21,922 results
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2. Effects of Buckling on Crack Propagation in Paper - a Stochastic Modelling Experiment
- Author
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International Paper Physics Conference (2007 : Gold Coast, Qld.), Skjetne, Bjorn, Helle, Torbjorn, and Hansen, Alex
- Published
- 2007
3. Significant improvement of thermal and tribological performance with polyimide as the matrix of paper‐based friction materials.
- Author
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Tian, Haochen, Fei, Jie, Li, Chang, Qi, Lehua, Cai, Xiaohang, Li, Bo, and Fu, Yewei
- Subjects
- *
FRICTION materials , *PHENOLIC resins , *MECHANICAL wear , *FRACTURE mechanics , *WEAR resistance - Abstract
Paper‐based friction materials with phenolic resin as the matrix are prone to thermal damage under harsh working conditions easily leading to materials failure. To satisfy the requirements of high speed and heavy load service situations, paper‐based friction materials with different polyimide resin content were prepared by wet forming technology to reveal the effect of polyimide resin on the properties of composites. And a paper‐based composite with phenolic resin was used for comparison. Results show that compared with the phenolic composite, tensile strength, and shear strength of the polyimide composite were increased by 50.5% and 36.4%, respectively. Due to the strong hydrogen bond in the imide ring of polyimide, the temperature of the polyimide composite at 2% weight loss was 292.7°C, which was 106.3°C higher than that of the phenolic composite. Moreover, the wear rate was reduced by 30.3% because the friction transfer film was produced during friction. To sum up, polyimide resin has the potential to replace phenolic resin under the condition of high speed and heavy load. Besides, the composite with polyimide resin content of 40.0 wt% demonstrated the best wear resistance and considerable strength attributed to the best interface combination. This research lays a theoretical foundation for the application of polyimide resin to paper‐based friction materials. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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4. Application of the Acoustic Emission Method to Ranking Fatigue Damage in the Material of the Trunnions of Drying Cylinders in Cardboard- and Paper-Making Machines.
- Author
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Rastegaev, I. A., Khrustalev, A. K., Danyuk, A. V., Afanas'yev, M. A., Merson, D. L., Sevast'yanov, D. V., Melent'ev, S. V., and Plyusnin, A. D.
- Subjects
- *
FRACTURE mechanics , *MATERIAL plasticity , *ACOUSTIC emission , *FATIGUE cracks , *CYCLIC loads , *METAL fatigue , *FRICTION - Abstract
Using the example of assessing the technical condition of the trunnions of drying cylinders in cardboard machines (CBM), the question of the possibility of ranking cyclically loaded elements of dynamic equipment according to the degree of damage to their material by fatigue cracks using acoustic emission (AE) measurements is discussed. As a result of special laboratory studies with varying loads in the cycle of loading and lubrication of crack edges, the features of AE due to the friction of crack edges and plastic deformation at the crack tip during its growth in a viscous material have been established. It is shown that during cyclic loading of the material, AE signals from the friction of its banks are detected more steadily than AE signals due to a crack jump with an increase in its length, and that tracking the former ensures the detection of fatigue damage in the material even under loading conditions insufficient for crack growth. Based on the data obtained, three AE signs of the presence of fatigue damage in the material of the elements of dynamic equipment were developed under the condition of cyclic activation of the movement of crack edges. As a result of industrial testing of the developed AE signs, their operability was confirmed, their boundary values on the operating trunnions of CBM drying cylinders were clarified, and a method for ranking trunnions by the level of damage due to fatigue cracks was proposed. By comparing the results of AE measurements with ultrasound testing, the reliability of the proposed approach was evaluated and showed the probability of detecting a fatigue crack in the trunnions of CBM drying cylinders at the level of 71%, with the probability of skipping and false rejection of the product of 12 and 17%, respectively. The developed technique is also transferable to other massive dynamic equipment after clarifying the boundary values of AE signs of fatigue damage in the material on this type of facilities. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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5. Enhancing structural analysis efficiency: a comprehensive review and experimental validation of advanced submodeling techniques, introducing the submodeling-density-shape-element removal (S-D-S-ER) method
- Author
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Teke, Ibrahim T. and Ertas, Ahmet H.
- Published
- 2024
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6. Ink-lift-off during offset printing: a novel mechanism behind ink–paper coating adhesion failure.
- Author
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Kamal Alm, Hajer, Ström, Göran, Schoelkopf, Joachim, and Gane, Patrick
- Subjects
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OFFSET printing , *PAPER coatings , *ADHESION , *FRACTURE mechanics , *SURFACES (Physics) - Abstract
This paper reports on a special pilot coating and industrial printing trial designed to gain fundamental knowledge on ink adhesion failure on coated papers. We found that ink adhesion failure resulted in white spots without ink on the paper, referred to as uncovered areas and these spots gave print mottle problems. The white spots were due to two fundamentally different types of ink adhesion failure. One is the well-known ink rejection, which simply means that ink is not transferred to the surface. The other is a new type of ink adhesion failure, confirming a previous hypothesis suggested from laboratory observations. We refer to this as ink-lift-off adhesion failure, meaning that ink initially deposited on the paper surface becomes lifted off from the surface in a subsequent print unit. Adhesion failure by this mechanism was seen to occur more frequently than failure due to the well-known ink rejection. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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7. Identifying the weak spots in packaging paper: local variations in grammage, fiber orientation and density and the resulting local strain and failure under load.
- Author
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Lahti, Jussi, Dauer, Michael, Keller, D. Steven, and Hirn, Ulrich
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FRACTURE mechanics ,DENSITY ,TENSILE tests ,FIBER orientation ,ENERGY dissipation ,REGRESSION analysis - Abstract
Measured local paper structure—i.e. local basis weight, local thickness, local density and local fiber orientation—has been linked to local strain and local material failure (local temperature increase due to energy dissipation upon fiber–fiber bond failure) measured during tensile testing. The data has been spatially linked through data map registration delivering several thousand 1 × 1 mm 2 paper regions, each containing all measured properties. The relation between local paper structure and resulting local deformation and failure is studied with regression models. Multiple linear regression modeling was used to identify the paper structure related drivers for local concentrations of strain under load and local concentrations of material failure, which are both starting to occur considerably before rupture of the paper. Analyzing the development of local strain in paper we found that regions with higher basis weight and higher fiber orientation in load direction tend to exhibit considerably lower strain during tensile testing. Furthermore, the relation between local strain and local grammage can be predicted with the statistical theory of elasticity. Also regions with higher density have lower local strain, but not as pronounced. The findings for local fiber–fiber bond failure of paper are similar but not equivalent. The strongest correlation exists with local grammage. Local density and local fiber orientation show in turn weaker correlation with local bond failure. Local variations in paper thickness were not relevant in any case. These findings are highlighting the relevance of local fiber orientation and local density variations as structural mechanisms governing paper failure. In the past the focus has been mostly on paper formation. Together with local grammage (formation) they are responsible for the weak spots in paper, and thus cause local concentrations of paper strain and the initiation of failure under tensile load. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
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8. An Efficient Mixed-Mode Brittle Fracture Experiment Using Paper
- Author
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Flores, Mark and Xu, L. Roy
- Published
- 2013
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9. Flexible paper-based composites with photothermal conversion and superhydrophobic properties.
