Journals in Mechanics
Journals in Mechanics
The Mechanics portfolio provides comprehensive resources on solid and fluid mechanics, dynamics, and continuum mechanics. It supports researchers and engineers investigating fundamental forces, material behavior, and system dynamics critical to engineering applications. Combining theoretical frameworks with experimental and computational methods, the collection offers valuable insights for advancing mechanical and structural innovation.
Applied Acoustics
Applied Acoustics is a leading international journal that publishes full-length original research articles and solicited reviews in acoustics with broad impact in engineering applications. Applied Acoustics spans a wide range of fields including:Architectu... and building acousticsUnderwater acousticsEngineering noise controlEnvironmental and industrial noiseAcoustic materialsAcoustic signal processingAeroacoust... acoustics, metamaterials, ultrasonicsSoundscap... sound quality and psychoacousticsPaper... should include an experimental component or experimental validation of a proposed theoretical or numerical model, with application to a practical acoustical problem. Papers describing laboratory experiments must demonstrate significant advances in methodology or new insights provided by the data. Cutting-edge multidisciplinary research that includes advances in acoustics are welcome.- ISSN: 0003-682X
Engineering Fracture Mechanics
Published in affiliation with the European Structural Integrity SocietyFounded in 1968, Engineering Fracture Mechanics (EFM) has been a leading forum for foundational developments in fracture mechanics theory and applications, shaping the understanding of fracture, damage, and failure across material systems.EFM publishes high-quality original research covering a broad range of topics related to fracture, damage, and failure in conventional engineering material systems as well as emerging material systems, of interest to both researchers and practitioners. Contributions are expected to advance the understanding, modelling, and/or prediction of fracture-related phenomena. Papers on fatigue and creep are welcome when these phenomena are treated using concepts, methods, or frameworks rooted in fracture mechanics and contribute to the understanding or prediction of failure.EFM welcomes contributions addressing fracture-related problems across different length and time scales, under both operational and extreme loading and environmental conditions. Particular emphasis is placed on studies that provide mechanistic understanding and quantitative insight into material behaviour, structural integrity, and life prediction. Interdisciplinary approaches are encouraged when they strengthen physical interpretation and lead to results of clear engineering significance, especially through the synthesis of experimental and theoretical–computat... investigations. Transformative uses of artificial intelligence, machine learning, and data-driven approaches are strongly encouraged when deeply integrated with fracture mechanics to unlock new physical insights and significantly advance the understanding, modelling, and prediction of fracture-related phenomena.EFM is committed to publishing research content that supports and advances the energy transition and the reduction of CO2 emissions. In light of this and in response to market changes, we have decided to decline research papers on the topic of fossil fuels.- ISSN: 0013-7944
Wear
An International Journal on the Science and Technology of WearWEAR journal is dedicated to the advancement of fundamental and applied knowledge concerning the nature of wear of materials. Broadly, topics of interest range from development of fundamental understanding of the mechanisms of wear to innovative solutions to practical engineering problems. WEAR is seeking high-quality manuscripts with a high degree of novelty and significance. Routine studies or work that resemble slight variations to previous studies will not be considered for WEAR. Authors of experimental studies are expected to comment on the repeatability of the data, and whenever possible, conduct multiple measurements under similar testing conditions. Further, WEAR embraces the highest standards of professional ethics, and the detection of matching content, either in written or graphical form, from other publications will result in rejection.Submission... are invited on such subjects as:(a) Wear modelling and validation. This includes modelling of fundamental mechanisms as well as the modelling of tribosystems. Approaches may employ contact mechanics, frictional considerations and lubrication concepts in the development of the model, and must always include physical validation of the model by experiments. Also, approaches that use machine learning on tribological test data.(b) The development and use of new wear testing methods and standards. This includes the rationale behind their development (including a critique of existing test methodologies where appropriate).(c) New wear diagnostic tools. The need for these tools and examples of their use in either basic research or engineering should be illustrated. In-situ or real time sensing and/or imaging of tribological interfaces including optical image recognition.(d) The development of wear-resistant materials, coatings, or surface treatments. Such papers should include, for example, benchmarking against materials currently employed in targeted engineering applications, or presenting a basic hypothesis underlying the work that can be validated as an advance over the current state-of-the-art. The criteria used to select the test methods employed (and the conditions under which those tests were conducted) must be robustly justified with regard to the longevity of the targeted tribosystems in engineering applications. This includes the current or desired wear rate of such applications in comparison of the wear rates measured by the chosen experimental set-up. The proposed mechanisms of wear must be shown as results and discussed in the context of validated data and observations that support those conclusions.