Theoretical and Experimental Investigation of Ultrasonic Focusing with Annular Phased Array 被引量：5

Theoretical and Experimental Investigation of Ultrasonic Focusing with Annular Phased Array

导出

摘要 The focused acoustic field generated by an annular array interface are investigated theoretically and experimentally. transducer and its reflection field on a solid-liquid Theoretically, the concise analytic expressions about the radiation and reflection acoustic fields of the annular phased array are obtained by the ray approach method （saddle-point method）. In experiment, an annular transducer with 8 equal-area elements is designed and fabricated, and a series of experiments about the radiation acoustic field and its reflection on the liquid-solid interface are carried out. The experimental characteristics of the transducer are in good agreement with the numerical ones. It shows the correctness of the theoretical result and the feasibility of dynamic focusing of the experiment system. With the maximum amplitude and its emergence time of the reflection wave, we can acquire the information and the imaging of the reflection interface by the annular phased array dynamic focusing. The focused acoustic field generated by an annular array interface are investigated theoretically and experimentally. transducer and its reflection field on a solid-liquid Theoretically, the concise analytic expressions about the radiation and reflection acoustic fields of the annular phased array are obtained by the ray approach method （saddle-point method）. In experiment, an annular transducer with 8 equal-area elements is designed and fabricated, and a series of experiments about the radiation acoustic field and its reflection on the liquid-solid interface are carried out. The experimental characteristics of the transducer are in good agreement with the numerical ones. It shows the correctness of the theoretical result and the feasibility of dynamic focusing of the experiment system. With the maximum amplitude and its emergence time of the reflection wave, we can acquire the information and the imaging of the reflection interface by the annular phased array dynamic focusing.

作者张碧星汪承灏赖溥祥

机构地区 Institute of Acoustics

出处《Chinese Physics Letters》 SCIE CAS CSCD 2006年第4期875-878,共4页 中国物理快报（英文版）

基金 Supported by the National Natural Science Foundation of China under Grant No 10134020.

分类号 O42 [理学—声学]

引文网络
相关文献

参考文献1

1SHEN Chengde , LIU Dongsheng (LIU Tungsheng) , PENG Shaolin, SUN Yanmin , JIANG Mantao , Yl Weixi , XING Changping , GAO Quanzhou , LI Zhi’an and ZHOU Guoyi Guangzhou Institute of Geochemisry, Chinese Academy of Sciences, Guangzhou 510640, China ,Institute of Geology, Chinese Academy of Sciences , Beijing 100029, China ,South China Institute of Botany, Chinese Academy of Sciences, Guangzhou 510650, China.^(14)C measurement of forest soils in Dinghushan Biosphere Reserve[J].Chinese Science Bulletin,1999,44(3):251-256. 被引量：7

二级参考文献10

1Peng Shaolin,Fang Wei.Development of species diversity inrestoration process of tropical man-made forest ecosystem in China. Acta Ecologica Sinica . 1995
2Wu,H,Deng,H,Zheng,L.Physico-geographical features of Dinghushan and their dynamic analyses. Trop Subtrop Forest Ecosyst Res . 1982
3H. W. Scharpenseel,P. Becker-Heidmann.Twenty-five years of radiocarbon dating soils: Paradigm of erring and learning. Radio-carbon . 1992
4Y. Wang,R. Amundson,S. Trumbore.Radiocarbon dating of soil organic matter. Quaternary Research . 1996
5Becker-Heidmann P.Scharpenseel H W.Carbon isotope dynamics in some tropical soils. Radiocarbon . 1989
6DD Harkness,AF Harrison,PJ Bacon.The temporal distribution of bomb C-14 in a forest soil. Radiocarbon . 1986
7Tu Mengzhao.Litter production in Dinghushan Nature Reserve. Tropical and Subtropical Forest Ecosystem . 1984
8Deng Bangquan,,Lu Lucheng,Wang Deqong et al.The estimation of the respiratory capacity and carbon balance of the soils in the forest ecosystem of Dinghushan Biosphere Reserve. Tropical and Subtropical Forest Ecosystem . 1990
9He Chinhai,Chen Shaoqi,Liang Yongan.The soils of Dinghushan biosphere reserve. Tropical and Subtropical Forest Ecosystem . 1982
10Shen Chengde,Yi Weixi,Liu Tungsheng.2</sub> global cycle and its isotope tracing investigation&sid=Quaternary Research&aufirst=Shen Chengde');
 ">CO<sub>2</sub> global cycle and its isotope tracing investigation. Quaternary Research . 1995