- Author
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Guo, Qiyu, Wan, Jinming, Song, Chenying, Li, Hailong, and Hu, Jian
- Subjects
PHOTOTHERMAL conversion ,SURFACE preparation ,CONTACT angle ,FRACTURE mechanics ,ICE prevention & control ,PACKAGING materials - Abstract
Biofiber is an extensive and renewable raw material, whose products meet the demands of constructing an environmental-friendly and resource-favorable society. As a typical biofiber assembly, paper inherits its characteristics and may lose its mechanical properties after prolonged contact with water, leading to a material failure. Here, we report an environment friendly waterproof composite by a simple surface treatment. This composite is creatively prepared via a formation of rough microstructures for ink micro-aggregates on the ink-brushed paper, of which this bio-inspired structure is beneficial to hydrophobic properties and light capture capability. Specifically, it possesses excellent hydrophobicity with a high contact angle over 150° and photothermal performance with a solar evaporation rate of 1.324 kg m
−2 h−1 under 100 mW/cm2 . In addition, it reveals superior waterproof and deicing performance, decreasing the icing adhesion time to 63 s under 100 mW/cm2 . Additional advantages include durability, designability, and large-area production. In view of these excellent properties, this waterproof photothermal material holds a bright prospect in the fields of solar evaporation, deicing device, packaging, and so forth. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
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10. In-situ monitoring of crack growth and fracture behavior in composite laminates using embedded sensors of rGO coated fabrics and GnP paper.
- Author
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Bathusha, M.S. Sikandar, Din, Israr Ud, Umer, Rehan, and Khan, Kamran A.
- Subjects
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LAMINATED materials , *FRACTURE mechanics , *COATED textiles , *FIBROUS composites , *COMPOSITE structures , *DETECTORS - Abstract
Graphene-based nanomaterials have found significant interest in the development of embedded sensors to monitor the fracture behavior in composite structures. In this work, in-situ crack propagation and fracture behavior within a glass fiber reinforced polymer composite (GFRP) was monitored using embedded reduced graphene oxide (rGO) coated fabrics and highly conductive graphene nanoplatelet (GnP) paper. All laminates were fabricated using the resin infusion process. The piezoresistive performance of both types of laminates was evaluated using in-plane and out-of-plane mechanical tests. The effect of GnP paper thickness (50/150/240 µm) and loading rate was also evaluated using tensile and Mode-I fracture loadings. Piezoresistivity of the sensors was reduced by increasing loading rate during tensile tests. All laminates with GnP paper exhibited poor mechanical performance under tensile loading. The laminates with 50 µm GnP paper showed highest sensitivity under Mode-I loading. In comparison to pristine laminates, the interlaminar fracture toughness of laminates with 50 µm GnP paper was reduced by 70%. Furthermore, laminates with rGO coated fabrics demonstrated stable crack propagation under Mode-I loading as compared to GnP based laminates. The fractured surfaces were analyzed using scanning electron microscopy to investigate the underlying fracture mechanisms of the sensors in the composite laminates. [Display omitted] • Composites with embedded GnP paper and rGO coated fabric sensors were manufactured. • Sensor based on thin GnP paper was found more sensitive than the thick GnP sensors. • Loading rate and thickness effects on the sensing behavior were characterized. • Increasing the load rate during in-plane tensile tests decreases the sensitivity. • rGO based sensor exhibited high mechanical properties than the GnP based sensors. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
11. New investigation of delamination using the VCCT method to predict the damage in bonded composite repair plates subjected to tensile load
- Author
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Talbi, Sofiane, Salem, Mokadem, Mechab, Belaïd, Ghomari, Tewfik, Allem, Ahmed, Bachir Bouiadjra, Belabbes, and Mehdi, Benelmaarouf
- Published
- 2024
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12. Analysis of long crack lines in paper webs.
- Author
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Salminen, L. I., Alava, M. J., and Niskanen, K. J.
- Subjects
- *
FRACTURE mechanics , *PAPER , *SURFACE roughness , *CORROSION & anti-corrosives , *MATERIAL fatigue - Abstract
: We analyze 6500 mm long fracture lines of paper as an example of crack propagation involving disorder. The cracks are asymptotically self-affine, with a roughness exponent close to 0.6. Systematic deviations from the power-law-scaling exist below a lengthscale related to the microscopic heterogeneities and possibly to a cross-over from 3d to 2d crack propagation. Several analysis methods are discussed, including first return analysis and the detection of correlated trends. [ABSTRACT FROM AUTHOR]
- Published
- 2003
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13. Recent advances in crack detection technologies for structures: a survey of 2022-2023 literature.
- Author
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Kaveh, Hessam, Alhajj, Reda, Shah, Pritesh, and Kulkarni, Sanjay
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TRANSFORMER models ,FRACTURE mechanics ,INFRASTRUCTURE (Economics) ,MAINTENANCE costs ,MACHINE learning - Abstract
Introduction: Cracks, as structural defects or fractures in materials like concrete, asphalt, and metal, pose significant challenges to the stability and safety of various structures. Addressing crack detection is of paramount importance due to its implications for public safety, infrastructure integrity, maintenance costs, asset longevity, preventive maintenance, economic impact, and environmental considerations. Methods: In this survey paper, we present a comprehensive analysis of recent advancements and developments in crack detection technologies for structures, with a specific focus on articles published between 2022 and 2023. Our methodology involves an exhaustive search of the Scopus database using keywords related to crack detection and machine learning techniques. Among the 129 papers reviewed, 85 were closely aligned with our research focus. Results: We explore datasets that underpin crack detection research, categorizing them as public datasets, papers with their own datasets, and those using a hybrid approach. The prevalence and usage patterns of public datasets are presented, highlighting datasets like Crack500, Crack Forest Dataset (CFD), and Deep Crack. Furthermore, papers employing proprietary datasets and those combining public and proprietary sources are examined. The survey comprehensively investigates the algorithms and methods utilized, encompassing CNN, YOLO, UNet, ResNet, and others, elucidating their contributions to crack detection. Evaluation metrics such as accuracy, precision, recall, F1-score, and IoU are discussed in the context of assessing model performance. The results of the 85 papers are summarized, demonstrating advancements in crack detection accuracy, efficiency, and applicability. Discussion: Notably, we observe a trend towards using modern and novel algorithms, such as Vision Transformers (ViT), and a shift away from traditional methods. The conclusion encapsulates the current state of crack detection research, highlighting the integration of multiple algorithms, expert models, and innovative data collection techniques. As a future direction, the adoption of emerging algorithms like ViT is suggested. This survey paper serves as a valuable resource for researchers, practitioners, and engineers working in the field of crack detection, offering insights into the latest trends, methodologies, and challenges. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
