Super-high collapse resistant casings were developed by using Ti, Nb and V microalloyed CrMo steel and cross rolling techniques. A transmission electron microscope(TEM) and X-ray diffractometer were used to observe ...Super-high collapse resistant casings were developed by using Ti, Nb and V microalloyed CrMo steel and cross rolling techniques. A transmission electron microscope(TEM) and X-ray diffractometer were used to observe the characteristics of the microstructure. It was found that the ( 111 ) texture and the nano-scale precipitates distribute in a way that is beneficial to the collapse resistance, and the collapse strength of the prepared casing had a measurement, which was approximately 60% higher than the API standard value. A design concept to attain super-high collapse resistance is proposed based on the texture design and microstructure control.展开更多
Zhongyuan oilfields are mainly located in Dongpu depression,where the geological conditions were extremely complicated and the external stress is abnormally high,the pipe used may fail in the radial direction owing to...Zhongyuan oilfields are mainly located in Dongpu depression,where the geological conditions were extremely complicated and the external stress is abnormally high,the pipe used may fail in the radial direction owing to well shrinkage caused by the creep of salt rock,leading catastrophic economic loss. Therefore this region has been wellkown as a touchstone for high collapse resistance casing since long before.In order to satisfy the requirement for high-collapse strength casing owing to the creep of salt bed stratum in Dongpu Depression region,BG140TT,BG150TT and BG160TT high-strength collapse resistance casing series were developed to better cope with the severe geological conditions.Among the casing series, a BG160TT non-API specification casing with collapse strength not less than 170 MPa were prepared.Up to present,all these high-strength collapse resistance casing have been successfully applied in the Dongpu Depression region.The research concept,mechanical properties,as well as application result were introduced in this paper.展开更多
针对石油套管抗外挤能力计算这一热点问题,选取10支Φ114.3 mm×8.56 mm 140V套管进行几何尺寸和机械性能检测,并通过挤毁试验得到其抗挤强度;在考虑几何缺陷和实际力学性能的情况下,建立计算套管抗挤强度的有限元模型,对比模拟结...针对石油套管抗外挤能力计算这一热点问题,选取10支Φ114.3 mm×8.56 mm 140V套管进行几何尺寸和机械性能检测,并通过挤毁试验得到其抗挤强度;在考虑几何缺陷和实际力学性能的情况下,建立计算套管抗挤强度的有限元模型,对比模拟结果、理论计算结果及试验结果表明:模拟结果与试验结果相近,偏差-0.77%~+7.0%,而理论计算结果误差较大,偏差23.84%~37.56%。该有限元模型还可用来分析壁厚不均度和椭圆度对该规格套管抗挤强度的影响。展开更多
文摘Super-high collapse resistant casings were developed by using Ti, Nb and V microalloyed CrMo steel and cross rolling techniques. A transmission electron microscope(TEM) and X-ray diffractometer were used to observe the characteristics of the microstructure. It was found that the ( 111 ) texture and the nano-scale precipitates distribute in a way that is beneficial to the collapse resistance, and the collapse strength of the prepared casing had a measurement, which was approximately 60% higher than the API standard value. A design concept to attain super-high collapse resistance is proposed based on the texture design and microstructure control.
文摘Zhongyuan oilfields are mainly located in Dongpu depression,where the geological conditions were extremely complicated and the external stress is abnormally high,the pipe used may fail in the radial direction owing to well shrinkage caused by the creep of salt rock,leading catastrophic economic loss. Therefore this region has been wellkown as a touchstone for high collapse resistance casing since long before.In order to satisfy the requirement for high-collapse strength casing owing to the creep of salt bed stratum in Dongpu Depression region,BG140TT,BG150TT and BG160TT high-strength collapse resistance casing series were developed to better cope with the severe geological conditions.Among the casing series, a BG160TT non-API specification casing with collapse strength not less than 170 MPa were prepared.Up to present,all these high-strength collapse resistance casing have been successfully applied in the Dongpu Depression region.The research concept,mechanical properties,as well as application result were introduced in this paper.
文摘针对石油套管抗外挤能力计算这一热点问题,选取10支Φ114.3 mm×8.56 mm 140V套管进行几何尺寸和机械性能检测,并通过挤毁试验得到其抗挤强度;在考虑几何缺陷和实际力学性能的情况下,建立计算套管抗挤强度的有限元模型,对比模拟结果、理论计算结果及试验结果表明:模拟结果与试验结果相近,偏差-0.77%~+7.0%,而理论计算结果误差较大,偏差23.84%~37.56%。该有限元模型还可用来分析壁厚不均度和椭圆度对该规格套管抗挤强度的影响。