⅲ급단선츤체가시위안전저비,당과도증가시,응전면만족구조、공정류비화결구검산요구;각급위암측압력계수안규범연용,가이차통주당전설계。건의통과계통성실측통계분석화시험연구,위진일보완선결구설계방법제공조건。
Nowadays,the structural analysis method of railway tunnel in China is still an experience-dependent one, thus the subjective differences of correlative parameters (especially the loads for the models)applied are widely existed due to the operators.To minimize the influence from the differences,effective guidance and norms are required.In this further discussion of tunnel engineering situation,the loading status and relative supports are legitimately classified,not only based the rock classification but also differed by specific geological environments in the same rock classification.In this proposed method,the consideration for consistency and differentiation is well presented.A simple fact is clarified form comprehensive analysis between New Austrian Tunneling Method (NATM)and traditional mining method (MM) that loading on the lining is a long-term act.Through the comparison between the structure calculation and analysis of actual measurement,several conclusions are drawn:The collapse loads on deep-buried tunnels of railway are determined by the current formula are turned out to be reasonable.The loads ofⅡand Ⅲ levels lining structure are the collapse ones of 40%,and then the loads ofⅣand Ⅴ levels lining structure are,respective,the collapse ones of 50% and 70%.The Ⅱand Ⅲ levels lining structure of single track tunnel is considered to be safety reserve.As the span increa-ses,the construction,engineering analogy and structure calculation requirements should be satisfied.Meanwhile lateral pressure coefficients of all levels of surrounding rocks are used according to the specification.Through the systematic sta-tistical analysis and experimental research,the conditions for further perfecting the structure design method are provided.
