This book examines the theoretical and practical aspects of tribological process using synergy, fractal and multifractal methods, and the fractal and multifractal models of self-similar tribosystems developed on their basis. It provides a comprehensive analysis of their effectiveness, and also considers the method of flicker noise spectroscopy with detailed parameterization of surface roughness friction. All models, problems and solutions are taken and tested on the set of real-life examples of oil-gas industry. The book is intended for researchers, graduate students and engineers specialising in the field of tribology, and also for senior students of technical colleges.
This book examines the theoretical and practical aspects of tribological process using synergy, fractal and multifractal methods, and the fractal and multifractal models of self-similar tribosystems developed on their basis. It provides a comprehensive analysis of their effectiveness, and also considers the method of flicker noise spectroscopy with detailed parameterization of surface roughness friction. All models, problems and solutions are taken and tested on the set of real-life examples of oil-gas industry. The book is intended for researchers, graduate students and engineers specialising in the field of tribology, and also for senior students of technical colleges.
Addresses a complex topic in a clear way Careful written as the terminology in the studied field is still evolving Opens possibilities to develop new branches such a tribo-physics Includes supplementary material: sn.pub/extras
Ahad Kh Janahmadov
Bifurcation Doubling Model Corrosive-Mechanical Fracture Elastic-Plastic Deformation Zone Fatigue Cracks Feigenbaum Scheme Fractal Structures Distribution Generalized Golden Rations Mechanical-Chemical Defectiveness Non-Linear Systems Non-Stationary Loading Plastic Deformation Synergetic Analysis Sytem Catastrophic States Tribotechnical Problems Wavelet-Transform Modulus Maxima Method