大地构造与成矿学
大地構造與成礦學
대지구조여성광학
GETECTONICA ET METALLOGENIA
2015年
1期
62-75
,共14页
唐永%刘怀庆%黎清华%沈传波%陈友智%何军
唐永%劉懷慶%黎清華%瀋傳波%陳友智%何軍
당영%류부경%려청화%침전파%진우지%하군
构造应力场%地质分析%数值模拟%灵山地区
構造應力場%地質分析%數值模擬%靈山地區
구조응력장%지질분석%수치모의%령산지구
tectonic stress fields%geologic analysis%numerical simulation%Lingshan area
构造应力是地壳中较为活跃的作用力之一,弄清构造应力作用方式和转变形式,对断裂活动性研究有重要的指导意义。以轴面近直立褶皱、共轭节理、断裂面擦痕等各种构造形迹为研究对象,采用构造解析分析方法,研究灵山地区构造应力场演化特征,确定灵山地区构造应力作用方式以及期次,认为整个研究区的构造格局在近 SN 向挤压应力的作用下而定型,该方向的挤压应力作用一直持续到现今。同时在构造应力场地质分析的指导下,运用有限元数值模拟手段,定量刻画了灵山地区现今构造应力场分布状态,确定最大主应力高值集中区与最大主应变量低值集中区的叠合部位:断裂弯曲、交汇与断裂尖灭相结合部位,具有能量集中程度较高特点,后期活动的可能性相对较大,并以此为依据圈定了灵山地区发生活动的高危区域和发生活动的次高危区域。
構造應力是地殼中較為活躍的作用力之一,弄清構造應力作用方式和轉變形式,對斷裂活動性研究有重要的指導意義。以軸麵近直立褶皺、共軛節理、斷裂麵抆痕等各種構造形跡為研究對象,採用構造解析分析方法,研究靈山地區構造應力場縯化特徵,確定靈山地區構造應力作用方式以及期次,認為整箇研究區的構造格跼在近 SN 嚮擠壓應力的作用下而定型,該方嚮的擠壓應力作用一直持續到現今。同時在構造應力場地質分析的指導下,運用有限元數值模擬手段,定量刻畫瞭靈山地區現今構造應力場分佈狀態,確定最大主應力高值集中區與最大主應變量低值集中區的疊閤部位:斷裂彎麯、交彙與斷裂尖滅相結閤部位,具有能量集中程度較高特點,後期活動的可能性相對較大,併以此為依據圈定瞭靈山地區髮生活動的高危區域和髮生活動的次高危區域。
구조응력시지각중교위활약적작용력지일,롱청구조응력작용방식화전변형식,대단렬활동성연구유중요적지도의의。이축면근직립습추、공액절리、단렬면찰흔등각충구조형적위연구대상,채용구조해석분석방법,연구령산지구구조응력장연화특정,학정령산지구구조응력작용방식이급기차,인위정개연구구적구조격국재근 SN 향제압응력적작용하이정형,해방향적제압응력작용일직지속도현금。동시재구조응력장지질분석적지도하,운용유한원수치모의수단,정량각화료령산지구현금구조응력장분포상태,학정최대주응력고치집중구여최대주응변량저치집중구적첩합부위:단렬만곡、교회여단렬첨멸상결합부위,구유능량집중정도교고특점,후기활동적가능성상대교대,병이차위의거권정료령산지구발생활동적고위구역화발생활동적차고위구역。
Tectonic stress is one of the most active factors in the earth crust, therefore figuring out its mode of action and form of conversion is of great significance to guide the research on fault activity. Through a survey on many structural features in the Lingshan area, which include vertical folds, conjugated joints and scratch on faults surface, etc., we investigated the revolution characteristics of the tectonic stress field, mode of action and sequence of tectonic stress in the Lingshan area by structural analysis method. The results show that the region experienced four periods of function of tectonic stress field which came from four different directions: NW, NE, nearly EW and nearly SN. The force of NW appeared early than that of NE, and then the compression of nearly EW. We concluded that the structural framework of the study area has been formed by the effect of SN compressed stress which is still active today. Meanwhile, based on the geologic analysis of the mechanism of tectonic stress, we analyzed the structural stress quantitatively in the Lingshan area using finite element numerical simulation. The simulation demonstrated that the overlapping parts of strain intensive zone in higher value of maximum principal stress and lower value of maximum principal stress, such as, fault-bend parts, the fault intersections and the faults disappears site, have higher energy and prone to reactive in the later period. We think that the north of Mountain Luoyang, Fengtong, Tieling, Luwu are high stress concentration area, and the energy release is minor. And thus, we proposed a high-risk district and a sub-high-risk district in the Lingshan area is according to the size and scope of the stress.