(e) Relationships between the composition, structure, properties, and processing of materials and their wear behavior. Such submissions should include the basic rationale for the work, its foundation in prior knowledge, and how the current approach is implemented to explore these relationships. The criteria used to select the tests or analytical methods employed shall be explained with respect to the purpose of the research, be it fundamental or applied.(f) The role of lubricants or other interfacial species in the wear of materials. Such submissions will focus on the mechanisms of wear in the presence of well-characterized interfacial environments.The Abstracts of all submissions, whether a full paper or a shorter communication, should summarize the purpose and approach to the given problem, indicate the materials under investigation, and present the primary conclusions in a brief and concise manner. Any commercialism or product promotion is unacceptable. Submissions to WEAR will be pre-screened before peer-review based on the novelty statement to assess their archival quality, clarity of communication, and the novelty of their contributions to the science and technology of wear.- ISSN: 0043-1648
Progress in Materials Science
Progress in Materials Science publishes authoritative and critical reviews of recent advances in the science of materials and their exploitation in engineering and other applications. Emphasis is placed on the fundamental aspects of the subject, particularly those concerning microstructure and nanostructure and their relationship to properties (mechanical, chemical, electrical, magnetic, optical or biomedical). Authors of reviews in Progress in Materials Science are active leaders in materials science and have a strong scientific track record in the field of the review. Regular manuscripts are generally of greater length than those found in journals specialising in research papers. Snapshot reviews focus on a timely topic and are shorter (less than 8,000 words). The Editors kindly request that non-invited manuscripts are preceded by the submission of a proposal through the website.Particular areas of interest for review papers are, but are not limited to:Energy Materials: Materials for energy harvesting, storage, and conversion (solar cells, batteries, supercapacitors, fuel cells, etc,.), electrode materials, mechanism in electrochemical devices, battery design and optimizationQuantum and electronic materials: thin Film technology, materials for electronic devices, quantum dimensional materials (0D,1D and 2D), materials for sensors and detectors (optical, piezoelectric, biosensors)organic light emitting diodesSoft Matter and Biomaterials: polymers, materials for the human body, biomaterials for tissue models, materials for personalized medicine and healthcare, materials for drug delivery, bioinspired materials and synthesis conceptsAdvanced materials manufacturing: innovative fabrication techniques, process design and optimization, scalable production methods, wearable and flexible printed electronic devices, materials and techniques for additive manufacturingHigh-pe... materials: alloys and composites with optimized strength and toughness, advanced materials for extreme environments (e.g. space, arctic), emerging hybrid and composite Materials, high-entropy materialsAdvanced Characterization Techniques: novel techniques such as in-situ electron microscopy, operando spectroscopy, or advanced neutron scattering that reveal material behaviors under real-world conditionsSustainabl... materials science: materials for a circular economy, substitution of critical elements, engineered materials for environmental remediation, sustainable materials and synthesis conceptsComputationa... Materials Science and AI/ML: computational techniques for materials on all size and time scales, computation of phase diagrams, property and lifetime prediction, AI and ML techniques for high-throughput materials design and for advanced processing- ISSN: 0079-6425
International Journal of Plasticity
The purpose of the journal is to report original research on all aspects of plastic deformation, damage and fracture behaviour of isotropic as well as anisotropic solids, including the thermodynamics of plasticity and fracture, continuum theory, and macroscopic as well as microscopic phenomena.The topics of interest include plastic behaviour of single crystals and polycrystalline metals, ceramics, rocks and soils, composites, nanocrystalline and microelectronics materials, shape memory alloys, ferroelectric ceramics, thin films and polymers, as well as plasticity aspects of failure and fracture mechanics. Significant experimental, numerical or theoretical contributions advancing the understanding of plastic behaviour of solids are of special interest, together with studies relating macroscopic to the microscopic behaviour of solids. Papers on modeling of finite nonlinear elastic deformation, with similarities to modeling of plastic deformation, are also welcome.The Journal will contain research papers, review articles, research notes, letters to the editor, and academic advertisements (books, journals, conferences, and symposia). Strain-rate dependent and strain-rate independent constitutive models to predict observed phemonena during quasi-static, dynamic or cyclic thermo-mechanical loading, behaviour of granular or porous solids under high confining pressures and at high temperatures, multiscale modeling of various deformation mechanisms (dislocation, twinning, and phase transformation), and models with capability for predicting the behaviour of composite materials based onknown plastic behaviour of matrix and fibers in such materials, are some examples of the main themes of this journal. Revealing applications of the new models of plasticity, including modelling of the observed phenomena in metal forming processes are also of interest.- ISSN: 0749-6419
