Computers and Geotechnics - Elsevier - Impact Factor

Computers and Geotechnics - Elsevier | 2024 Impact Factor:6.2 | Cite Score:9.0 | Q1

Impact Factor and Journal Rank of Computers and Geotechnics

About: Computers and Geotechnics is a peer-reviewed journal published by Elsevier. It focuses on research at the intersection of computational methods and geotechnical engineering. The journal provides a platform for scholars, researchers, and practitioners to publish original research articles, reviews, and case studies that advance the understanding and application of computational techniques in geotechnical engineering.
Objective: The primary objective of Computers and Geotechnics is to promote research and innovation in computational geotechnics. The journal aims to explore theories, methodologies, and applications that enhance the use of computational methods in analyzing and solving geotechnical engineering problems. By publishing high-quality research, the journal contributes to the advancement of computational geotechnics and its practical applications in various domains.
Interdisciplinary Focus: Computers and Geotechnics adopts an interdisciplinary approach, welcoming contributions from various fields related to computational methods and geotechnical engineering, including but not limited to, Civil Engineering, Geology, Geophysics, Soil Mechanics, Rock Mechanics, Structural Engineering, Environmental Engineering, Numerical Analysis, Data Science, Machine Learning. This interdisciplinary perspective fosters collaboration and innovation, leading to the development of advanced theories and practices that address the complex challenges in geotechnical engineering using computational approaches.
Global Reach and Impact: With a broad international readership and authorship, Computers and Geotechnics has a global reach and impact. Its publications contribute to the dissemination of knowledge and advancements in computational geotechnics worldwide. The journal content influences both academic research and practical applications, driving progress in areas such as slope stability analysis, foundation design, underground excavations, soil-structure interaction, and geotechnical risk assessment.
High Standards and Rigorous Review: Maintaining high academic standards, Computers and Geotechnics conducts a rigorous peer-review process. Each submitted manuscript undergoes thorough evaluation by experts in the field to ensure the quality, originality, and scientific rigor of the research. This stringent review process upholds the integrity and reputation of the journal, ensuring that only high-quality and impactful research is published.
Significance: Computers and Geotechnics plays a significant role in advancing research and practice in the field of computational geotechnics. By providing a platform for the publication of cutting-edge research findings, the journal contributes to the growth of knowledge and innovation in computational methods for geotechnical engineering. It serves as an essential resource for researchers, practitioners, and policymakers seeking to leverage computational techniques to address geotechnical challenges, improve design accuracy, and enhance the safety and sustainability of civil infrastructure.

Journal Home: Journal Homepage

Editor-in-Chief: Professor John. S McCartney

Scope: The Computers and Geotechnics journal, published by Elsevier, is a leading peer-reviewed publication that focuses on the application of computational methods and computer-aided techniques in geotechnical engineering. It serves as a vital platform for researchers, engineers, and practitioners to disseminate their latest findings, methodologies, and technological advancements in the field of geotechnics. Here is an overview of its key focus areas and scope:
1. Numerical Modeling and Simulation:
Research on numerical modeling techniques for analyzing geotechnical problems, including finite element method (FEM), finite difference method (FDM), and discrete element method (DEM).
Studies on the development and validation of numerical models to simulate soil-structure interaction, ground behavior, and geotechnical processes.
2. Soil Mechanics and Constitutive Modeling:
Exploration of soil mechanics principles and constitutive models to characterize the behavior of soils under various loading conditions.
Research on the development and calibration of constitutive models, including elastoplastic, viscoplastic, and hypoplastic models, to accurately represent soil behavior.
3. Geotechnical Site Investigation and Instrumentation:
Advancements in geotechnical site investigation techniques, including in-situ testing, laboratory testing, and geophysical methods.
Studies on the design and implementation of geotechnical instrumentation for monitoring ground movements, pore pressures, and other geotechnical parameters.
4. Slope Stability and Retaining Structures:
Research on slope stability analysis, including limit equilibrium methods, numerical modeling, and probabilistic approaches.
Studies on the design, analysis, and performance of retaining structures such as retaining walls, anchored systems, and soil nails.
5. Foundation Engineering and Deep Excavations:
Exploration of foundation engineering principles, including shallow foundations, deep foundations, and ground improvement techniques.
Research on the design and analysis of deep excavations, including excavation support systems, dewatering methods, and soil-structure interaction.
6. Geoenvironmental Engineering and Geohazards:
Advancements in geoenvironmental engineering, including landfill design, contaminated site remediation, and geoenvironmental risk assessment.
Studies on natural and anthropogenic geohazards, such as landslides, earthquakes, and liquefaction, and their mitigation measures.
7. Geosynthetics and Soil-Structure Interaction:
Research on the use of geosynthetic materials in geotechnical engineering applications, including reinforcement, drainage, and containment.
Studies on the behavior and interaction of soils with geosynthetic materials, including geogrids, geotextiles, and geomembranes.
8. Ground Improvement Techniques:
Exploration of ground improvement methods for enhancing the engineering properties of soils, including compaction, grouting, and soil stabilization.
Research on innovative ground improvement techniques, such as deep soil mixing, jet grouting, and dynamic compaction, for challenging ground conditions.
9. Computational Geomechanics and Geotechnical Software:
Advancements in computational geomechanics, including the development of numerical algorithms, software tools, and simulation platforms.
Studies on the application of geotechnical software packages for solving complex engineering problems, optimizing designs, and conducting sensitivity analyses.
10. Case Studies and Practical Applications:
Research on real-world case studies, projects, and applications of geotechnical engineering principles and computational methods.
Studies on the lessons learned, challenges faced, and innovative solutions implemented in geotechnical projects across different regions and industries.