Rok 2024

• Stiffness assessment of the laminate recovered from end-of-life wind turbine blade

  Publikacja

  • Ł. Pyrzowski
  • A. Sabik
  • J. Kluska
  • J. Zembrzuski

  - COMPOSITE STRUCTURES - Rok 2024

  In the paper the stiffness parameters of the laminate recovered from an aerodynamic shell of a decommissioned wind turbine blade are evaluated. The aim of the work is to assess selected methods for identifying material data, as well as to estimate the level of stiffness degradation during turbine operation. Several practical identification methods are presented and compared. Two concepts of a single laminate layer are considered,...

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Rok 2023

• Failure characterisation of sandwich beams using integrated acoustic emission and digital image correlation techniques

  Publikacja

  • Ł. Pyrzowski
  • M. Knak
  • M. Rucka

  - COMPOSITE STRUCTURES - Rok 2023

  The paper presents the experimental study of the failure behaviour of sandwich beams subjected to bending. The samples examined are sandwich beams made of polyethylene terephthalate foam core and glass fibre-reinforced polymer laminate face sheets. In a series of experiments, it has been proposed to integrate diagnostic techniques with acoustic emission and digital image correlation to accurately track the cracking process on the...

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• Hybrid all-cellulose reinforcement in polypropylene matrix biocomposites for injection moulding - influence of particle geometry and volume fraction on hybrid effect

  Publikacja

  • P. Franciszczak
  • J. Smoliński

  - COMPOSITE STRUCTURES - Rok 2023

  The presented study is focused on evaluation of influence of reinforcement volume fraction and geometry on the occurrence of positive hybrid effect by the hybridisation of man-made cellulose fibres (rayon viscose) with cellulose microparticle fillers applied in polypropylene matrix. Four volume fractions of reinforcement were used at 1:1 combination of short man-made cellulose fibres with cellulose microfillers of different aspect...

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Rok 2022

• A non-linear direct peridynamics plate theory

  Publikacja

  • K. Naumenko
  • V. Eremeev

  - COMPOSITE STRUCTURES - Rok 2022

  In this paper a direct non-local peridynamics theory for thin plates is developed. Peridynamic points are assumed to behave like rigid bodies with independent translation and finite rotation degrees of freedom. The non-local mechanical interaction between points is characterized by force and moment vectors. The balance equations including the linear momentum, the angular momentum and the energy are presented. Peridynamic deformation...

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• Damage imaging algorithm for non-destructive inspection of CFRP/steel adhesive joints based on ultrasonic guided wave propagation

  Publikacja

  • E. Wojtczak
  • M. Rucka

  - COMPOSITE STRUCTURES - Rok 2022

  The paper concerns assessing the quality of the adhesive connection between a steel plate and the reinforcing CFRP laminate. A three-stage algorithm for non-destructive damage imaging was developed. As the first step, an initial study involving dispersion curves of joint components was executed to determine the material parameters and the appropriate excitation frequency. During the second step, damage identification in three-layer...

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• The effect of shear deformations' rotary inertia on the vibrating response of multi-physic composite beam-like actuators

  Publikacja

  • M. Malikan
  • V. Eremeev

  - COMPOSITE STRUCTURES - Rok 2022

  In consecutive studies on flexomagneticity (FM), this work investigates the flexomagnetic reaction of a vibrating squared multi-physic beam in finite dimensions. It is assumed that the bending and shear deformations cause rotary inertia. In the standard type of the Timoshenko beam the rotary inertia originated from shear deformations has been typically omitted. It means the rotary inertia resulting from shear deformation is a new...

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• The vibration-based assessment of the influence of elevated temperature on the condition of concrete beams with pultruded GFRP reinforcement

  Publikacja

  • B. Zima
  • M. Krajewski

  - COMPOSITE STRUCTURES - Rok 2022

  Concrete beams reinforced with glass fiber reinforced polymer (GFRP) bars subjected to elevated temperature have been experimentally studied. The influence of high temperatures on GFRP-reinforced concrete beams condition has been check both, destructively and nondestructively. The nondestructive tests foresaw vibration-based tests to obtain the natural frequency values after exposure to varying temperatures. The vibration-based...