14. The Use of Acoustic Emission Monitoring to Rank Paper Materials with Respect to Their Fracture Toughness.
- Author
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P. Gradin, D. Graham, P. Nygård, and H. Vallen
- Subjects
ACOUSTIC emission ,FRACTURE mechanics ,DEFORMATIONS (Mechanics) ,STRENGTH of materials ,USB technology ,PAPER - Abstract
Abstract  In this study, a simplified Acoustic Emission (AE) equipment, in essence an AE signal conditioner and a USB (Universal Serial Bus) data acquisition system, is used to study what happens in paper structures during mechanical loading. By the use of such equipment, some parameters that can be extracted are e.g. the stress and strain at onset of AE, the stress and strain at the onset of rapid AE defined as some numerical factor (larger then one) times the initial emission rate, the emission rate at the first stage of loading and the stress and strain at final failure i.e. when the specimen loses its load carrying ability.In this study however, the interest is focused on one particular parameter i.e. the elastic strain energy density W c at onset of AE. This is a parameter with a clear physical meaning and in this study, the correlation between this parameter and a fracture toughness measure, is investigated.The conclusion is that when nine different paper materials (with a large span regarding properties) are considered, there is a correlation (however not linear) between these two parameters. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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15. A continuum micromechanics approach to the elasticity and strength of planar fiber networks: Theory and application to paper sheets.
- Author
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Godinho, Pedro Miguel J.S., Jajcinovic, Marina, Wagner, Leopold, Vass, Viktoria, Fischer, Wolfgang J., Bader, Thomas K., Hirn, Ulrich, Bauer, Wolfgang, Eberhardsteiner, Josef, and Hellmich, Christian
- Subjects
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FIBERS , *FRACTURE mechanics , *THEORY-practice relationship , *ELASTICITY - Abstract
2D materials < such > as planar fibrous networks exhibit several mechanical peculiarities, which we here decipher through a 3D-to-2D transition in the framework of continuum micromechanics or random mean-field homogenization theory. Network-to-fiber concentration (or "downscaling") tensors are derived from Eshelby–Laws matrix-inclusion problems, specified for infinitely long, infinitely flat fibers, and for infinitely flat spheroidal pores of vanishing stiffness. Overall material failure is associated with microscopic shear failure orthogonal to the fiber direction. Corresponding structure–property relations between porosity on the one hand, and in-plane stiffness as well as strength on the other hand, appear as linear. This is in good agreement with mechanical experiments carried out on pulp fibers, on pulp fiber-to-pulp fiber bonds, and on corresponding paper sheets. • A theoretical model has been developed that is able to predict the macroscopic mechanical behavior of planar transversely isotropic fiber networks out of the properties of fibers and fiber-to-fiber bonds leading to their formation. • An explicit, closed-form expression for the Hill morphology tensor of an infinitely thin oblate spheroidal inclusion embedded into a transversely isotropic, as well as an innovative numerical approach to treat associated singularities, have been used. • The model is computationally highly efficient and effective, being capable of quickly predicting the mechanical properties of virtually any planar transversely isotropic fiber network. • Theoretically predicted data for the case of wood-based paper sheets, computed from experimentally determined properties of pulp fibers and pulp fiber-to-pulp fiber bonds leading to their formation, are shown to be in good agreement with experimentally determined mechanical data for the very same paper sheets. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
16. Voronoi discretization to improve the meshless local Petrov–Galerkin method in 3D-computational fracture mechanics
- Author
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Ariannezhad, Behrooz, Shahrooi, Shahram, and Shishesaz, Mohammad
- Published
- 2023
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17. Determination of the Mode I critical J-integral of copy paper.
- Author
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Yoshihara, Hiroshi and Yoshinobu, Masahiro
- Subjects
- *
STRAIN energy , *TENSILE tests , *TENSION loads , *STRESS intensity factors (Fracture mechanics) , *FRACTURE mechanics - Abstract
Centre-notched tension and double-edge-notched tension tests were conducted using specimens of copy paper in order to determine the Mode I critical J -integral. The crack length was varied during the test, and the effects of the test method and crack length were examined. The critical J -integral obtained from the centre-notched tension test was significantly smaller than that obtained from the double-edge-notched tension test. In both tests, the critical stress intensity factor decreased as the initial crack length increased. When the crack length correction was performed, however, the Mode I critical J -integral could be accurately obtained while reducing the aforementioned dependencies. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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18. A brittle material with tunable elasticity: Crêpe paper.
- Author
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Vandenberghe, Nicolas and Villermaux, Emmanuel
- Subjects
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BRITTLE material fracture , *ELASTICITY , *YOUNG'S modulus , *PROBLEM solving , *FRACTURE mechanics - Abstract
We study the mechanical response, and tearing features of crêpe paper, a two-dimensional, very anisotropic material, with one direction much less stiff than the other one. Depending on how the soft direction has been pre-stretched or not, the apparent Young modulus of the material can be varied over a broad range, while its fracture energy remains unaltered. The classical tearing concertina problem shows that a macroscopic measurement (the shape of the teared region) provides a direct access to the fracture properties of the material (effective Young's modulus, and fracture energy). The overall discussion is conducted in the frame of Griffith's theory of fracture. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
19. In-class Paper Demonstrations and Experiments for Solid Mechanics Courses.
- Author
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Xu, L. Roy
- Subjects
MECHANICS (Physics) -- Study & teaching ,CURRICULUM ,ENGINEERING students ,FRACTURE mechanics ,SCISSORS & shears - Abstract
Attending in-class paper demonstrations and performing experiments in solid mechanics courses are very effective ways for students to gain an understanding of the complicated concepts of mechanics. This paper explores a few applications of dogbone tensile tests, stress concentrations and crack kinking or mixed-mode fracture. Furthermore, this handy technique can be extended to other broader areas of mechanics education. Since only simple materials and supplies are used, copy paper, staples, scissors and a paper punching machine, students can repeat these typical mechanics experiments in future in other locations, such as in an office or at home. Therefore, this simple and effective technique can have a remarkable influence on the student's long-term career. [ABSTRACT FROM AUTHOR]
- Published
- 2008
20. Journal of Failure Analysis and Prevention Volume 22 Best Paper Award.
- Subjects
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FAILURE analysis , *AWARDS , *FRACTURE mechanics , *MATERIALS analysis - Published
- 2023
- Full Text
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21. Deformation and fracture of paper during the in-plane fracture toughness testing--Examination of the essential work of fracture method.
- Author
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Tanaka, A. and Yamauchi, T.