共引文献6

1陶贞,沈承德,易惟熙,高全洲.土壤碳动力学同位素示踪研究进展[J].地球科学进展,2004,19(5):793-801. 被引量：6
2陈庆强,沈承德,孙彦敏,彭少麟,易惟熙,李志安,姜漫涛.鼎湖山土壤有机质深度分布的剖面演化机制[J].土壤学报,2005,42(1):1-8. 被引量：64
3陈庆强,沈承德,孙彦敏,彭少麟,易惟熙,李志安,姜漫涛.鼎湖山土壤有机质δ^(13)C时空分异机制[J].应用生态学报,2005,16(3):469-474. 被引量：10
4DING Ping,SHEN ChengDe,WANG Ning,YI WeiXi,DING XingFang,FU DongPo,LIU KeXin,ZHAO Ping.Carbon isotopic composition,turnover and origins of soil CO_2 in a monsoon evergreen broadleaf forest in the Dinghushan Biosphere Reservoir,South China[J].Chinese Science Bulletin,2010,55(23):2548-2556. 被引量：4
5Feifei Zhu,Xiankai Lu,Jiangming Mo.Phosphorus limitation on photosynthesis of two dominant understory species in a lowland tropical forest[J].Journal of Plant Ecology,2014,7(6):526-534. 被引量：10
6沈承德,孙彦敏,易惟熙,杨英,李志安,彭少麟,J.Beer,S.Ivy-Ochs,P.W.Kubic,M.Suter.丘陵草坡土壤^(10)Be分布特征及土壤生成速率[J].中国科学（D辑）,2004,34(2):139-144. 被引量：6

同被引文献64

1孙宝申,沈建中.合成孔径聚焦超声成像(一)[J].应用声学,1993,12(3):43-48. 被引量：52
2孙宝申,沈建中.合成孔径聚焦超声成像(二)[J].应用声学,1993,12(5):39-44. 被引量：24
3孙宝申,沈建中.合成孔径聚焦超声成像(三)[J].应用声学,1994,13(2):39-44. 被引量：6
4吴昊,张碧星,汪承灏.声波在固体板中的多径传播及其时间反转声场[J].声学学报,2005,30(3):215-221. 被引量：18
5刘建国,李志舜.湖底回波的包络特征提取[J].计算机仿真,2005,22(10):151-154. 被引量：3
6邓方青,张碧星,王东,宋公仆.Radiation Acoustic Field of a Linear Phased Array on a Cylindrical Surface[J].Chinese Physics Letters,2006,23(12):3297-3300. 被引量：7
7赖溥祥,张碧星,汪承灏.环形相控阵换能器辐射和反射声场[J].声学学报,2007,32(3):212-220. 被引量：24
8吴鹏程,陈一健,杨琳,戢俊文.成像测井技术研究现状及应用[J].天然气勘探与开发,2007,30(2):36-40. 被引量：33
9王文龙,师芳芳,张茉莉,张碧星.凹面线性相控阵聚焦与扫描成像[J].声学学报,2008,33(2):164-170. 被引量：13
10张碧星,王文龙.凹面相控阵聚焦声场在液固界面上的反射和折射[J].物理学报,2008,57(6):3613-3619. 被引量：19

引证文献5

1SHI Fangfang,WU Xianmei,KE Yijing,ZHANG Bixing.Application of cylindrical linear phased array in casing borehole[J].Chinese Journal of Acoustics,2010,29(1):65-72. 被引量：10
2董晗,孔超,师芳芳,张碧星.石油钻井中超声相控阵井壁成像检测技术研究[J].机械工程学报,2016,52(22):1-8. 被引量：3
3董晗,孔超,师芳芳,张碧星.超声相控阵井壁成像检测的回波信号处理[J].无损检测,2017,39(5):65-69. 被引量：6
4张碧星,张萍,阎守国,黄娟.超声成像检测研究进展[J].陕西师范大学学报（自然科学版）,2022,50(6):1-16. 被引量：13
5狄成军,李潇,罗忠兵,刘晨飞,金士杰.铝合金薄板焊缝根部缺陷高阶半跨模式波定量检测[J].应用声学,2025,44(1):120-127.

