KurutznÉ Dr. KovÁcs MÁrta

Biography

Dr. KURUTZNÉ DR. KOVÁCS MÁRTA is affiliated to Department of Structural Mechanics, , where Dr. KURUTZNÉ DR. KOVÁCS MÁRTA is currently working as Prof. Emerita. Dr. KURUTZNÉ DR. KOVÁCS MÁRTA has numerous publications within the specialty and published in reputed national and international peer-reviewed journals. Dr. KURUTZNÉ DR. KOVÁCS MÁRTA is actively associated with different national and international societies and academies. Dr. KURUTZNÉ DR. KOVÁCS MÁRTA gain recognition among the honourable subject experts with the contributions made. Dr. KURUTZNÉ DR. KOVÁCS MÁRTA is been appreciated by several reputed awards and funding support. Dr. KURUTZNÉ DR. KOVÁCS MÁRTA major research interest is in studies related to Variational principles with inequality side conditions, Load history analysis of structures with subdifferential materials and joints, Nonsmooth stability analysis, Deformation-dependent loading devices and imperfection sensitivity analysis, Deformation-dependent loading devices and imperfection sensitivity analysis, Material instability and damage analysis, Experimental and numerical biomechanics of human lumbar spine, Biomechanical parameter analysis, Computer simulation and parameter identification of conservative therapies and surgical treatments, Numerical models of bone-prosthesis interaction and damage processes, Bone strength of osteoporotic lumbar spine vertebrae by mechanical tests and morphometric analysis of CT, MRI or US pictures, Numerical simulation of new spinal surgical techniques..

Research Interest

Variational principles with inequality side conditions, Load history analysis of structures with subdifferential materials and joints, Nonsmooth stability analysis, Deformation-dependent loading devices and imperfection sensitivity analysis, Deformation-dependent loading devices and imperfection sensitivity analysis, Material instability and damage analysis, Experimental and numerical biomechanics of human lumbar spine, Biomechanical parameter analysis, Computer simulation and parameter identification of conservative therapies and surgical treatments, Numerical models of bone-prosthesis interaction and damage processes, Bone strength of osteoporotic lumbar spine vertebrae by mechanical tests and morphometric analysis of CT, MRI or US pictures, Numerical simulation of new spinal surgical techniques.