宋若龍,男,博士,吉林大學物理學院副教授。
基本介紹
- 中文名:宋若龍
- 學位/學歷:博士
- 職業:教師
- 專業方向:聲波測井,聲學材料
- 任職院校:吉林大學物理學院
人物經歷,主講課程,研究方向,學術成果,
人物經歷
教育經歷
1999.09~2003.06 吉林大學物理學院 物理學專業 本科
2003.09~2008.06 吉林大學物理學院 聲學 碩博連讀、
工作經歷
2008.07~2011.09 吉林大學物理學院 聲學與微波物理系 講師
2011.09~ 吉林大學物理學院 聲學與微波物理系 副教授
主講課程
理論力學,理論聲學基礎,信號與系統
研究方向
聲波測井,聲學材料
學術成果
科研項目
1. 橫向,用於輕質水泥固井質量評價的Lamb波傳播理論和資料處理與現場快速直觀解釋方法研究,2015.06-2015.11,項目負責人
2. 橫向,非對稱聲場正演數值模擬及反演方法研究,2013.11-2015.06,項目負責人
3. 橫向,井身狀況測井儀器設計及解釋方法的數值模擬研究,2012.12-2013.12,子項目負責人
4. 橫向,外夾式超聲流量計導波板設計,2012.11-2013.02,項目負責人
5. 自然科學基金青年,水平套管井非對稱聲場仿真與固井質量評價方法研究,2010.01-2012.12,項目負責人
6. 橫向,水泥膠結刻度井數值仿真及固井質量刻度井群評價方法研究,2011.01-2011.08,主要參加人
7. 橫向,水平井非對稱聲場正反演研究,2009.05-2010.06,主要參加人
論文論著
[1] Ruo-Long SONG *, Ji-Sheng LIU, Xiu-Mei LV, Xiu-Tian YANG, Ke-Xie WANG, Liang SUN, Effects of tool eccentralization on Cement Bond Log measurements: Numerical and experimental results.
[2] Ruo-Long Song*, Jin-Xia Liu, Chun-Hui Hou, and Ke-Xie Wang, Numerical simulation of Sector Bond log and improved cement bond image.
[3] Gui-Jin Yao*, Ruo-long Song, Hong-bo Lin, Xiang-lin Zhang, Ke-xie Wang, A direct determination of acoustical impedance of a thin layer on a thick elastic substrate by the ultrasound.
[4] Shou-Guo Yan, Ruo-Long Song*, Wei-Guo Lv, Jun Ma, Ke-Xie Wang, Numerical simulation of acoustic fields excited by cross-dipole source in deviated wells in transversely isotropic formation.
[5] Ruo-Long Song*, Jin-Xia Liu, Gui-Jin Yao, Ke-Xie Wang, Parallel finite difference modeling of acoustic fields in nonaxisymmetric cased hole.
[6] Guijin Yao*, Weiguo Lv, Ruolong Song, Determination of the parameters of a linear-viscoelastic thin layer using the normally-incident ultrasonic waves.
[7] Song Ruolong*, Wang Tianhui, Wang Kexie, Han Wei, P-wave seismic attenuation due to phononic effects.
[8] Ruolong Song*, Kexie Wang, Wei Han, and Yao Guijin, Theoretical investigation of acoustic band gaps in cylindrical periodically layered structure.
[9] Yao Guijin*, Song Ruolong, Wang Kexie, Asymptotic analysis of vertical branch-cut integral of shear waves in a fluid-filled borehole utilizing the steepest-descent method.
[10] Yao Guijin*, Cui Zhiwen, Song Ruolong, Wang Kexie, An ultrasonic method for determination of acoustic impedance, time of flight, and attenuation of a thin linear-viscoelastic layer.
[11] Song Ruolong, Wang Kexie*, Zhang Hongbing, Han Wei, A new method for calculation of single seismic phase of cylindrically multilayered media including liquid interlayer.
[12] Song Ruolong, Ma Jun, and Wang Kexie*, The application of the nonsplitting perfectly matched layer in numerical modeling of wave propagation in poroelastic media.
