Journals in Mechanical properties of materials

Engineering Failure Analysis

ISSN: 1350-6307
5 Year impact factor: 4.1
Impact factor: 4.4

Published in Affiliation with the European Structural Integrity SocietyThe Engineering Failure Analysis journal provides an essential reference for analysing and preventing engineering failures, emphasising the investigation of the failure mechanisms, identifying the failure's root causes, and proposing preventive actions to avoid failures.The journal covers the following topics: • Comprehensive critical reviews on failure mechanisms such as corrosion, environmentally assisted cracking, hydrogen embrittlement, creep, fatigue, wear, and structural collapse under extreme operation conditions and long-term actions.• Microscopic investigation of failure mechanisms in structural, functional and novel materials, additive manufacturing, electronic and biomaterials. • Failure analysis of engineering components, structures or systems based on material characterisation coupled with computational methods, including bench tests, numerical simulations, artificial intelligence, digital twins and virtual reality modelling. • Case studies detailing failures in major industrial sectors, including renewable energy, emerging fuels, power generation, oil and gas, transportation (aerospace, automotive, railway), mechatronics, biomedical, printed circuits and microelectronics, metallurgy, mining, civil constructions, and manufacturing. • Investigation of public technical safety aspects involved in failure analysis and prevention, including examining regulatory agencies, legal considerations, codes and standards, environmental policies, public safety, ethical issues, and insurance. • Role of engineering failure analysis in the design, materials, fabrication, installation, inspection, operation, maintenance, transportation, storage, life prediction, failure prevention, risk assessment, reliability analysis, forensic engineering, sustainability, service environment, process optimisation, structural integrity, safety evaluation and quality assurance.Finally, a novelty statement is required and should address the following four questions:How does your submission fit the journal's scope? Failure Analysis papers ideally focus on identifying and investigating failure mechanisms, determining the root cause of failures, and proposing corrective actions to prevent future occurrences.Why should your research be considered for publication in our journal?What is the novelty of your submission in relation to the international literature on failure analysis?How does your submission relate to other papers published in Engineering Failure Analysis in the last five years?

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Engineering Fracture Mechanics

ISSN: 0013-7944
5 Year impact factor: 4.8
Impact factor: 4.7

Published in Affiliation with the European Structural Integrity SocietyEFM covers a broad range of topics in fracture mechanics to be of interest and use to both researchers and practitioners. Contributions are welcome which address the fracture behavior of conventional engineering material systems as well as newly emerging material systems. Contributions on developments in the areas of mechanics and materials science strongly related to fracture mechanics are also welcome. Papers on fatigue are welcome if they treat the fatigue process using the methods of fracture mechanics.The Editors especially solicit contributions which synthesize experimental and theoretical-computational studies yielding results with direct engineering significance.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 in the topic of fossil fuels.

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International Journal of Fatigue

ISSN: 0142-1123
5 Year impact factor: 5.6
Impact factor: 5.7

Published in Affiliation with the European Structural Integrity SocietyThe International Journal of Fatigue aims to publish high quality, original papers that provide new insights into the mechanisms governing fatigue of materials and structures. The emphasis during the evaluation process will be on potential impact of the work, in terms of new scientific findings and substantial advancements to the field.The following aspects of existing engineering materials and structures, as well as newly emerging materials and structures, are of particular interest:Microstructural sensitive aspects of fatigue crack initiation and growth, including ties to manufacturing processing and defect structures;New, empirically motivated descriptive models or rigorous validation and uncertainty quantification of existing models and codes of practice, in both cases these should be based on large datasets, considering multiple materials and loading configurations;Understanding the influence of ?additive? manufacturing and processing route on fatigue performance, and embedding this understanding in more predictive schemes for mitigation and design against fatigue;New experimental findings, which either challenge existing models or are aligned with an extension of their application limits and the associated data pool;Fatigue analysis of materials and structures based on data science, including data mining, data fusion, and machine learning; andCombined and coupled behaviors that affect thermo-chemical-mechanical degradation processes under cyclic loading conditions, including environmental degradation, are also included in the scope of the journal.The International Journal of Fatigue encourages papers that identify new mechanisms that enhance the scientific understanding and associate predictions of fatigue, which may include novel fatigue testing and characterization methods, as well as advanced modeling. Papers that openly provide companion algorithms, models, tools, databases, range, and limits of validation are sought. Papers with insufficient novelty, providing test data without new scientific findings or performing routine case studies or finite element analyses, are discouraged.

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International Journal of Impact Engineering