- Subjects
PAPER testing ,MECHANICAL loads ,FRACTURE mechanics ,DEFORMATION of surfaces ,STRENGTH of materials - Abstract
The “essential work of fracture” (EWF) method is applied to various machine-made papers. The deforming and fracturing processes of the paper samples during testing is analyzed by means of the thermographic observation. Plastic deformation zone appears in three ways when deep double edge notched tension specimens are strained under in-plane stress: i.e. 1. type (i)--appearing through whole the ligament in a vague manner and developing into a circular (or oval) zone even before or at the maximum load point; 2. type (ii)--appearing from notch tip and amalgamating into a circular (or oval) zone after the maximum load point; and 3. type (iii)--appearing from notch tip and not amalgamating into a circular (or oval) zone until the sheet failure. Specimens with small ligament length (L) are likely to belong to type (i), while those with large L to type (ii) & (iii). Among these three types, type (i) fulfills the original assumption of the EWF method best in terms of the complete ligament yielding before crack initiation. Thus the specific essential work of fracture determined using the linear relation of type (i) should be correct, although the estimated work is a little smaller than that from the linear relation of type (ii) & (iii). [ABSTRACT FROM AUTHOR]
- Published
- 2000
- Full Text
- View/download PDF
22. Crease-induced targeted cutting and folding of graphene origami.
- Author
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Wei, Ning, Chen, Yang, Zhang, Yingyan, Zheng, Jin-Cheng, Zhao, Junhua, and Mai, Yiu-Wing
- Subjects
- *
ORIGAMI , *PAPER arts , *FRACTURE mechanics , *MOLECULAR dynamics , *GRAPHENE , *LASER beam cutting - Abstract
Graphene origami (G-ori) can possess unique mechanical properties and achieve some distinctive functionalization by engineering their configurations. However, it remains a tremendous challenge to modulate its formation and properties at the micro- and nano-scales. Herein, we systemically present the formation of G-ori activated by creased marks via molecular dynamics (MD) simulations. The pre-existing creased mark in graphene is created in a controlled way by transforming sp 2 to sp 3 bonds at the crease. Our results show that the presence of interlayer sp 3 bonds at the crease can direct crack growth and hence pave a new way to tailor graphene sheets into specified pieces. The crease also guides the folding process of graphene into various geometric configurations. Sophisticated G-ori can be constructed by designing rational crease distribution on the graphene surface. Checking against the folding process of paper origami shows that the crease-induced targeted folding can be achieved at both nano- and macro-scales in exactly the same way. Our findings provide a simple and feasible method to construct graphene-based nano-devices by designing rational morphological configurations of G-ori. Image 1 [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
23. Analysis of localized failure in low-basis-weight paper
- Author
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Hägglund, R. and Isaksson, P.
- Subjects
- *
CONTINUUM damage mechanics , *CONTINUUM mechanics , *FRACTURE mechanics , *FINITE element method - Abstract
Abstract: Continuum damage mechanics (CDM) is used to describe the post-elastic behavior of low-basis-weight paper. The relevance of undertaking studies of the mechanical behavior of low-basis-weight paper is that it enables characterization, optimization and quality control. In accordance with a CDM theory, an internal variable is introduced that represent the degree to which the material has degraded in a continuum sense and details inherent in a damage evolution law contain information about the rupture mechanism. To account for long ranging micro-structural effects, because of the fiber structure in the paper material, a non-local formulation of the constitutive law is considered. Of particular interest is the fracture toughness of the material, i.e. the ability to resist further crack propagation, as it is often a good measure of flaw tolerance and durability in the context of paper. The constitutive model discussed is verified against tensile tests on rectangular paper specimens containing pre-fabricated cracks. Acoustic emission was used to study the damage evolution in paper specimens during tensile loading. An orthotropic material description has been utilized. The model is contrasted with a purely isotropic formulation. It seems that for the type of problem analyzed in this work, an orthotropic material description does not significantly improve the predictive capability as compared to an isotropic formulation. It is concluded that the model can be used to evaluate the influence of arbitrary defect geometries, defect size and loading conditions and can easily be incorporated into a finite element code. [Copyright &y& Elsevier]
- Published
- 2006
- Full Text
- View/download PDF
24. Interlayer Separation in Graphene Paper Comprising Electrochemically Exfoliated Graphene.
- Author
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Nguyen, Dang Du, Lim, TaeGyeong, Lim, Soomook, Suk, Ji Won, and Donnet, Christophe
- Subjects
GRAPHENE ,FRACTURE mechanics ,THERMAL properties ,ENERGY storage ,CANTILEVERS - Abstract
The emergence of graphene paper comprising well-stacked graphene flakes has promoted the application of graphene-based materials in diverse fields such as energy storage devices, membrane desalination, and actuators. The fundamental properties of graphene paper such as mechanical, electrical, and thermal properties are critical to the design and fabrication of paper-based devices. In this study, the interlayer interactions in graphene paper were investigated by double cantilever beam (DCB) fracture tests. Graphene papers fabricated by flow-directed stacking of electrochemically exfoliated few-layer graphene flakes were mechanically separated into two parts, which generated force-displacement responses of the DCB sample. The analysis based on fracture mechanics revealed that the interlayer separation energy of the graphene paper was 9.83 ± 0.06 J/m
2 . The results provided a fundamental understanding of the interfacial properties of graphene papers, which will be useful for developing paper-based devices with mechanical integrity. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
- View/download PDF
25. Reply to the Comments by Marko and Fissel on the Paper "On the Deterioration of Icebergs in the Marginal Ice Zone" by Venkatesh et al. (1994).
- Subjects
ICEBERGS ,SEA ice ,ICE ,FRACTURE mechanics ,WATER temperature ,OCEAN ,OCEANOGRAPHY ,RESEARCH - Abstract
The article presents a reply by S. Venkatesh and colleagues to comments made by J. R. Marko and D. B. Fissel about their study, On the Deterioration of Icebergs in the Marginal Ice Zone. According to Venkatesh and colleagues, Marko and Fissel point to the many difficulties and expense in obtaining the necessary data to predict the deterioration of icebergs in an operational time setting. They pointed out that they are confident of the calculated deterioration rates. They said that while the calved iceberg fragments under the existing environmental conditions constitute only 2 to 3% of the original masses, the deterioration rates will increase with increasing water temperatures and sea state conditions.
- Published
- 1994
26. Mode I crack growth in paper exhibits three stages of strain evolution in reaching steady-state.
- Author
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Paluskiewicz, Sarah A. and Muhlstein, Christopher L.