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Rok 2021

• Effect of surface on the flexomagnetic response of ferroic composite nanostructures; nonlinear bending analysis

  Publikacja

  • M. Malikan
  • V. Eremeev

  - COMPOSITE STRUCTURES - Rok 2021

  Our analysis incorporates the geometrically nonlinear bending of the Euler-Bernoulli ferromagnetic nanobeam accounting for a size-dependent model through assuming surface effects. In the framework of the flexomagnetic phenomenon, the large deflections are investigated referring to von-Kármán nonlinearity. Employing the nonlocal effects of stress coupled to the gradient of strain generates a scale-dependent Hookean stress-strain...

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• Examination of selected failure criteria with asymmetric shear stresses in the collapse analysis of laminated shells

  Publikacja

  • J. Chróścielewski
  • A. Sabik
  • B. Sobczyk
  • W. Witkowski

  - COMPOSITE STRUCTURES - Rok 2021

  The paper is concerned with failure analysis of composite shells performed with the usage of the nonlinear 6‐parameter shell theory with drilling rotation degree of freedom. This special theory embodies naturally unlim-ited translations and rotations and is suitable for analysis of irregular shells for instance with various, partic-ularly orthogonal, intersections. The presence of the drilling rotation is inherently accompanied...

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• Flexomagnetic response of buckled piezomagnetic composite nanoplates

  Publikacja

  • M. Malikan
  • V. Eremeev

  - COMPOSITE STRUCTURES - Rok 2021

  In this paper, the equation governing the buckling of a magnetic composite plate under the influence of an in-plane one-dimensional magnetic field, assuming the concept of flexomagnetic and considering the resulting flexural force and moment, is investigated for the first time by different analytical boundary conditions. To determine the equation governing the stability of the plate, the nonlocal strain gradient theory has been...

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• Nonlocal elasticity analysis of moderately thick porous functionally graded plates in a hygro-thermal environment

  Publikacja

  • S. Dastjerdi
  • M. Malikan
  • R. Dimitri
  • F. Tornabene

  - COMPOSITE STRUCTURES - Rok 2021

  This work performs a novel quasi three-dimensional (3D) bending analysis for a moderately thick functionally graded material (FGM) made of nanoceramics and metal powders, in presence of porosities due to some incorrect manufacturing processes. Such porosities can appear within the plate in two forms, namely, even and uneven distributions. The modeled system assumes a polymer matrix where both shear and transverse factors coexist....

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• On the generalized model of shell structures with functional cross-sections

  Publikacja

  • S. Dastjerdi
  • M. Malikan
  • V. Eremeev
  • B. Akgöz
  • Ö. Civalek

  - COMPOSITE STRUCTURES - Rok 2021

  In the present study, a single general formulation has been presented for the analysis of various shell-shaped structures. The proposed model is comprehensive and a variety of theories can be used based on it. The cross-section of the shell structure can be arbitrarily analyzed with the presented equations. In other words, various types of shell structures, including cylindrical, conical, spherical, elliptical, hyperbolic, parabolic,...

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Rok 2020

• A new hyperbolic-polynomial higher-order elasticity theory for mechanics of thick FGM beams with imperfection in the material composition

  Publikacja

  • M. Malikan
  • V. Eremeev

  - COMPOSITE STRUCTURES - Rok 2020

  A drawback to the material composition of thick functionally graded materials (FGM) beams is checked out in this research in conjunction with a novel hyperbolic‐polynomial higher‐order elasticity beam theory (HPET). The proposed beam model consists of a novel shape function for the distribution of shear stress deformation in the transverse coordinate. The beam theory also incorporates the stretching effect to present an indirect...

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• Local and global response of sandwich beams made of GFRP facings and PET foam core in three point bending test

  Publikacja

  • Ł. Pyrzowski
  • B. Sobczyk

  - COMPOSITE STRUCTURES - Rok 2020

  In the paper behaviour of laminated sandwich beams (FRP face sheet – PET foam core – FRP face sheet) subjected to three point bending is studied. The paper aim is to find practical descriptions enabling effective and accurate estimation of the elastic response, damage and failure of the beams, basing on experiments and static calculations. Therefore a number of tests are described, that were done on laminated coupons and foam specimens...

