The Universal Journal of Structural Analysis covers activity and development in the field of structural analysis and structural engineering. Research of the structural behavior, methods of analysis, design of several types of structures and methods of construction is included. Areas like fracture, wave propagation, heat transfer, thermal effects in solids, optimum design methods, model analysis, structural topology and computational methods are also of prime interest. Contributions can be either analytical, experimental or numerical and include research in all kinds of construction materials, like concrete, steel, aluminium, composites, etc. So, the papers published should present innovative analytical and numerical methods and novel experimental methods, as well as non-linear methods and results, which should be far beyond the current "state of art".

 

Volume 1 (2013)

1. New Aspects for the Combined Method of Singular Integral Operators Method with Finite Elements in 2-D Elasticity

 Pages 1-11

 E.G.Ladopoulos

 

2. Non-linear Dynamic Analysis for Three-dimensional Structural Mechanics

 Pages 12-29

 E.G.Ladopoulos

 

Volume 2 (2014)

1. Non-linear Structural Analysis for Future Spacecraft with no Speed Limits

 Pages 1-17

 E.G.Ladopoulos

 

2. Non-linear Structures by Three-dimensional Dynamic Analysis

 Pages 18-35

 E.G.Ladopoulos

 

3. Universal Mechanics for Non-linear Frames

 Pages 36-51                                      

 E.G.Ladopoulos

 

4. Experimental & Numerical Investigations for Carbon Nanotubes Reinforced in Cement-based Matrix Composite Beams using FEM

 Pages 52-70

 S. A. Hallad, N. R. Banapurmath, A. M. Hunashyal, N. H. Ayachit, T. Husain, A.S. Shettar

 

5. Experimental Investigation for Multi Walled Carbon Nanotubes in Polymer based Matrix for Structural Applications

 Pages 71-77

 S. A. Hallad, N. R. Banapurmath, A. M. Hunashyal, N. H. Ayachit, A.S. Shettar

 

Volume 3 (2015)

1. Elastodynamics in Four-dimensional Non-linear Real-Time Expert Seismology

 Pages 1-15

 E.G.Ladopoulos

 

2. New Aspects of Universal Fracture Mechanics for Future Aircraft & Spacecraft

 Pages 16-34

 E.G.Ladopoulos

 

3. Rapid Heating Induced Vibration of Magnetostrictive Functionally Graded Material Cylindrical Shells with Transverse Shear Effects

 Pages 35-47                                      

 C.C. Hong

 

4. Singular Integral Operators Method applied in Non-Wood Cellulosic Fibers for Paper Manufacturing

 Pages 48-58

 E.G.Ladopoulos

  

Volume 4 (2016)

1. Three & Four-dimensional Non-linear Real-Time Expert Seismology in Elastodynamics

 Pages 1-15

 E.G.Ladopoulos

 

2. Paper Manufacturing by Non-Wood Cellulosic Fibers by using Singular Integral Operators Method

 Pages 16-26

 E.G.Ladopoulos

Volume 5 (2017)

1. Petroleum Elastodynamics by 4-D Non-linear Real-Time Expert Seismology  

 Pages 1-15

 E.G.Ladopoulos

 

2. Singular Integral Equations for Pulp Production from Non-linear Fibers

 Pages 16-26

 E.G.Ladopoulos

 
3. Future Spacecraft with Laser Engines by Universal Stress Intensity Factors

 Pages 27-45

 E.G.Ladopoulos

 

 

 Volume 6 (2018)

1. New Aspects for Pulp & Paper Production by Non-Wood Cellulosic Fibers by using Singular Integral Operators Method (SIOM)  

 Pages 1-11

 E.G.Ladopoulos

 

2. Maximum Speed of Light for Universal Stress Intensity Factors for the New Generation Spacecraft

 Pages 12-30

 E.G.Ladopoulos

 

 

Volume 7 (2019)

1. Modern Contributions of Non-Wood Cellulosic Fibers in Pulp Production by using Singular Integral Operators Method (SIOM)  

 Pages 1-11

 E.G.Ladopoulos

 

2. Speed of Light Limit for the Next Generation Spacecraft by using Universal Stress Intensity Factors

 Pages 12-30

 E.G.Ladopoulos

 

 

Volume 8 (2020)  DOI  10.13140/RG.2.2.22051.17440

1. Is the Singular Integral Operators Method (SIOM) the best Device for Non-Wood Cellulosic Fibers in Pulp Production ? What will be Next ?  

 Pages 1-11

 E.G.Ladopoulos

 

2. Is the Speed of Light a Limit for the Universal Stress Intensity Factors by using the Next Generation Spacecraft ? What will be Next ?

 Pages 12-30

 E.G.Ladopoulos

 

 

Volume 9 (2021)  DOI  10.13140/RG.2.2.16125.49125

1. An Overview of the Singular Integral Operators Method (SIOM) for Non-Wood Cellulosic Fibers in Pulp & Paper Production

 Pages 1-11

 E.G.Ladopoulos

 

2. About an Energy World with the Theory of Universal Fracture Mechanics for the Future Spacecraft with Laser Engines

 Pages 12-30

 E.G.Ladopoulos

 

3. About an Energy World with the Universal Stress Intensity Factors for the Next Generation Spacecraft

 Pages 31-49

 E.G.Ladopoulos

 

4. Mechanical Properties of Plant Cells, a Review, with Focus on Elastic Modulus of the Onion Epidermal Cell Wall based on Micro-Indentation with Atomic Force Microscopy and on Uni-axial Tensile Testing

 Pages 50-61

 Bernhard R. Tittmann

 

 

 

 

Volume 10 (2022)  DOI  10.13140/RG.2.2.34717.38887

1. The Leading Technology of Singular Integral Operators Method (SIOM) for Non-Wood Cellulosic Fibers in Pulp & Paper Production

 Pages 1-11

 E.G.Ladopoulos

 

2. New Aspects of the Energy World by the Theory of Universal Fracture Mechanics for the Future Spacecraft with Laser Engines

 Pages 12-30

 E.G.Ladopoulos

 

 

 

 

 

Volume 11 (2023)  DOI  10.13140/RG.2.2.11731.96800

 

1. Groundbreaking Method by Singular Integral Operators Method (SIOM) for Non-Wood Cellulosic Fibers in Pulp & Paper Production

 Pages 1-11

 E.G.Ladopoulos

 

2. Groundbreaking Theory of the Energy World by Universal Fracture Mechanics for the Future Spacecraft with Laser Engines

 Pages 12-30

 E.G.Ladopoulos