- Subjects
- *
METAL foils , *CORPORATE bonds , *DIGITAL image correlation - Abstract
The mechanical properties of wood fiber-based, commercial papers and metal foils are qualitatively similar, and their plane stress, Mode I crack growth resistances have not been reliably correlated with single-valued fracture mechanics parameters for centimeter-scale specimens. Experimentally-measured crack tip strain fields of Mode I cracks growing in commercial paper were used to define a three-stage, steady-state crack growth mechanism. Immediately upon loading, the net sections ahead of the cracks yielded. As the cracks began to grow, well-defined zones of (incremental) active plasticity (ZAPs) formed within the yielded ligaments. Cracks transitioned to steady-state growth with an average characteristic stress, σ c , of 20.9 MPa. In contrast to metallic foils, the characteristic stress in steady-state cracks in paper was offset by 8.3 MPa due to a 1.9 mm fiber bridging zone that scaled with the average fiber agglomerate (floc) size. The fiber network structure also induced a large, reversed steady-state zone in the crack wakes. While reversed ZAPS were previously predicted by numerical models of plane strain Mode I and III cracks under small-scale yielding conditions, they were never observed experimentally and were neglected. The types and evolution of the cumulative and incremental plastic zones in paper defined appropriate paths for steady-state J -integral calculations. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
27. Sandwich composites made of syntactic foam core and paper skin: Manufacturing and mechanical behavior.
- Author
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Islam, Md Mainul and Kim, Ho Sung
- Subjects
COMPOSITE materials ,MECHANICAL behavior of materials ,MANUFACTURING processes ,CONSTRUCTION materials ,STARCH ,ADHESION ,FRACTURE mechanics ,SHEAR (Mechanics) - Abstract
Novel sandwich composites made of syntactic foam core and paper skin were developed as potential building materials. Interface bonding between core and skin was controlled by varying starch content. Two different microsphere size groups were employed for syntactic foam core manufacturing based on the pre-mold processing method. Properties of skin paper with starch adhesive on were found to be affected by drying time of starch adhesive. Mechanical behavior of manufactured sandwich composites in relation with properties of constituent materials was studied. Skin paper contributed to increase up to 40% in estimated flexural strength over syntactic foams, depending on starch content in adhesive between syntactic foam core and paper skin. Small microsphere size group for syntactic foam core was found to be advantageous in strengthening of sandwich composites for a given starch content in adhesive. This finding was in agreement with calculated values of estimated shear stress at interface between skin and core. Failure process of the sandwich composites was discussed in relation with load–deflection curves. Cracking of syntactic foam core was detected to be the first event in sandwich composite failure sequence. Hygroscopic behavior of syntactic foam panels was investigated. Moisture content in the foam was measured to be high for high starch content in the foam panels. No significant moisture effect on flexural strength of syntactic foam panels after being subjected to moisture about 2 months was found for both microsphere size groups. However, substantial decrease (28%) in flexural modulus was found for the foam panels made of large microspheres although not much moisture effect was found on that of small microspheres. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
- Full Text
- View/download PDF
28. Selected Papers from the International Symposium on Dynamic Response and Failure of Composite Materials, Draf2022.
- Author
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Lopresto, Valentina, Papa, Ilaria, Astarita, Antonello, and Guida, Michele
- Subjects
FRACTURE mechanics ,AUXETIC materials ,SANDWICH construction (Materials) ,VISCOELASTIC materials ,IMPACT response ,COMPOSITE materials ,LAMINATED materials - Abstract
B. Palmieri et al. in "Investigation on Stress Relaxation of Discontinuous Recycled/Repurposed Carbon Fiber Composites" investigate the thermo-mechanical and viscoelastic behavior of composites made at different recycled carbon fiber (rCF) content. These are similar in structure to carbon fiber composites, where the matrix features dielectric characteristics, making the structure capable of storing electric energy. This special issue focus is dedicated to the fourth edition of the "International Symposium on Dynamic Response and Failure of Composite Materials, Draf2022" held in Ischia, Naples, from June 21-24, 2022. [Extracted from the article]
- Published
- 2023
- Full Text
- View/download PDF
29. Numerical integration in G/XFEM analysis of 2-D fracture mechanics problems for physically nonlinear material and cohesive crack propagation
- Author
-
Campos, Bruna Caroline, Barros, Felicio Bruzzi, and Penna, Samuel Silva
- Published
- 2022
- Full Text
- View/download PDF
30. Tensile and tearing fracture properties of graphene oxide papers intercalated with carbon nanotubes.
- Author
-
Nizam Uddin, Md., Zhen-Dong Huang, Yiu-Wing Mai, and Jang-Kyo Kim
- Subjects
- *
TENSILE strength , *FRACTURE mechanics , *MULTIWALLED carbon nanotubes , *GRAPHENE oxide , *BRITTLE fractures , *OSCILLATIONS - Abstract
The fracture behaviors of graphene oxide (GO) and GO/multi-walled carbon nanotube (MWCNT) hybrid papers are studied in both quasi-static mode-I opening and mode-III tearing fracture. Large GO papers give rise to a higher energy release rate and tearing toughness than those made from small GO sheets: about 36% and 70% enhancements are shown for the large GO papers due to a more compact structure and better GO sheet alignment. Hybridization of GO papers with MWCNTs also improves these properties when up to 5 wt.% of MWCNTs is incorporated, attributed to the stronger GO interlayer bonds through π-π interactions with intercalated MWCNTs. Fracture surface examination indicates that cleavage failure prevails in mode-I fracture depending on the size of GO sheets: the unsorted and large GO papers fail mainly by brittle cleavage of GO sheets whereas small GO papers fail by combined brittle cleavage and minor pullout following debonding of GO bundles. In contrast, combination of cleavage and debonding failures is dominant in mode-III fracture of GO papers, regardless of GO size. The torn edges present typical characteristics of a saw-tooth wave with disordered oscillation where the large GO papers exhibit generally higher amplitude peaks than the small GO papers. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
31. THE RELATIONSHIP BETWEEN DP, FRACTURE DEGREE AND MECHANICAL STRENGTH OF CELLULOSE Iβ IN INSULATION PAPER BY MOLECULAR DYNAMIC SIMULATIONS.
- Author
-
WANG, YOU-YUAN, YANG, TAO, TIAN, MIAO, and LIAO, RUI-JIN
- Subjects
- *
DEGREE of polymerization , *FRACTURE mechanics , *CELLULOSE , *MOLECULAR dynamics , *TRANSFORMER insulation , *YOUNG'S modulus , *HYDROGEN bonding - Abstract
The degree of polymerization (DP) has been regarded as an important symbol of mechanical strength, reflecting the aging condition of transformer insulation paper. In this article, a new concept called fracture degree is proposed on the basis of DP. First, nine cellulose Iβ crystal models with different fracture degrees were built. Then relevant mechanical parameters and hydrogen bond numbers were calculated by molecular dynamics (MD) simulation. Results showed that during the aging process of insulation paper with fracture of cellulose chain, the elastic constant C33 produces appreciable impact on the Young's modulus (E). With the decrease of DP and increase of fracture degree, the Young's modulus step decreases. To the 50% and 100% fracture degree models respectively, the relationship between their different degrees of polymerization and Young's modulus is subjected to similar exponential distributions. With the increase of the fracture degree, the average hydrogen bond number drops, and the change rules apply to the Young's modulus. Since hydrogen bond is the main factor of mechanical strength, it can be inferred that the fracture degree influences mechanical strength seriously. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
32. 2013 Koiter Medal Paper: Crack-Tip Fields and Toughness of Two-Dimensional Elastoplastic Lattices.
- Author
-
Tankasala, H. C., Deshpande, V. S., and Fleck, N. A.
