基于多基因遗传规划的储层岩石静态模量预测

声发射技术作为一种动态无损检测手段,主要实现对材料产生的缺陷进行动态监测及损伤位置的预测。微机电系统声发射传感器在检测材料疲劳裂纹位置和扩展方向上应用广泛,实现其对材料裂纹的3-D动态位移检测,对于无损检测技术的发展具有重要意义。该文提出了一种新型3-D微机电系统声发射传感器,首先对3-D微机电系统声发射传感器进行了结构设计和性能分析,结构方面主要包括z方向响应传感单元和x、y方向响应传感单元设计;其次通过传感器的阻尼、谐振点处灵敏度计算,证明传感器的性能良好;最后采用有限元软件ANSYS对z方向响应传感单元做了模态和谐响应分析,x、y方向响应传感单元做了模态分析和谐响应分析,仿真结果与理论值吻合较好,验证了结构设计的合理性,对实现材料裂纹的三维动态检测具有一定的参考意义。

Static modulus prediction for reservoir rocks based on multi-gene genetic programming

As a dynamic non-destructive testing method, acoustic emission technology mainly realizes dynamic monitoring of material defects and prediction of damage location.The acoustic emission sensor of Microelectro Mechanical System (MEMS) is mainly used to detect the initial position and extension direction of fatigue crack, and realize its three-dimensional dynamic displacement detection of material crack, which is of great significance for the development of nondestructive testing technology. In this paper, a new type of 3-D MEMS acoustic emission sensor is proposed.Firstly, the structure design and performance analysis of 3-D MEMS acoustic emission sensor are carried out.The structure mainly includes the z-direction response sensing unit and the x, y direction response sensing unit design. Secondly, through the damping and sensitivity calculation of the sensor, the performance of the sensor is proved to be good. Finally, the modal harmonic response analysis of the z-direction response sensing unit was carried out by the finite element software ANSYS,and the x and y direction response sensing units were analyzed for modal analysis and the response was well. The simulation results are in good agreement with the theoretical values, verifying the rationality of the structure design and has certain reference significance for realizing the 3-D dynamic detection of material cracks.