Mounting bracket for strain sensor

What is claimed is: 1. A method of mounting a strain sensor to a pipe comprising: positioning a mechanical clamp circumferentially around an outer surface of a pipe wall, said mechanical clamp having a central longitudinal axis, said mechanical clamp having a plurality of sections including: a bottom flexing section having an arcuate portion terminating at a first terminal end in a first bottom flexing section mounting wing and said bottom flexing section terminating at a second end in a second bottom flexing section mounting wing, each of said bottom flexing section mounting wings including an opening there through for receiving a removable connector; a first upper flexing section having an arcuate portion terminating at a first terminal end in a first mounting wing and said first upper flexing section terminating at second terminal end in a first pivot pin assembly having a first pivot pin bore parallel to the central longitudinal axis of the clamp, the first mounting wing having an opening there through for receiving a removable connector; a second upper flexing section having an arcuate portion terminating at a third terminal end in a second mounting wing and said second upper flexing section terminating at fourth terminal end in a second pivot pin assembly having a second pivot pin bore parallel to the central longitudinal axis of the clamp, the second mounting wing having an opening there through for receiving a removable connector; a first sensor mounting arm disposed outwardly on the first upper flexing section, said first sensor mounting arm including at least one first sensor mounting arm receptacle sized to receive and retain a first end of a first strain sensor; and a second sensor mounting arm disposed outwardly on the second upper flexing section, said second sensor mounting arm including at least one second sensor mounting arm receptacle sized to receive and retain a second end of the first strain sensor; and positioning the first end of the first strain sensor in the first sensor mounting arm receptacle of the first sensor mounting arm and the second end of the first strain sensor in the second sensor mounting arm receptacle of the second sensor mounting arm. 2. The method of claim 1 further comprising: inserting one or more individual adjustment rods inwardly in a radial direction toward the longitudinal axis in one or more radial openings in one or more of the bottom flexing section, the first upper flexing, and the second upper flexing section; and contacting the outer surface of the pipe with a landing pad affixed to an end of each adjustment rod positioned toward the longitudinal axis of the pipe. 3. The mounting system of claim 2 , wherein each of the landing pads include a compression pad having at least one layer of vibration and acoustic noise absorbing material affixed to each of the landing pads; and the method further includes dampening vibration and acoustic noise from the pipe. 4. The method of claim 1 further comprising: positioning the first sensor mounting arm parallel to the second sensor mounting arm when the clamp is in an unstressed condition. 5. The method of claim 1 further comprising: positioning a first end of a second strain sensor in a third sensor mounting arm receptacle of the first sensor mounting arm and a second end of the second strain sensor in a fourth sensor mounting arm receptacle of the second sensor mounting arm. 6. The method of claim 1 further including connecting a rigid linking plate to a distal end of the first sensor mounting arm and to a distal end of the second sensor mounting arm. 7. The method of claim 1 , wherein a pivot pin configured to engage the first and second pivot pin assemblies includes a compressible coating thereby providing additional flexibility to the mechanical clamp.