- Subjects
- *
ELASTOPLASTICITY , *TWO-dimensional materials (Nanotechnology) , *FRACTURE toughness , *CRYSTAL lattices , *FRACTURE mechanics - Abstract
The dependence of the fracture toughness of two-dimensional (2D) elastoplastic lattices upon relative density and ductility of cell wall material is obtained for four topologies: the triangular lattice, kagome lattice, diamond lattice, and the hexagonal lattice. Crack-tip fields are explored, including the plastic zone size and crack opening displacement. The cell walls are treated as beams, with a material response given by the Ramberg-Osgood law. There is choice in the criterion for crack advance, and two extremes are considered: (i) the maximum local tensile strain (LTS) anywhere in the lattice attains the failure strain or (ii) the average tensile strain (ATS) across the cell wall attains the failure strain (which can be identified with the necking strain). The dependence of macroscopic fracture toughness upon failure strain, strain hardening exponent, and relative density is obtained for each lattice, and scaling laws are derived. The role of imperfections in degrading the fracture toughness is assessed by random movement of the nodes. The paper provides a strategy for obtaining lattices of high toughness at low density, thereby filling gaps in material property space. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
33. Design of Paper Path Detection and Diagnostic System in Ink-Jet Printers Using an Observer-Based Technique.
- Author
-
Kuan-Heng Chen and Syh-Shiuh Yeh
- Subjects
- *
INK-jet printers , *TRANSPORT theory , *FRACTURE mechanics , *FEASIBILITY studies , *PERTURBATION theory , *CHATTERING control (Control systems) - Abstract
As the speed of paper feeding processes in an ink-jet printer is increased, the paper feeding mechanisms are usually prone to induce some paper transport problems such as paper jamming and slipping, and some mechanical problems such as gear cracking and chattering. Therefore, for ensuring printing qualities and for preventing destructive damages, the paper path detection in ink-jet printers is required. In this paper, we explore the feasibility of using speed perturbation observer to detect paper path situations in an ink-jet printer. Moreover, in comparing with the existing approaches, this paper presents an approach without additional sensors. The speed perturbation observer composed of a nominal plant, a low-pass filter, and an identification unit is developed to detect paper path situations during paper feeding processes. The design concept is based on the fact that external disturbances usually significantly affect the speed performances of an axial mechanical system. Since the paper feeding processes in ink-jet printers are equivalent to that the interaction among paper and paper feeding mechanisms exerts external disturbances on the driven motor, it is interesting to detect paper path situations by estimating speed perturbations induced by different paper feeding actions. The proposed approach is implemented on an ink-jet printer and two usual paper path situations are tested. The experimental results demonstrate that the proposed approach can accurately respond to the different paper path situations caused by different paper feeding actions. [ABSTRACT FROM AUTHOR]
- Published
- 2012
34. Synthesis and characterization of ceramics from coal fly ash and incinerated paper mill sludge
- Author
-
Furlani, Erika, Brückner, Sergio, Minichelli, Dino, and Maschio, Stefano
- Subjects
- *
FLY ash , *CERAMICS , *MICROSTRUCTURE , *SINTERING , *FRACTURE mechanics , *ABSORPTION , *STRENGTH of materials - Abstract
Abstract: Powders obtained from coal fly ash and paper mill sludge were milled alone or in mixture, pressed into specimens and sintered. Fired materials were characterized by density, water absorption, shrinkage on firing, crystal structure, microstructure, strength, hardness and toughness. Samples made with paper mill sludge alone had a high sintering temperature, contained extended fractures after sintering and were not further studied. All the other compositions, sintered between 1130 and 1190°C, showed low water absorption, density below 2.6g/cm3, fair mechanical properties and contained several phases. More in particular, the material containing 25wt% of coal ash and 75wt% of powder from paper sludge displayed the best overall behaviour. [Copyright &y& Elsevier]
- Published
- 2008
- Full Text
- View/download PDF
35. Influence of damage in the vicinity of a crack-tip in embossed low-basis-weight paper
- Author
-
Hägglund, R. and Isaksson, P.
- Subjects
- *
EMBOSSING (Metalwork) , *CONTINUUM damage mechanics , *CONTINUUM mechanics , *FRACTURE mechanics - Abstract
Abstract: It is experimentally observed that the fracture process developed in an embossed paper sample having a periodic matrix organized pattern is distributed over several indentation rows in the region near a macroscopic crack. This observation suggests that the stresses at the tip of the crack is shielded by damage in neighboring rows of indentation: energy dissipation may occur not only at the tip of the main crack, but in several indentation rows parallel to the main crack. In this investigation, a model describing the in-plane fracture behavior of embossed low-basis-weight paper is developed. It is found that the model is capable of capturing the development of damage in rows parallel to the main crack and compares well with experimental results. [Copyright &y& Elsevier]
- Published
- 2007
- Full Text
- View/download PDF
36. In-Plane Fracture Toughness of PET Fiber-Reinforced Paper as a Function of UV-Irradiation.
- Author
-
Bárány, T. and Karger‐Kocsis, J.
- Subjects
- *
FRACTURE mechanics , *IRRADIATION , *ULTRAVIOLET radiation , *FRACTOGRAPHY , *CELLULOSE fibers - Abstract
The essential work of fracture (EWF) method was used to assess the in-plane toughness of a paper containing poly(ethylene terephthalate) (PET) and cellulose fibers before and after ultraviolet (UV) aging. It was found that this paper meets the basic requirements of the EWF method, at least in the yielding/blunting-related stage. The related EWF terms decreased with increasing UV aging. A similar trend was observed for the tensile mechanical parameters. Fractographic inspection showed that UV aging resulted in improved wetting of the PET fibers by the binder used. Instead of its beneficial effect, however, an adverse trend was found. This was traced to the UV-caused “embrittlement” of the cellulose fibers, which hampered the deformability of the web composed of PET and cellulose fibers. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
- View/download PDF
37. On the numerical integration in generalized/extended finite element method analysis for crack propagation problems
- Author
-
Campos, Bruna Caroline, Barros, Felício Bruzzi, and Penna, Samuel Silva
- Published
- 2021
- Full Text
- View/download PDF
38. Fatigue Life of Flywheel Energy Storage Rotors Composed of 30Cr2Ni4MoV Steel.
- Author
-
Hu, Dongxu, Dai, Xingjian, Xie, Bo, Li, Wen, Yu, Hongyan, and Chen, Haisheng
- Subjects
MECHANICAL behavior of materials ,FATIGUE life ,FRACTURE mechanics ,CRACK propagation (Fracture mechanics) ,ENERGY storage ,FATIGUE crack growth - Abstract
In supporting the stable operation of high-penetration renewable energy grids, flywheel energy storage systems undergo frequent charge–discharge cycles, resulting in significant stress fluctuations in the rotor core. This paper investigates the fatigue life of flywheel energy storage rotors fabricated from 30Cr2Ni4MoV alloy steel, attempting to elucidate the material's mechanical properties, crack propagation behavior, and impact of internal defects on fatigue life. Tensile tests reveal that the material exhibited high yield (992 MPa) and tensile strengths (1130 MPa). The Paris formula is used to model crack growth rates, ending in good agreement with the experimental data. Fatigue tests at various stress conditions highlight the material's significant variability in fatigue life and emphasize the need for reliable design approaches. This paper also demonstrates that internal defect size and location critically affect fatigue life, calling for improvements in forging inspection standards. Overall, the present study provides a comprehensive analysis of 30Cr2Ni4MoV steel's suitability for flywheel rotors, balancing safety, and operational efficiency. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