Probabilistic Engineering Mechanics
This journal provides a forum for scholarly work dealing primarily with probabilistic and statistical approaches to contemporary solid/structural and fluid mechanics problems encountered in diverse technical disciplines such as aerospace, civil, marine, mechanical, and nuclear engineering. The journal aims to maintain a healthy balance between general solution techniques and problem-specific results, encouraging a fruitful exchange of ideas among disparate engineering specialities.From time to time, review papers will be published to provide research and development oriented readers with state-of-the-art analyses of various areas of current interest. In addition, occasional papers of tutorial nature help enhance practice oriented readers' knowledge of the basic probabilistic and statistical techniques that are essential in present-day engineering practice design.In consultation with the editors, distinguished members of the probabilistic mechanics community may serve as guest editors for a special issue dedicated to a particular theme.Fields Covered:Aerospace engineering: • Damage-tolerant and durability design of aircraft • Load spectra characterisation • Random vibration of aerospace structuresCivil engineering: • Geotechnical applications • Natural hazards such as earthquakes, hurricanes, and waves • Stochastic fluid mechanics/hydrology • Structural response/control under natural hazardsMarine engineering: • Offshore structures response to wind-induced waves • Ship motion in a random seaMechanical engineering: • Fatigue design • Mechanical systems response/control • Vehicle vibration • Vibration isolationNuclear engineering: • Probabilistic risk assessment • Structural and equipment response to accidental loadsCommon to all disciplines: • Composite materials • Damage mechanics • Monte Carlo simulation • Random fields • Stochastic finite elements • Stochastic optimization • System reliability.- ISSN: 0266-8920
Soil Dynamics and Earthquake Engineering
The journal aims to encourage and enhance the role of mechanics and other disciplines as they relate to earthquake engineering by providing opportunities for the publication of the work of applied mathematicians, engineers and other applied scientists involved in solving problems closely related to the field of earthquake engineering and geotechnical earthquake engineering.Emphasis is placed on new concepts and techniques and case histories are considered only if they enhance the presentation and understanding on new technical concepts associated with analysis.Fields Covered:Seismology and Geology relevant to earthquake engineering problems with emphasis on modeling and methodologies and consideration of their effects on the analysis and design of structures.Wave propagation, wave scattering and dynamic crack propagation in soils and rocks under elastic or inelastic material behavior.Dynamic constitutive behavior of materials.Dynamic interaction problems (soil-structure interaction, fluid-structure interaction and tsunamis if only related to its geotechnical and structural systems).Seismic analysis and design of steel and reinforced concrete structures, retaining walls, dams, slopes.Effect of moving loads on bridges and pavements and vibration isolation in geotechnical structures.Inverse problems, identification and structural health monitoring in earthquake engineering.Instrume... and experimental methods in earthquake engineering.Applied mathematical methods and artificial intelligence for earthquake engineering analysis and design.Performance-b... seismic design of structures.Probabili... methods in earthquake engineering including risk analysis and reliability Earthquake case histories and lessons learned from catastrophic ground motions.Earthquake case histories and lessons learned from catastrophic ground motions only if they include modeling and geotechnical/structu... analysis.- ISSN: 0267-7261
Theoretical and Applied Fracture Mechanics
Theoretical and Applied Fracture Mechanics covers both the theoretical, applied, and numerical aspects associated with cracking related phenomena taking place, at a micro-, meso-, and macroscopic level, in materials/components... of any kind.The Journal aims to cover the cracking/mechanical behaviour of materials/components... in those situations involving both time-independent and time-dependent systems of external forces/moments (such as, for instance, quasi-static, impulsive, impact, blasting, creep, contact, and fatigue loading). Since, under the above circumstances, the mechanical behaviour of cracked materials/components... is also affected by the environmental conditions, the Journal considers also those theoretical/experime... research works investigating the effect of external variables such as, for instance, the effect of corrosive environments as well as of high/low-temperature... The Journal also considers technical articles assessing the cracking behaviour of new materials used in modern and alternative applications, i.e., not only strictly related to engineering. Further, the most advanced technological findings in the surface engineering field are seen to strongly influence the cracking/mechanical behaviour of materials. Accordingly, technical articles investigating, both from a theoretical and an experimental point of view, the existing interactions between the above aspects and the material cracking behaviour are considered for publication.The modelling of the phenomena of interest for the Journal can be based on the conventional linear-elastic/elast... fracture mechanics concepts as well as on novel (or emerging) theories. The Journal is keen to publish new/alternative modelling/design approaches, provided that such innovative theories are soundly based on the state-of-the-art