The Effect of Fiber Orientation and Crack on Dynamic Characteristics of a Unidirectional Composite Cantilevered Wing Plate by Faisal Ramadhan, Rianto Adhy Sasongko, Leonardo Gunawan, Mahesa Akbar, Djarot Widagdo

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Circular thin plates buckling analysis with HRPIM method by Baid Sokayna, Hilali Youssef, Mesmoudi Saïd, Bourihane Oussama

“…The critical buckling loads have been calculated for different values of h/R ratio and compared with Finite Elements Method to illustrate the efficiency, robustness and accuracy of this approach across various boundary conditions.…”
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EVALUATION OF UNDERGROUND STRUCTURES SUBJECTED TO SEISMIC LOADS by Jan Pruška

“…Moreover, there is shown an example comparing pseudo-static FEM analysis with an analytical method. Finally, the advantages of the pseudo-static FEM method are presented.…”
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Fracturing behaviors of flawed granite induced by dynamic loadings: A study based on DIP and PFC by Xiao Wang, Wenbin Sun, Changdi He, Wei Yuan, Vahab Sarfarazi, Haozheng Wang

“…By means of digital image processing and the discrete element method, Particle Flow Code 2D (PFC2D) models were constructed based on real granite samples, effectively overcoming the limitations of prior studies that mainly relied on randomized parameters. …”
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Eddy-induced underwater acoustic field reconstruction and computation based on sound speed classification and B-spline surface fitting by Luochuan Xu, Jian Xu, Xuegang Zhang, Anmin Zhang, Yi Liu, Dan Chen, Linglong Chen, Zhongpeng Wu

“…To further assess the method’s effectiveness, the reconstructed eddy is used to simulate the eddy-induced underwater acoustic field through finite element method (FEM) modeling. …”
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Investigation of Blast-Induced Ground Vibrations, Air Overpressure, and Slope Stability in a Quarry: A Case Study by İbrahim Çavuşoğlu, Selçuk Alemdağ

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Implementation of spatial SV wave oblique incidence and helical pile response under this condition based on Python in finite element analysis by Hang Cen, Hui-yue Wang, Wen Zhou, De-long Huang, Zhong-ling Zong, Sha-sha Yu, Chang-lu Xu, Zi-yuan Huang

“…The traditional method of adding viscoelastic artificial boundaries and equivalent seismic loads has the disadvantages of a cumbersome adding process and a difficulty in finding errors. …”
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Numerical Modeling of the Fundamental Characteristics of ZBLAN Photonic Crystal Fiber for Communication in 2&#x2013;3 <inline-formula><tex-math notation="LaTeX">$\mu\text{m}$</tex-... by D. C. Tee, N. Tamchek, C. H. Raymond Ooi

“…The fundamental characteristics such as normalized frequency, confinement loss, chromatic dispersion, effective mode area, and nonlinearity were simulated through a full-vectorial finite-element method with perfectly matched layer boundary condition. …”
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Extrapolation methods for solving the hypersingular integral equation of the first kind by Qian Ge, Jin Li

“…Hypersingular integral equations have garnered extensive attention in the context of boundary element methods, particularly within natural boundary element methods. …”
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Borders and Bridges – Boundaries as an Opportunity by Stefano Follesa, Francesco Armato, Sabrina Cesaretti, Yao Peian

“…The boundary is an ephemeral concept, an imaginary line that marks the terms of a territory. …”
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MODELLING OF STRESS STATE OF DENTAL HARD TISSUES WHILE CARIOUS CAVITIES OF I CLASS RESTORATION by Yu.V. Lakhtin, Yu.V. Smeyanov, B.V. Nishta

“…Purpose of research is to study stress in dental hard tissues in computer modeling of restored I class carious cavities, which were prepared with classic method. Methods. Three-dimensional model «enamel-dentine-restoration» was created in SolidWorks program and based on mandibular molar radiograph, it was exported in software complex ANSYS Workbench, and finite element model was formed. …”
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Numerical Solution to the Problem of Thermal Conductivity in a Porous Plate with a Topology of Triply Periodic Minimal Surfaces by K. V. Gubareva, A. V. Eremin

“…The analysis was performed using two methods: calculations in MathCAD based on the finite difference method, and modeling in ANSYS using the finite element method. …”
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ARES: A Meanline Code for Outboard Dynamic-Inlet Waterjet Axial-Flow Pumps Design by Filippo Avanzi, Francesco De Vanna, Andrea Magrini, Ernesto Benini

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Computational design of mechanical metamaterials through misaligned periodic microstructure by Jiaxin Zhou, Ikumu Watanabe, Keita Kambayashi

“…Using the mathematical homogenization method, unit cells within parallelogram or parallelepiped domains are represented within square or cubic domains under misaligned periodic boundary conditions. …”
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Investigation of Fluid–Structure Interaction in Stenosed Bifurcated Arteries: Flow Dynamics and Conjugate Heat Transfer by Mudassar Razzaq, Muhammad Adnan Anwar, Kaleem Iqbal, Marcel Gurris

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RESEARCH INTO THE AERODYNAMICS OF AIR FLOWS IN CYCLONES by V. Petrov, А. Аlеksashyn, S. Poznar

“…A 3d-mesh was built on the models of the study objects using the finite element method. Initial data and boundary conditions were assigned. …”
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Toward a Sustainable Indoor Environment: Coupling Geothermal Cooling with Water Recovery Through EAHX Systems by Cristina Baglivo, Alessandro Buscemi, Michele Spagnolo, Marina Bonomolo, Valerio Lo Brano, Paolo Maria Congedo

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Numerical Investigation of Hydraulic Fracture Extension Based on the Meshless Method by Chaoneng Zhao, Yongquan Hu, Jinzhou Zhao, Qiang Wang, Pei He, Anbang Liu, Pengju Song

“…The fracture propagation in hydraulic fracturing is described as a nonlinear problem dynamic boundary. Due to the limitation of mesh refinement, it is difficult to obtain the real crack propagation path using conventional numerical methods. …”
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Non-Classical Modeling of Cosserat Fluid-Structure Interaction System for Analyzing Micro-Rotational Effects of Micro-Viscosities on Flow Velocity Fields by Nazim Hussain Hajano, Muhammad Sabeel Khan, Mumtaz Ali Kaloi, M. Asif Memon, Lisheng Liu

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Realización computacional en tres dimensiones del Método de los Elementos de Contorno en la teoría de la Elasticidad // Three dimension computational realization of the Method of t... by I. L. Alemán Romero

“…<br />The computational formulation of the method is based on the discretization of the boundary into elements over which<br />displacements and tractions are expressed in terms of interpolation functions. …”
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