Claims
- 1. A method for analyzing wave motion in a solid medium, comprising:
- placing a cylindrical shell in a liquid-filled borehole in said solid, said cylindrical shell having a wall that is relatively thin compared to the radius of said cylindrical shell, and having a top and a bottom end,
- orienting said cylindrical shell inside said borehole,
- applying an axial force at an end of said cylindrical shell, thereby causing said cylindrical shell wall to alternately flex inwardly and outwardly, to cause pressure gradients in said borehole liquid to produce elastic wave stresses in a wall of said borehole which radiate into said solid medium,
- detecting said wave motion at a remote receiver, and
- analyzing said wave motion for characteristics associated with compressional waves in solids.
- 2. A method for analyzing wave motion in a solid medium, comprising:
- placing a cylindrical shell comprised of two cylindrical sections in a liquid-filled borehole in said solid, wherein said cylindrical sections are in a fixed position diametrically opposed from each other and have walls that are relatively thin compared to the radius of said sections, said first section being thinned at its midsection by decreasing its outer diameter, and said second section being thinned at its midsection by increasing its inner diameter, said cylindrical shell having a top and a bottom end, orienting said cylindrical shell inside said borehole,
- applying an axial force at an end of said cylindrical shell, thereby causing said cylindrical section walls to alternately flex inwardly and outwardly, said cylindrical sections flexing asymmetrically to cause pressure gradients in said borehole liquid to produce elastic wave stresses in a wall of said borehole which radiate into said solid medium,
- detecting said wave motion at a remote receiver, and
- analyzing said wave motion for characteristics associated with shear waves in solids.
- 3. A method for analyzing wave motion in a solid medium, comprising:
- placing a cylindrical shell comprised of four cylindrical sections in a liquid-filled borehole in said solid wherein said cylindrical sections have walls that are relatively thin compared to the radius of said sections, two of said sections being thinned at their midsection by decreasing their outer diameter and being in a fixed position diametrically opposed from each other, and two of said sections being thinned at their midsections by increasing their inner diameters, and being in a fixed position diametrically opposed from each other, said cylindrical shell having a top and a bottom end, orienting said cylindrical shell inside said borehole,
- applying an axial force at an end of said cylindrical shell, thereby causing said cylindrical section walls to alternately flex inwardly and outwardly, said cylindrical sections diametrically opposed from each other flexing symmetrically and said cylindrical sections adjacent each other flexing asymmetrically, to cause pressure gradients in said borehole liquid to produce elastic wave stresses in a wall of said borehole which radiate into said solid medium,
- detecting said wave motion at a remote receiver, and
- analyzing said wave motion for characteristics associated with high order wave types in solids.
Parent Case Info
This is a division, of application Ser. No. 07/395,788, filed Aug. 18, 1989 now U.S. Pat. No. 5,030,873.
US Referenced Citations (3)
Divisions (1)
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Number |
Date |
Country |
Parent |
395788 |
Aug 1989 |
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