ISSN: 0734-743X
5 Year impact factor: 5.4
Impact factor: 5.1

The International Journal of Impact Engineering, established in 1983 publishes original research findings related to the response of structures, components and materials subjected to impact, blast and high-rate loading. Areas relevant to the journal encompass the following general topics and those associated with them:Behaviour and failure of structures and materials under impact and blast loadingSystems for protection and absorption of impact and blast loadingTerminal ballisticsDynamic behaviour and failure of materials including plasticity and fractureStress wavesStructural crashworthinessHigh-rate mechanical and forming processesImpact, blast and high-rate loading/measurement techniques and their applicationsManuscripts submitted for publication will be subjected to stringent peer review and assessed for their contribution to scientific understanding of phenomena and the response of structures and materials to impact, blast and high-rate loading. Work resulting in fundamental insights that benefit engineering design to accommodate high-rate loading, is relevant to the journal. Well-designed and well-documented experimental studies that advance knowledge in the response of materials and structures subjected to impact, blast and high-rate loading are of relevance and interest. However, they should be accompanied by analysis of the experimental data and appropriate conclusions. The incorporation of analytical modelling and/or numerical simulations to support the experimental findings, will enhance the depth and quality of the research reported and make it more compelling. Manuscripts that focus primarily on mathematics, materials science or computation, with little contribution to the scope of impact dynamics described above, as well as those of a purely descriptive nature lacking in analysis, will be declined. Papers comprising largely parametric studies (e.g. using commercial software), unaccompanied by convincing validation and discussion of implications or applications of results generated, as well as those on novel computational techniques without comparison with established analysis or test data, are also not solicited. In all numerical studies, it is essential to demonstrate that the material parameters used in the simulations truly represent the actual physical properties of the material investigated. Consequently, sufficient description/discussion on how the material parameters were obtained, together with any assumptions, would be necessary. The numerical modelling must also include sufficient information to enable third parties to repeat the simulations. Papers that are essentially case studies or descriptions of designs involving impact or blast loading, as well as dynamic testing which generates copious experimental data without in-depth analysis, should seek publication in journals more directly related to those particular areas.Papers in the International Journal of Impact Engineering should generally be of interest to those in the aeronautical, civil, mechanical, materials, naval, nuclear, ocean, offshore, and transportation engineering fields, as well as those in other science and engineering branches that deal with various aspects of impact, blast and high-rate loading.Companion papers - Authors should submit manuscripts that can be reviewed on their own, without assuming that related earlier or subsequent submissions will be published and available for reference. Authors of companion papers should inform the Editor of the reasons why they wish to publish their work in parts.Short CommunicationsA Short Communication is a brief paper for rapid dissemination of either noteworthy progress related to a particular problem, or new findings on a topic within the Aims and Scope of the Journal. Such articles should be original and impactful to journal readers involved in the field of the article. Author(s) should refer to their published Short Communication and incorporate substantial new content if they subsequently wish to submit a full-length research paper based on expansion of the Short Communication.Before submitting a manuscript to the Journal, please note the following - Publication in this Journal is very competitive. Only high-quality manuscripts that present research findings of sufficient novelty or significance within the Aim and Scope of the Journal and follow the Guide for Authors will be considered. Otherwise the manuscript may be directly rejected by the editor and not be sent for external review. Please carefully consider these criteria before submitting your manuscript to the Journal to save both reviewer's and editor's efforts and time.

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International Journal of Plasticity

ISSN: 0749-6419
5 Year impact factor: 9.2
Impact factor: 9.4

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.

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Journal of the Mechanical Behavior of Biomedical Materials

ISSN: 1751-6161
5 Year impact factor: 3.7
Impact factor: 3.3

The Journal of the Mechanical Behavior of Biomedical Materials is concerned with the mechanical deformation, damage and failure under applied forces, of biological material (at the tissue, cellular and molecular levels) and of biomaterials, i.e. those materials which are designed to mimic or replace biological materials.The primary focus of the journal is the synthesis of materials science, biology, and medical and dental science. Reports of fundamental scientific investigations are welcome, as are articles concerned with the practical application of materials in medical devices. Both experimental and theoretical work is of interest; theoretical papers will normally include comparison of predictions with experimental data, though we recognize that this may not always be appropriate. The journal also publishes technical notes concerned with emerging experimental or theoretical techniques, letters to the editor and, by invitation, review articles and papers describing existing techniques for the benefit of an interdisciplinary readership.The journal offers online submission, a short time to publication, the opportunity for ample space to develop an argument in full, and the services of referees with expertise in mechanical behaviour and an understanding of the special nature of biomedical materials.Examples of relevant subjects include:Stress/strain/time relationships for biological materials (natural and engineered ones)Fracture mechanics of hard tissues (such as bone, teeth, and other mineralized tissues, ceramics and metals and various biomedically relevant alloys)Tribological properties of joint materials and their replacements, including coatings and surface modificationsMechanical characterisation of tissue engineering materials and scaffolds, and the investigation of mechanical cues in the context of biological processesThe mechanical behaviour of cells, including adhesion and failureMechanical properties of biological molecules such as proteins, DNA, and other biomoleculesLong-term fatigue, creep and wear properties of biomaterials used in implants and similar biomedical materialsThe behaviour of the human tissues under impact loading and other extreme conditionsAdditive manufacturing methods of all kinds, for metals, ceramics, polymers, composites, and other biomaterials (in medical, dental, bio-inspired and related fields)Mechanical performance of materials in plants and animals in all natural and engineered ecosystemsNew techniques for the measurement of mechanical properties in biomedical materials, in both laboratory and clinical practiceComputer simulations of material behavior at all time- and length-scales (from molecular to tissue scales), as well as the introduction of new computing techniques (such as machine learning and artificial intelligence) in the modeling and analysis of the mechanical properties of biomedical materialsClinical case histories related to material performanceMechanobiology, focusing especially on the response of cells and tissues to biophysical stimuli at varied length- and time-scalesThe journal publishes papers from the proceedings of the International Conference on the Mechanics of Biomaterials and Tissues; special issues devoted to particular subjects or events will also be considered.

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Theoretical and Applied Fracture Mechanics

ISSN: 0167-8442
5 Year impact factor: 4.6
Impact factor: 5

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/structures of any kind.The Journal aims to cover the cracking/mechanical behaviour of materials/components/structures 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/structures is also affected by the environmental conditions, the Journal considers also those theoretical/experimental 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/elasto-plastic 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/structures 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/structures 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/computational 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/computational mechanics discipline.

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Journals in Mechanical properties of materials

Engineering Failure Analysis

Engineering Fracture Mechanics

International Journal of Fatigue

International Journal of Impact Engineering

International Journal of Plasticity

Journal of the Mechanical Behavior of Biomedical Materials

Theoretical and Applied Fracture Mechanics