Method and apparatus of determining stiffness coefficients of formation

The invention claimed is: 1. A method of determining stiffness coefficients of formation, comprising: setting up a relation of stiffness coefficients of formation C 11 and C 33 , C 44 , C 66 based on stiffness coefficients of a formation core sample; computing clay content of formation along depth continuously based on formation logging information; computing the stiffness coefficient of formation C 33 along depth continuously based on a P-wave velocity and a volume density of the formation; computing the stiffness coefficient of formation C 44 along depth continuously based on a S-wave velocity and a volume density of the formation; and computing the stiffness coefficient of the formation C 11 along depth continuously based on a relation of an anisotropy coefficient of the P-wave of the formation and its clay content, the clay content of the formation, and the stiffness coefficient of the formation C 33 , and further computing the stiffness coefficient of the formation C 66 along depth continuously based on the relation of the stiffness coefficients of the formation C 11 and C 33 , C 44 , C 66 and the stiffness coefficients of the formation C 11 , C 33 , C 44 ; or alternatively, computing the stiffness coefficient of the formation C 66 along depth continuously based on a relation of an anisotropy coefficient of the S-wave of the formation and its clay content, the clay content of the formation, and the stiffness coefficient of the formation C 44 , and further computing the stiffness coefficient of the formation C 11 along depth continuously based on the relation of the stiffness coefficients of the formation C 11 and C 33 , C 44 , C 66 and the stiffness coefficients of the formation C 33 , C 44 , C 66 . 2. The method according to claim 1 , wherein, setting up a relation of the stiffness coefficients of the formation C 11 and C 33 , C 44 , C 66 based on the stiffness coefficients of the formation core sample, comprising the relation of the stiffness coefficients of the formation C 11 and C 33 , C 44 , C 66 set up by following formula: C 11 - C 33 2 · C 33 = m · C 66 - C 44 2 · C 44 + r ; wherein m, r are variable parameters. 3. The method according to claim 1 , wherein, computing the stiffness coefficient of the formation C 33 along depth continuously based on a P-wave velocity and a volume density of the formation, comprising calculating the stiffness coefficient of the formation C 33 in the following formula: C 33 =ρV p 2 ; wherein V p is a P-wave velocity of the formation, and ρ is a volume density of the formation. 4. The method according to claim 1 , wherein, computing the stiffness coefficient of the formation C 44 along depth continuously based on an S-wave velocity and a volume density of the formation, comprising calculating the stiffness coefficient of the formation C 44 in the following formula: C 44 =ρV s 2 ; wherein V s is a S-wave velocity of the formation, and ρ is a volume density of the formation. 5. The method according to claim 1 , wherein computing the stiffness coefficient of the formation C 11 along depth continuously is based on a relation of an anisotropy coefficient of P-wave of the formation and its clay content, the clay content of the formation, and the stiffness coefficient of the formation C 33 , comprising calculating the stiffness coefficient of the formation C 11 in the following formula: ɛ = k 1 · V CL n 1 ɛ = C 11 - C 33 2 · C 33 ; wherein ε is an anisotropy coefficient of the P-wave of the formation, V CL is the clay content of the formation, k 1 , n 1 are variable parameters. 6. The method according to claim 1 , wherein computing the stiffness coefficient of the formation C 66 along depth continuously is based on a relation of an anisotropy coefficient of S-wave of the formation and its clay content, the clay content of the formation, and the stiffness coefficient of the formation C 44 , comprising calculating the stiffness coefficient of the formation C 66 in the following formula: γ = k 2 · V CL n 2 ; γ = C 66 - C 44 2 · C 44 ; wherein γ is an anisotropy coefficient of the S-wave of the formation, V CL is the clay content of the formation, k 2 , n 2 are variable parameters. 7. An apparatus of determining stiffness coefficients of formation, comprising a processor that is configured to: setting up a