![]() ![]() Sutradhar A, Paulino GH: The simple boundary element method for transient heat conduction in functionally graded materials. Journal of the Mechanics and Physics of Solids 40(4), 739–765 (1992).ĭeeg WF: The analysis of dislocation, crack, and inclusion problems in piezoelectric solids. Suo Z, Kuo CM, Barnett DM, Willis JR: Fracture mechanics for piezoelectric ceramics. Hao TH, Shen ZY: A new electric boundary condition of electric fracture mechanics and its applications. Parton VZ: Fracture mechanics of piezoelectric materials. Qin QH: Variational formulations for TFEM of piezoelectricity. kistler/ref/tech_theory_text.htm (2010). ![]() Kistler: The Piezoelectric Effect, Theory, Design and Usage. Higher Education Press & Springer, Beijing (2008). Qin QH, Yang QS: Macro-Micro Theory on Multifield Behaviour of Heterogeneous Materials. Qin QH: Green’s Function And Boundary Elements in Multifield Materials. Qin QH: Fracture Mechanics of Piezoelectric Materials. Rogacheva NN: The Theory of Piezoelectric Shells and Plates. Oxford Science Publications, New York (1990). Ikeda T: Fundamentals of Piezoelectricity. Gordon and Breach Science Publishers, New York (1988). Parton VZ, Kudryavtsev BA: Electromagnetoelasticity, Piezoelectrics and Electrically Conductive Solids. Tiersten HF: Linear Piezoelectric Plate Vibrations. Voigt W: General theory of the piezo and pyroelectric properties of crystals. Pa(1881).Ĭurie J, Curie P: Contractions et dilations productes par des tensions electriques dans les cristaux hemiedres a faces inclines. Lippmann HG: Sur le principe de la conversation de l’eletricite ou second principe de la theorie des phenomenes electriques. 4 de la Societe Mineralogique de France 3, 90(1880) and Comptes Rendus Acad. Curie J, Curie P: Development par compression de l’eletricite polaire dans les cristaux hemiedres a faces inclines. ![]()
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