Exploratory Study of Non-Destructive Testing of Reinforced Concrete Products

The paper presents the experimental data based on dynamoelectric phenomena in a product made of a material containing piezoelectric inclusions and mathematical simulation results of the wave process in this product. Calculations are based on the author's program and special software package. Two variants are considered: a homogeneous sample and a sample with defect inclusions. Based on the mutual correspondence of experimental and calculated data, it is concluded that there are prospects for a new method of non-destructive testing of products made of materials with piezoelectric inclusions based on dynamoelectric phenomena.

1. Martínez I., Andrade C. Examples of Reinforcement Corrosion Monitoring by Embedded Sensors in Concrete Structures. Cement and Concrete Composites. 2009; 31: 545–554.

2. Hakan Yalciner, Ozgur Eren, Serhan Sensoy. An Experimental Study on the Bond Strength Between Reinforcement Bars and Concrete as a Function of Concrete Cover, Strength and Corrosion Level. Cement and Concrete Composites. 2012; 42: 643–655.

3. Fursa T.V., Osipov K.Yu., Dann D.D. Development of Non-Destructive Method for Testing Concrete Strength with Defect Structure Based on Dynamoelectric Transformations. Defektoskopiya. 2011; (5): 39–47. (In Russian)

4. Kukudzhanov V.N. Numerical Solution of Non–Dimensional Problems of Stress Wave Propagation in Solids. Soobshcheniya po prikladnoi mekhanike. 1976; (6): 11–37. (In Russian)

5. Kukudzhanov V.N., Kondaurov V.I. Numerical Solution of Non-Dimensional Problems of Dynamics of Solid Deformable Body. Problemy dinamiki uprugoplasticheskikh sred. Ser. Mekhanika. Novoe v zarubezhnoi nauke. 1975; (5): 39–84. (In Russian)

6. Novatsky V.K. Wave Problems in the Theory of Plasticity. Moscow: Mir, 1978. 307 p. (In Russian)

7. Warming R.F.P., Kutler G. Lomax Second and Third-Order Noncentered Difference Schemes for Nonlinear Hyperbolic Equations. ARS Journal. 1973; 11(2): 6–85.

8. Godunov K. Numerical Solution of Multidimensional Problems of Gas Dynamics. Moscow: Nauka, 1976. 400 p. (In Russian)

9. Klebanov Ya.M., Davydov A.N., Papirovsky V.L. ANSYS FE Program in the Educational Process (Samara State Technical University). Available: cadfem.ru (In Russian)

10. Zhidkov A.V. Application of ANSYS FE Program for Solving Problems of Geometric Modeling. Nizhny Novgorod, 2006. 115 p. Available:https://savenkovvn.ucoz.ru/zhidkov_ansys.pdf (In Russian)

11. Selle A., Fedkiw R., Kim B.-M., Liu Y., Rossignac J. An Unconditionally Stable Maccormack Method. Journal of Scientific Computing. 2008; 35 (2–3): 350–371.

12. Dupont T.F., Yingjie Liu. Back and Forth, Error Compensation and Correction Methods for Semi–Lagrangian Schemes with Application to Level Set Interface Computations. Mathematics of Computation. 2006; 311–324. (In press)

13. Yavorsky B.M., Detlaf A.A. Handbook of Physics. Moscow: Nauka, 1977. (In Russian)

14. Lyukshin B.A., Utsyn G.E., Fursa T.V. Electromechanical Model of Piezo-Containing Medium: Mathematical Modeling of Dynamoelectric Processes. Tomsk: TPU, 2015. 101 p. (In Russian)