共查询到20条相似文献,搜索用时 46 毫秒
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为了确保可膨胀波纹管在φ120 mm地质钻井中实现封隔漏失地层的功能,在合理设计8字形波纹管截面形状的基础上,采用有限元理论模拟了不同壁厚和材料的波纹管水力膨胀成形过程,并进行了室内水力膨胀试验。结果表明:波纹管壁厚越薄,膨胀效果越好,但壁厚必须满足抗外挤强度和抗内压强度条件;适用于φ120 mm井眼的8字形波纹管,其材质应符合如下条件。屈强比≤0.6;延伸率≥25%;抗拉强度σb≥410 MPa;试制的波纹管膨胀后最小外径能够满足后续机械膨胀要求,最大膨胀压力为13.6 MPa,符合钻探现场使用条件。研究结果为波纹管野外试验提供了技术支撑。 相似文献
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膨胀波纹管技术是将圆管制成异形截面管,下入孔内后胀圆维护孔壁稳定的一种新兴钻探技术。针对地质勘探的行业需求,提出了一套膨胀波纹管截面形状的设计理论,系统地阐述了膨胀波纹管截面设计的相关步骤和细节,设计出了6种花形不同尺寸的膨胀波纹管截面设计图。在此基础上,利用ANSYS14.0数值模拟软件对不同的设计截面进行了对比分析,得出了膨胀波纹管选择的3条原则:六瓣梅花形是最佳截面形式;设计截面的波峰和波谷的半径、弧度应尽量接近;在满足护壁压力要求的情况,壁厚应尽量的小。 相似文献
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可膨胀波纹管技术是通过对圆形管材进行特殊工艺处理,使管径发生变形以便其顺利通过井孔到达问题地层,然后通过液压膨胀复原,达到修井固井的目的。经过多年的技术发展,此技术已在石油工程中得到很多实践应用,但是在口径相对较小的地质勘探孔中,由于受口径以及工艺技术等限制,尚未有相关应用。主要针对材料编号为KP02的φ75 mm小口径梅花状可膨胀波纹管进行研究,通过利用ANSYS有限元软件进行模拟以及实验室实验,得到其膨胀变形参数并对其膨胀过程进行对比分析。 相似文献
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针对红山窑膨胀红砂岩具有微膨胀、易软化、易风化的特点,采用扫描电子显微镜、X射线衍射仪、MTS815.03岩石力学刚性电液伺服试验机等先进的设备为测试手段,对3种不同风化程度的膨胀红砂岩湿化过程进行观察和机理分析,从试验和机理两方面探讨膨胀红砂岩的湿化性,从而进一步阐明红砂岩膨胀性、裂隙化具有本质的区别。试验结果表明:(1) 中风化红砂岩干燥时抗压强度为5.85 MPa,饱和试样为0.20 MPa,岩石本身强度随吸水率增加而明显下降,具有强烈的软化作用;(2) 膨胀红砂岩的湿化性随胶结系数的减小而愈加强烈,与红砂岩风化程度(埋深)无关。这些研究成果对红山窑水利枢纽工程红砂岩地基开挖易裂以及边坡表层溜坍预治具有较大的指导意义。 相似文献
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李家窑膨胀岩膨胀性能的试验研究 总被引:5,自引:2,他引:3
对山西万家寨引黄工程南干线某地的膨胀岩进行了室内物理化学性质测试、常规的膨胀率与膨胀力及非常规的三向膨胀与大比例尺膨胀试验,分析结果后得出了相应的结论 相似文献
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Gilles Serge Odin 《Comptes Rendus Geoscience》2002,334(6):409-414
Lithostratigraphy, physicochemical stratigraphy, biostratigraphy, and geochronology of the 77–70 Ma old series bracketing the Campanian–Maastrichtian boundary have been investigated by 70 experts. For the first time, direct relationships between macro- and microfossils have been established, as well as direct and indirect relationships between chemo-physical and biostratigraphical tools. A combination of criteria for selecting the boundary level, duration estimates, uncertainties on durations and on the location of biohorizons have been considered; new chronostratigraphic units are proposed. The geological site at Tercis is accepted by the Commission on Stratigraphy as the international reference for the stratigraphy of the studied interval. To cite this article: G.S. Odin, C. R. Geoscience 334 (2002) 409–414. 相似文献
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正1 Introduction Geological studies established on several sections in Lanping-Simao basin have shown that the salt-bearing strata of Mengyejing formation(Yunlong Fm.in Lanping basin)are constituted by an alternation of salt layers and interbedded facies.The latter consists mainly of mudstones,and mudstone-rich conglomerate.The mineralogy and geochemistry of salt-bearing beds and 相似文献
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正On 22nd April 2014,with the approach of the 45th World Earth Day,China’s Ministry of Land and resources issued the status of China’s mineral resources in 2013.The first task of the prospecting breakthrough strategy action implemented in the last five years has been completed,and China’s security capacity for mineral resources has been significantly improved.In the 相似文献
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正There are more than 700 salt lakes with area of more than 1km2 on the Qinghai-Tibet Plateau of China.In recent years,an oilfield brine was also found in the Nanyishan Section of Qaidam Basin in the Qinghai-Tibet 相似文献
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正1 Introduction Physical and numerical models are constructed to investigate the evolution and mechanism of salt migration driven by tectonic processes.In recent years,we have designed and ran series of models to simulate salt 相似文献
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YUAN Qin LI Jianguo QIN Zhanjie WEI Haicheng SHENG Shurong SHAN Fashou 《《地质学报》英文版》2014,88(Z1):276-276
正The study of Cretaceous-Palaeogene salt-bearing strata of the Khorat Basin Laos and the Lanping-Simao Basin in Yunnan,China has an great significance not only in explaining the basin evolution and the genesis of potash 相似文献
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正Potash is one of the long-term scare deposits in China,and potash prospecting has long been listed as a key brainstorm project for our nation and geological prospecting units.There have been considerable studies in search for potash deposits in the Kuqa depression of the Tarim basin(Jackson et al.,1991;Gemmer et al.,2004;Vendeville,2005;Vendeville and Jackson,1992a,1992b), 相似文献
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正1 Introduction Qaidam Basin in Qinghai,including 43 salt lakes with multiple dominant mineral such as potassium,magnesium,lithium etc.,is the most intensive distribution of Saline 相似文献