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• Multiparameter sensitivity analysis of a GFRP composite footbridge of a sandwich structure and U-shaped cross-section

  Publikacja

  • T. Ferenc

  - COMPOSITE STRUCTURES - Rok 2020

  The paper deals with multiparameter sensitivity analysis of a composite footbridge. A shell‐like structure is 14.5 m long shows U‐shaped cross‐section and inner service dimensions 1.3 × 2.5 m. Glass fiber reinforced polymer GFRP laminate constitutes faces of a sandwich structure while PET foam received from recycled bottle builts a core. The structure was divided into 285 independent areas where the thickness of laminates and stiffness...

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• Parametric optimization of sandwich composite footbridge with U-shaped cross-section

  Publikacja

  • T. Ferenc
  • T. Mikulski

  - COMPOSITE STRUCTURES - Rok 2020

  Parametric optimization of sandwich composite footbridge was presented in the paper. Composite footbridge has 14,5 m long and has U-shaped cross-section with inner dimensions 2,6 × 1,3 m. The sandwich structure in made from GFRP laminate as a faces and PET foam as a core. The aim of analysis was to minimize the mass of the new footbridge that can lead to minimize the cost of structure. After optimization was conducted, the new...

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Rok 2019

• In-plane shear nonlinearity in failure behavior of angle-ply laminated shells

  Publikacja

  • A. Sabik

  - COMPOSITE STRUCTURES - Rok 2019

  The paper concerns the progressive failure analysis of laminates with the in-plane shear nonlinearity accounted for.The nonlinear shear response of the layer is described by the constitutive relation treating the stresses as a function of strains. Thus it can be easily incorporated into the displacement-based FEM codes. The brittle failure mechanisms of the fibers and the matrix of the layer are recognized with the use of the Hashin...

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• Numerical modeling and experimental validation of full-scale segment to support design of novel GFRP footbridge

  Publikacja

  • J. Chróścielewski
  • T. Ferenc
  • T. Mikulski
  • M. Miśkiewicz
  • Ł. Pyrzowski

  - COMPOSITE STRUCTURES - Rok 2019

  The paper contains analysis of full-scaled three meters long segment of a novel composite footbridge. Both numerical modeling and experimental validation were performed. Analyzed object is a shell type sandwich channel-like structure made of composite sandwich with GFRP laminates as a skin and PET foam as a core. Several static load schemes were performed including vertical and horizontal forces. In FEM analysis multilayered laminate...

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Rok 2018

• Progressive failure analysis of laminates in the framework of 6-field nonlinear shell theory

  Publikacja

  • A. Sabik

  - COMPOSITE STRUCTURES - Rok 2018

  The paper presents the model of progressive failure analysis of laminates incorporated into the 6-field non-linear shell theory with non-symmetrical strain measures of Cosserat type. Such a theory is specially recommended in the analysis of shells with intersections due to its specific kinematics including the so-called drilling rotation. As a consequence of asymmetry of strain measures, modified laminates failure criteria must...

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Rok 2015

• Thermo-elastic non-linear analysis of multilayered plates and shells

  Publikacja

  • A. Sabik
  • I. Kreja

  - COMPOSITE STRUCTURES - Rok 2015

  Geometrically nonlinear FEM analysis of multilayered composite plates and shells is performed in order to resolve the stability problem of the structures being under the influence of temperature field. The Riks-Wempner-Ramm algorithm with a specially modified multi-choice unloading condition has been implemented in authors’ numerical code. As the representation of multilayered medium the Equivalent Single Layer approach with the...

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Rok 2005

• The spectral finite element model for analysis of flexural–shear coupled wave propagation

  Publikacja

  • M. Palacz
  • M. Krawczuk
  • W. Ostachowicz

  - COMPOSITE STRUCTURES - Rok 2005

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• The spectral finite element model for analysis of flexural-shear coupled wave propagation. Part 2: Delaminated multilayer composite beam

  Publikacja

  • M. Palacz
  • M. Krawczuk
  • W. Ostachowicz

  - COMPOSITE STRUCTURES - Rok 2005

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