二级引证文献31

1陈雪莲,董兴蒙,谭宝海,李刚.套管井中相控线阵声源激发声场的实验室物理模拟研究[J].声学学报,2013,38(4):433-439. 被引量：4
2CHEN Xuelian,DONG Xingmeng,TAN Baohai,LI Gang.Experimental studies of linear phased-array transmitter acoustic logging in cased wells with scaled borehole models[J].Chinese Journal of Acoustics,2013,32(3):274-283. 被引量：5
3唐军,章成广,张碧星,师芳芳.基于声波-变密度测井的固井质量评价方法[J].石油勘探与开发,2016,43(3):469-475. 被引量：32
4施成龙,师芳芳,张碧星.利用深度神经网络和小波包变换进行缺陷类型分析[J].声学学报,2016,41(4):499-506. 被引量：16
5李禹志,王青东,郑海祥,郭各朴,马青玉,龚秀芬.环形稀疏声源阵列声涡旋的优化与操控[J].声学学报,2016,41(5):704-712. 被引量：5
6董晗,孔超,师芳芳,张碧星.石油钻井中超声相控阵井壁成像检测技术研究[J].机械工程学报,2016,52(22):1-8. 被引量：3
7单宝华,李冬生,郭佳,黄敏聪,段忠东.双层界面下非近轴近似多元高斯模型的相控阵声场模拟[J].声学学报,2017,42(4):457-464. 被引量：4
8郭忠存,阎守国,张碧星.圆台形超声相控阵列在管材检测中的聚焦声场[J].声学学报,2018,43(5):793-802. 被引量：7
9甘甜,仵杰.声波测井中相控线阵辐射器的设计[J].电子测量与仪器学报,2018,32(4):35-42. 被引量：1
10何维长.两相介质中平底孔超声相控阵信号模型研究[J].电声技术,2019,43(8):73-75.

1余立立,寿文德,惠春.Modeling of Focused Acoustic Field of a Concave Multi-annular Phased Array Using Spheroidal Beam Equation[J].Communications in Theoretical Physics,2012,57(2):285-289.
2徐跃明.数学有痕思想无形[J].中小学数学（小学版）,2005(4):53-54.
3王云霞.实验教学中能力培养的几点思考[J].玉林师专学报,1999,20(3):116-117. 被引量：1
4何春华.在“三步式教学”中培养学生的创新意识[J].中小学电教（下）,2011(3):80-80.
5李义梅.培养学生数学阅读能力让阅读走进数学课堂[J].科学咨询,2016,0(17):134-135. 被引量：1
6张书增,李雄兵,Hyunjo Jeong.Phased Array Beam Fields of Nonlinear Rayleigh Surface Waves[J].Chinese Physics Letters,2016,33(7):105-109.
7陶超,项四平.基于光声-超声协同的多模成像系统[J].中国医学物理学杂志,2016,33(12):1240-1244. 被引量：3
8XIE Wen-Fang.A Study of Confined Helium Atom[J].Communications in Theoretical Physics,2007,48(2X):331-334.
9严碧歌,牛俊得.医学超声治疗原理及其临床应用研究[J].现代生物医学进展,2007,7(8):1246-1248. 被引量：18
10LAI Puxiang ZHANG Bixing WANG Chenghao.Radiation and reflection acoustical fields of an annular phased array[J].Chinese Journal of Acoustics,2007,26(3):246-260. 被引量：3

Chinese Physics Letters

2006年第4期

浏览历史

内容加载中请稍等...