39. Identification of Damage in Steel‒Concrete Composite Beams Based on Wavelet Analysis and Deep Learning.
- Author
-
Zhang, Chengpeng, Shi, Junfeng, and Huang, Caiping
- Subjects
STEEL-concrete composites ,WAVELETS (Mathematics) ,DEEP learning ,FRACTURE mechanics ,FIBER Bragg gratings - Abstract
In this paper, an intelligent damage detection approach is proposed for steel-concrete composite beams based on deep learning and wavelet analysis. To demonstrate the feasibility of this approach, first, following the guidelines provided by relevant standards, steel-concrete composite beams are designed, and six different damage incidents are established. Second, a steel ball is used for free-fall excitation on the surface of the steel-concrete composite beams and a low-temperature-sensitive quasi-distributed long-gauge fiber Bragg grating (FBG) strain sensor is used to obtain the strain signals of the steel-concrete composite beams with different damage types. To reduce the effect of noise on the strain signals, several denoising techniques are applied to process the collected strain signals. Finally, to intelligently identify the strain signals of combined beams with different damage types, multiple deep learning models are constructed to train and to predict strain signals as denoised and not denoised, allowing for damage classification and localization in steel-concrete composite beams. In this experimental context, residual network-50 (ResNet-50) achieved the highest average accuracy compared to that of the other deep learning models. The average accuracy of the un-denoised and denoised signals is 96.73% and 97.91%, respectively, and wavelet denoising improved the prediction accuracy of ResNet-50 by 1.18%. The strain–time domain signals collected by sensors located farther from the damage zone also contain information about the damage to the composite beam. The deep learning models effectively extract damage features. The results of this experiment demonstrate that the approach used in this paper enhances the intelligence of structural damage identification. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
40. Hierarchical Structure and Properties of Graphene Oxide Papers.
- Author
-
Wood, Charles D., Palmeri, Marc J., Putz, Karl W., Zhi An, Nguyen, SonBinh T., and Brinson, L. Catherine
- Subjects
- *
GRAPHENE oxide , *STIFFNESS (Mechanics) , *FRACTURE mechanics , *STRENGTH of materials , *FLEXIBILITY (Mechanics) , *MECHANICAL behavior of materials - Abstract
The mechanical properties of graphene oxide papers have attracted significant attention in recent years due to their high stiffness and tough behavior. While the structural feature most commonly characterized is the nanosheet spacing, there is a hierarchical structure, which is likely responsible for the impressive mechanical properties. In this paper, we examine the structure of graphene oxide papers on several length scales using novel techniques to distinguish between lamellae and a newly defined feature, termed "super-lamellae." The differentiation between these intermediate features provides context to the previously observed mechanical response and fracture surfaces of graphene oxide papers, particularly under uniaxial tension. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
41. The effect of concentration of graphene nanoplatelets on mechanical and electrical properties of reduced graphene oxide papers
- Author
-
Park, Sungjin, Suk, Ji Won, An, Jinho, Oh, Junghoon, Lee, Seungjun, Lee, Wonoh, Potts, Jeffrey R., Byun, Joon-Hyung, and Ruoff, Rodney S.
- Subjects
- *
ELECTRIC properties of graphene , *MECHANICAL properties of metals , *METALLIC oxides , *HYDRAZINES , *SUSPENSIONS (Chemistry) , *ELECTRIC conductivity , *STRAINS & stresses (Mechanics) , *FRACTURE mechanics , *STRENGTH of materials - Abstract
Abstract: Macroscopic, freestanding graphene-based paper-like materials are of interest for use as mechanically strong, stiff, and flexible and electrically conductive materials. Chemically reduced graphene oxide paper shows promise for such applications. In this work, we studied the mechanical and electrical properties of a set of paper materials prepared by filtration of homogeneous colloidal suspensions of hydrazine-reduced graphene oxide with different concentrations. Young’s modulus, fracture strength, and fracture strain of each type of sample was determined by tensile tests. The paper sample prepared from the colloidal suspension with the lowest concentration of reduced graphene oxide platelets had the highest modulus and fracture strength and showed the smoothest surface morphology. The electrical conductivity measured by the four-probe measurement method increased as the concentration was increased. [Copyright &y& Elsevier]
- Published
- 2012
- Full Text
- View/download PDF
42. Determination of Key Cohesive Zone Model’s Parameters for Orthotropic Paper and Its Static Fracture Simulation.
- Author
-
WANG Yue, WANG Yongjian, and LI Lingquan
- Subjects
FRACTURE mechanics ,SHEAR (Mechanics) ,TENSILE tests ,COMPUTER simulation ,DISPLACEMENT (Mechanics) - Abstract
Copyright of Transactions of Nanjing University of Aeronautics & Astronautics is the property of Editorial Department of Journal of Nanjing University of Aeronautics & Astronautics and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2021
- Full Text
- View/download PDF
43. Technical Papers: The Hunt for the Elusive Concept.
- Author
-
Oehlers, Deric John
- Subjects
- *
STRUCTURAL engineering , *INNOVATION management , *REINFORCED concrete , *FRACTURE mechanics , *MATERIALS science , *POLYMERS - Abstract
Structural engineers, whether they are designers, contractors or academics, are frequently faced with the problem of introducing innovation into practice through research, such as for the development of new structures or the use of new materials such as fibre reinforced polymer. Hence, research is pivotal to the introduction of innovation. How research is applied is invariably a very complex and often costly problem and consequently needs careful examination to be effective. All engineers do research but by the very nature of research we all do research in different ways. This paper is the author's reflections on research procedures and approaches often used in structural engineering. These approaches are then illustrated using the author's research particularly on developing a generic failure model for reinforced concrete which can be applied to the seemingly disparate reinforced concrete problems of moment-rotation, shear capacity and the effect of confinement. Numerous concepts are introduced in this paper such as: the use of empirical modelling in plugging the gaps in the structural mechanics models; the elusive concept that is pivotal to understanding and should not be confused with the illusive concept; and categorisation of researchers to help sort out the mass of information available. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
44. Effect of Cross-Linking Fiber Joints on the Tensile and Fracture Behavior of Paper.
- Author
-
Andrew T. Horvath, Robert Pelton, Per Tomas Larsson, and Lars Wågberg
- Subjects
- *
CROSSLINKING (Polymerization) , *FIBERS , *JOINTS (Engineering) , *FRACTURE mechanics , *ALDEHYDES , *HYDROLYSIS , *CHEMICAL kinetics , *STRENGTH of materials , *STIFFNESS (Engineering) - Abstract
The tensile and fracture properties of cross-linked paper were investigated at low and high relative humidity by cross-linking the joints formed between fibers. Cationic acetal dextran served as a model cross-linking agent, as it can be prepared to adsorb specifically to the fiber surface. Thus, cross-linking occurs only in the joints between fibers. The kinetics of hydrolysis was investigated to optimize the stock preparation, such that the resulting aldehyde groups react as the paper is dried. The effect of the cross-link density on the tensile and fracture properties was studied by varying the amount of acetal groups adsorbed to the pulp fibers. At low humidity, cross-linking improved the tensile and fracture properties of paper, although lower cross-link densities yielded better properties. Cross-linking was not effective at high relative humidty, as the tensile strength and stiffness were not improved. However, the fracture properties were significantly improved. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
45. Discussion on the paper “Simulation of porosity by microballoon dispersion in epoxy and urethane: Mechanical measurements and models” by M. A. El-Hadek and H. V. Tippur, Journal of Materials Science, 37, 1649–1660, 2002, [1].