knowledge and, when possible, validated through appropriate experimental results. In more general terms, cracks act as stress/strain concentrators. Accordingly, the Journal is very keen to consider for publication also those studies investigating the effect on the mechanical behaviour of materials/components... of different kinds of stress/strain concentrators such as defects, microstructural in-homogeneities, and, above all, notches of any kind. In more detail, one of the new features of Theoretical and Applied Fracture Mechanics is releasing regular issues addressing, in a systematic way, the notch mechanics problem.The increasing computational power of modern computers is strongly encouraging the scientific community to develop novel methodologies suitable for modelling the mechanical behaviour of materials/components... containing any kind of stress/strain concentrators (i.e., not only cracks and notches, but also defects and microstructural in-homogeneities). Accordingly, Theoretical and Applied Fracture Mechanics aims to publish, through regular issues fully focussed on computational mechanics, also those technical articles addressing the theoretical/computat... aspects leading to an efficient and accurate modelling of the behaviour, at a micro-, meso-, and macroscopic level, of materials and structures containing stress/strain raisers of any kind.Theoretical and Applied Fracture Mechanics is organised according to the following topical issues:1. Miscellany of technical articles fully meeting this aims and scope; 2. Technical articles investigating the notch mechanics field; 3. Technical articles devoted to the computational mechanics aspects; 4. Themed threads, guest-edited by experts, where the themes of interest could not necessarily be addressed in a single issue: this would create a string of issues showing, over years, the progresses made in a specific area of the fracture/notch/compu... mechanics discipline.- ISSN: 0167-8442
Journal of Constructional Steel Research
The Journal of Constructional Steel Research provides an international forum for the presentation and discussion of the latest developments in structural steel research and their applications in civil engineering. It is aimed not only at researchers but also at those likely to be most affected by research results, i.e. designers and fabricators. Original papers of a high standard dealing with all structural engineering aspects of steel and metal structures including theoretical and experimental research on the behaviour and strength of elements, assemblages, connections and material properties are considered for publication. Submissions substantially concerned with the strength of the concrete component in steel-concrete composite members, including shear stud connections, may not suit the journal. Submissions on pipelines do not fall within the journal's scope.Those presenting research findings in a form suitable for practical use are especially welcome. Papers reporting work in progress will also be included, provided the long-term practical implications of the research are evident, as will state-of-the-art papers, or those by designers and fabricators dealing with issues bearing directly on research.The journal will also present technical notes, book reviews, discussions and letters to the Editor. It is intended that at intervals summaries will be included indicating current research activities throughout the world, and reports of conferences and meetings related specifically to constructional steelwork. Announcements of conference and symposia are also included in the form of a calendar.- ISSN: 0143-974X
Computer Methods in Applied Mechanics and Engineering
The development of computational methods for the solution of scientific and engineering problems governed by the laws of mechanics was one of the great scientific and engineering achievements of the second half of the 20th century, with a profound impact on science and technology. This is accomplished through advanced mathematical modeling and numerical solutions reflecting a combination of concepts, methods and principles that are often interdisciplinary in nature and span several areas of mechanics, mathematics, computer science and other scientific disciplines as well. The continued staggering developments of the 21st century have now enabled simulation capabilities that are leading to tangible technological achievements for the clear betterment of mankind. Computer Methods in Applied Mechanics and Engineering was founded over five decades ago, providing a platform for the publication of papers in this important field of computational science and engineering. The range of appropriate contributions is very wide. It covers any type of computational method for the simulation of complex physical problems leading to the analysis and design of engineering products and systems. This includes theoretical development and rational applications of mathematical models and numerical algorithms related to finite elements, boundary elements, finite differences, finite volumes, meshless discretization methods, isogeometric methods, molecular dynamics, ab-initio calculations, physically-based machine-learning methods and digital-twin technologies, in the following fields of simulation-based engineering science: Solid and structural mechanics Fluid mechanics Mechanics of materials Heat transfer Dynamics Geomechanics Acoustics Biomechanics NanomechanicsAtomist... Molecular dynamics Quantum mechanics Electromagneticsand also includes virtual design, multiscale phenomena, from nanoscale to macroscale, multiphysics problems, parallel computing, optimization, machine learning, probabilistic and stochastic approaches.CMAME publishes original papers at the forefront of modern research describing significant developments of computational methods in solving problems of applied mechanics and engineering.CMAME does not publish review or survey papers.- ISSN: 0045-7825
