Systems and methods for confining ballast samples

What is claimed is: 1. A sample confinement tool, comprising: a first end coupled to a driving tool, the driving tool coupled to a heavy-duty vehicle; a second end; a first steel member; and a second steel member coupled to the first steel member, a portion of the second steel member overlapping the first steel member, the second steel member having three sides; wherein the sample confinement tool is operable to: insert a predetermined depth below a ballast surface; collect a ballast sample within the second end of the sample confinement tool; confine the ballast sample within the second end of the sample confinement tool by mechanically compressing the ballast sample; and release the ballast sample into a sample receptacle by mechanically decompressing the ballast sample. 2. The sample confinement tool of claim 1 , further comprising a hydraulic actuator. 3. The sample confinement tool of claim 2 , wherein the hydraulic actuator is operable to: rotate the second steel member in a first direction relative to the first steel member to mechanically compress the ballast sample; and rotate the second steel member in a second direction relative to the first steel member to mechanically decompress the ballast sample. 4. The sample confinement tool of claim 1 , wherein the sample confinement tool is a hollow square tube that is approximately four feet in length, approximately eight inches in depth, and approximately eight inches in width. 5. The sample confinement tool of claim 1 , wherein: the sample confinement tool is coupled to one or more hydraulic lines; and the one or more hydraulic lines are coupled to a hydraulic circuit of the heavy-duty vehicle. 6. The sample confinement tool of claim 1 , further operable to vibrate, using the driving tool, until the second end reaches the predetermined depth below the ballast surface. 7. The sample confinement tool of claim 1 , wherein: the heavy-duty vehicle is a backhoe; the driving tool is a vibrating tool; and the ballast surface is a bed of a railroad track. 8. An apparatus, comprising: a first end; a second end; a first steel member; and a second steel member coupled to the first steel member, a portion of the second steel member overlapping the first steel member, the second steel member having three sides; wherein the apparatus is operable to: insert a predetermined depth below a ballast surface; collect a ballast sample within the second end of the apparatus; confine the ballast sample within the second end of the apparatus by mechanically compressing the ballast sample; and release the ballast sample into a sample receptacle by mechanically decompressing the ballast sample. 9. The apparatus of claim 8 , further comprising a hydraulic actuator. 10. The apparatus of claim 9 , the hydraulic actuator operable to: rotate the second steel member in a first direction relative to the first steel member to mechanically compress the ballast sample; and rotate the second steel member in a second direction relative to the first steel member to mechanically decompress the ballast sample. 11. The apparatus of claim 8 , wherein the apparatus is a hollow square tube that is approximately four feet in length, approximately eight inches in depth, and approximately eight inches in width. 12. The apparatus of claim 8 , wherein: the apparatus is coupled to one or more hydraulic lines; and the one or more hydraulic lines are coupled to a hydraulic circuit of a heavy-duty vehicle. 13. The apparatus of claim 8 , wherein the apparatus is further operable to vibrate until the second end of the apparatus reaches the predetermined depth below the ballast surface. 14. The apparatus of claim 8 , wherein: the first end is coupled to a driving tool; and the ballast surface is a bed of a railroad track. 15. A method, comprising: inserting a sample confinement tool a predetermined depth below a ballast surface, the sample confinement tool comprising: a first end; a second end; a first steel member; and a second steel member coupled to the first steel member, a portion of the second steel member overlapping the first steel member, the second steel member having three sides; collecting a ballast sample within the second end of the sample confinement tool; confining the ballast sample within the second end of the sample confinement tool by mechanically compressing the ballast sample; and releasing the ballast sample into a sample receptacle by mechanically decompressing the ballast sample. 16. The method of claim 15 , the sample confinement tool further comprising a hydraulic actuator. 17. The method of claim 16 , further comprising: rotating, using the hydraulic actuator, the second steel member in a first direction relative to the first steel member to mechanically compress the ballast sample; and rotating, using the hydraulic actuator, the second steel member in a second direction relative to the first steel member to mechanically decompress the ballast sample. 18. The method of claim 15 , wherein the sample confinement tool is a hollow square tube that is approximately four feet in length, approximately eight inches in depth, and approximately eight inches in width. 19. The method of claim 15 , further comprising coupling one or more hydraulic lines to the sample confinement tool and to a hydraulic circuit of a heavy-duty vehicle. 20. The method of claim 15 , further comprising vibrating, using a driving tool, the sample confinement tool until the second end of the sample confinement tool reaches the predetermined depth below the ballast surface.