- Author
-
Bardella, L.
- Subjects
- *
POROSITY , *DISPERSION (Chemistry) , *EPOXY resins , *URETHANE , *ELASTICITY , *FRACTURE mechanics - Abstract
The article discusses the paper "Simulation of Porosity by Microballoon Dispersion in Epoxy and Urethane: Mechanical Measurements and Models," by M.A. El-Hadek and H.V. Tippur. The aim of the paper is to experimentally determine Young's modulus, tensile strength, and fracture toughness of syntactic foams, and the provision of micromechanical models for predicting such material parameters. El-Hadek and Tippur claim they could successfully estimate the effective stiffness by neglecting the particle wall thickness in the homogenization procedure. The particle wall thickness is one of the most important parameters influencing the effective mechanical properties of syntactic foams.
- Published
- 2003
- Full Text
- View/download PDF
46. Determining the fracture resistance of thin sheet fiber composites – Paper as a model material
- Author
-
Zechner, J., Janko, M., and Kolednik, O.
- Subjects
- *
FRACTURE mechanics , *FIBROUS composites , *NONLINEAR theories , *FRACTURE toughness , *MECHANICAL behavior of materials , *DEFORMATIONS (Mechanics) - Abstract
Abstract: In nonlinear fracture mechanics testing of thin-sheet short-fiber composites, special problems occur that do not appear in other engineering materials, such as steels. The most important problem is the formation of a long process zone, where fiber pull-out, realignment and breakage occur, making an optical crack length measurement impossible. This impedes the determination of a reproducible value of the fracture toughness and the construction of a crack growth resistance curve. Two new approaches are presented to overcome this problem. In the first one, a procedure is presented to determine experimentally the cohesive zone relation on deeply-notched double-edge notch tension specimens. The cohesive zone relation enables us, together with the mechanical properties, to simulate numerically a fracture mechanics test on an arbitrary geometry and to determine a crack growth resistance curve. In the second approach, the displacements and strains around the process zone are measured during in situ experiments under an optical microscope using digital image analysis. With this local deformation analysis, a critical local strain is determined where the load bearing capacity of the material decreases to zero. The knowledge of this critical strain is used to find the location of the crack tip and to determine a crack growth resistance curve. The application of the two approaches is demonstrated on commercial printing paper as model material. It is shown that reproducible fracture toughness parameters can be determined with both procedures. [Copyright &y& Elsevier]
- Published
- 2013
- Full Text
- View/download PDF
47. Wood--a 45th anniversary review of JMS papers. Part 1: The wood cell wall and mechanical properties.
- Author
-
Ansell, Martin P.
- Subjects
- *
MOISTURE in wood , *MATERIAL fatigue , *MECHANICAL behavior of materials , *FRACTURE mechanics , *MICROFIBRILS - Abstract
The first part of a comprehensive review of the literature on wood published in the Journal of Materials Science since its inception in 1966 is presented. Papers are reviewed by subject ranging from the determination of the microfibril angle in the wood cell wall through to the evaluation of fatigue life. The role of moisture content in determining mechanical properties of wood is explored and mechanical properties are reported including creep, fatigue and fracture. It is concluded that JMS has played a key role in disseminating state of the art literature on new developments in the understanding of the structure-related properties of wood. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
48. Technical Papers: Structural Performance of FRP Composites in Fire.
- Author
-
Keller, Thomas and Bai, Yu
- Subjects
- *
THERMOPHYSICAL properties , *THERMAL properties of polymers , *STRUCTURAL engineering , *STRAINS & stresses (Mechanics) , *FINITE element method , *FRACTURE mechanics - Abstract
This paper reviews the experimental and modeling work that has been carried out concerning the behavior of fiber-reinforced polymer (FRP) composites in fire since the 1980s. The first part focuses on the thermophysical properties and temperature responses, while the second considers thermomechanical properties and responses, which are significantly affected by the thermal exposure of the FRP material. Furthermore, the application of deformation-based or strength-based failure criteria enables the prediction of time-to-failure. If the fire exposure time is less than the time-to-failure, the post-fire behavior is of interest and the post-fire properties and their potential recovery after cooling are particularly addressed. This fundamental understanding obtained as a result of both modeling and experimental work makes a reliable endurance design for FRP structures in fire possible. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
49. Technical Papers: Linear Elastic Fracture Mechanics Approach to Plate End Debonding in Rectilinear and Curved Plated Beams.
- Author
-
De Lorenzis, L., Paggi, M., Carpinteri, A., and Zavarise, G.
- Subjects
- *
FINITE element method , *FRACTURE mechanics , *CONCRETE-filled tubes , *ADHESIVES , *STRUCTURAL failures , *MATERIAL fatigue - Abstract
This paper proposes a linear elastic fracture mechanics approach for the prediction of plate end debonding in rectilinear and curved plated beams. The analytical model results in simple equations, suitable for immediate design use. The load-deflection curve of a plated beam, from the onset of debonding up to the complete separation of the plate, is obtained by controlling the length of the interfacial debonding crack. Its shape clearly shows that snap-back or snap-through instabilities may arise when the beam is loaded under displacement or force control. Analytical predictions are also compared with finite element results based on an interfacial cohesive crack model. It is shown that the predictions of the proposed analytical model match closely the numerical solution, provided that an effective crack length accounting for the size of the fracture process zone is used in the calculations. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
50. Response to the discussion by I.V. Rokach of the paper entitled: “Analysis of the dynamic responses for a pre-cracked three-point bend specimen”.
- Author
-
Jiang, Fengchun, Rohatgi, Aashish, Vecchio, Kenneth S., and Cheney, Justin L.
- Subjects
- *
OSCILLATIONS , *EXAMPLE , *VIBRATION (Mechanics) , *DYNAMICS , *FRACTURE mechanics , *FLUCTUATIONS (Physics) - Abstract
The following response to the discussion of the above mentioned paper is divided into two parts: (1) a response to the issue of our comparison of the ‘apparent period of specimen oscillation’, t, and the natural vibration period of a cracked specimen,T, and (2) a verification of the applicability of our model to ‘short time-to-fracture’ tests, which Rokach has questioned, due to a lack of knowledge of Hopkinson bar techniques. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
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