geologic stress 中文意思是什麼
geologic stress
解釋
地質應力-
City construction is identical with applying load on soil mass, so researching maximal area coverage and locus of stress diffusion, transfer and concentration in soil will be helpful of analyzing the deformation and stabilization of city foundation. it also is important content in the research of ultimate bearing resistance of city geologic environment, and it will provide beneficial reference for city disaster reduction, prevention and city sustainable development
城市建設等同於在城市下伏土體上不斷施加荷載,土中應力分佈、傳遞、集聚的最大區域、部位的研究,將有助於分析城市地基變形與穩定問題,是城市地質環境極限承載力研究中的重要內容,可為城市減災、防災,城市可持續發展提供有利的依據。 -
According to real geologic situation, the preliminary evaluation of the structural fracture development in the studied area is conducted by means of structural stress simulation method in this paper
根據研究區實際地質情況,採用構造應力模擬方法,對研究區構造裂縫發育進行了初上學評價。 -
Non linear static & dynamic finite element procedure is adopted for the true emulation of the four typical geologic profiles of the dam, and imitates to compute the each stage deformation and stress distribution from the dam fill to full water run and during the 7 degree seismic intensity, the article also imitates to compute the response to earthquake force, the excess vibration pore water pressure distribution and permanent deformation, predicting the occurrence possibility of the crac ^ plastic zone and earthquake liquefaction
採用非線性靜、動力有限元分析程序對圍壩的4個典型剖面進行了靜、動力模擬模擬,模擬計算了壩體自填築至蓄水運行和發生7地震各階段壩體及壩基的變形以及應力分佈,地震應力響應和地震引起的超靜振動孔隙水壓力分佈以及永久變形。判斷了壩體和壩基中出現裂縫、塑性區以及地震液化的可能性。 -
Laws of propagation and attenuation of spherical stress wave in the geologic media have been studied in detail by means of mini - chemical explosion test in laboratory in this paper. the lows are fundamental to improve and develop theoretic models for underground explosions ( tamped and cavity decoupled ) on the stress wave propagation, safety and containment during the explosion
運用微型藥量化爆模擬試驗可以比較深入、細致地研究地質介質中球形發散應力波的傳播、衰減規律,這對于改進、發展用於估算地下爆炸(填實和空腔解耦)應力波的傳播及安全封閉的理論計算模型是至關重要的基礎資料。 -
Experimental analysis indicates that petrophysical property, dynamic nature of rocks and stress field intensity of structural deformation are the main geologic factors controlling the fractural development in this area
結合實驗分析認為,巖石特性、巖石本身的力學性質及構造變形應力場強度是控制其裂縫發育的主要地質因素。 -
Geologic background factors play an important controlling role in geneses of the zone with different characteristics in stress field, distribution of sedimentary facies or source condition, etc., all these, more or less, influence or control the final geneses of such a zone
論述了地質背景因素對低電阻率油氣層的形成具有重要的控製作用,在盆地的演化過程中應力機制、沉積相展布及物源等方面表現出的不同性,都或多或少地影響或控制了低電阻率油層的最終成因。 -
At first it analyzes the bedding rock slope ' s bedded rock and its incontinuity face, and studies the stress, strain, stability ' s condition of the bedding rock slope, fully considering the cohesive force of rock layer and incontinuity face. geologic mechanics models of two types of bedding rock slope are set up, the instability coefficient of bedding rock slope under different mechanical parameters is computed, and the conclusion that the stability of bedding rock slope is relation to rock layerer, cohesive force of incontinuity face, inner friction angle and rock layer obliquity has been gotten. based on the above discussion, the thesis comes down the influence of rock layer and the incontinuity face on the bedding rock slope to incontinuity face ' s influence factors, and discusses other factors that influence the bedding rock slope ' s stability, so gains the evaluating and forecasting index marks
本文首先對順層邊坡的層狀巖體及其中的層理面和不連續面進行了分析,對其應力應變進行了研究,得出了順層邊坡的穩定性不僅與巖體中巖石的強度有關,還與巖體中層理面及不連續面的內聚力、內摩擦角及其傾角有關;論文建立了層理面和節理面的地質力學模型,討論了其力學參數變化對邊坡穩定性的影響,並在此基礎上將層理面和節理面歸納為順層邊坡穩定性的結構面影響因素,同時討論了影響順層邊坡穩定性的其他因素,從而得出順層邊坡穩定性的評價預測指標。 -
Based on studying the structure, sedimentation, thermodynamic, geologic stress and hydrodynamics background in the north of songliao basin, this paper studied and evaluated the sourcerock conditions, reservoir conditions, caprock conditions, trap conditions and migration and accumulation conditions of f, y oil layers
在松遼盆地北部構造、沉積、熱力、地應力和水動力背景研究的基礎上,對扶、楊油層油氣源條件、儲集條件、蓋層條件、圈閉條件和運聚條件進行了系統研究與評價。 -
In different geologic development stage, different geodynamics background and tectonic stress field characteristic led to different baisin types, sedimentary assemblage. basin - mountain coupling forms and produced complex structure deforming. consequently, superimposed basin are characterized by multi - stage basin - formation, multi - stage hydrocarbon generation, multi - stage hydrocarbon accumulation. complex accumulation mode and oil / gas distribution law. tectonic process is key point and decisive in many hydrocarbon accumulation factors of superimposed basin
在不同的地質發展階段,由於不同的地球動力學背景和構造應力場特徵,導致了不同的盆地類型、沉積組合、邊界條件和盆山耦合形式,產生了復雜的構造變形,從而使疊合盆地具有多期成盆、多期成烴、多期成藏以及復雜的油氣成藏模式和油氣分佈規律。 -
Analysis on the relation between in - situ stress field in the deep and geologic structure in wanfu coal mine
萬福煤礦深部地應力場與地質構造關系分析 -
As the important components of physical geologic environment for rock mass, temperature field, seepage field and stress or strain field are coupled, namely coupled thermal - hydro - mechanical ( thm ) behaviour, which is highly non - linear and complex
溫度場、滲流場和變形場是巖體物理地質力學環境的重要組成部分,這三個場之間存在高度非線性的復雜耦合作用,即thm耦合作用。 -
In the process of same one regional stress field, the tectonic evolution and oil and gas geologic condition of kuqa foreland thrusting belt and the southern margin of junggar basin all show much similar characteristics, both of them developed multi - set mature source rocks, and formed multi - set high - quality reservoir - cover combinations, and developed various traps
天山造山帶的形成與演化對于其兩側盆地的展布、基底性質、沉積蓋層的規模、盆地整體結構特徵、後期破壞等具有重要的影響和控製作用。 -
This article selects the stress computation model fit for anpeng field in accordance with the geologic feature and available well log and testing data, and then presents the method for computing each parameter required by the model using the imaging logging data
根據安棚油田地質特徵和收集到的測井及測試資料,優選出合適的地應力計算模型,在此基礎上,給出了用成像測井資料確定模型中各參數的方法,進而計算地應力。
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