Optimization of Finite-Element Software Using Data-Compression Techniques

From the perspective of damage mechanics, the damage parameters were introduced as the characterizing quantity of the decrease in the mechanical properties of powder superalloy material FGH96 under fatigue loading. By deriving a damage evolution equation, a fatigue life prediction model of powder superalloy containing inclusions was constructed based on damage mechanics. The specimens containing elliptical subsurface inclusions and semielliptical surface inclusions were considered. The CONTA172 and TARGE169 elements of finite element software (ANSYS) were used to simulate the interfacial debonding between the inclusions and matrix, and the interface crack initiation life was calculated. Through finite element modeling, the stress field evolution during the interface debonding was traced by simulation. Finally, the effect of the position and shape size of inclusions on interface debonding was explored.

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Effect of crack on free vibration of a pre-stressed curved plate

Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science ◽

10.1177/0954406221994869 ◽

2021 ◽

pp. 095440622199486

Author(s):

Can Gonenli ◽

Hasan Ozturk ◽

Oguzhan Das

Keyword(s):

Finite Element ◽

Free Vibration ◽

Natural Frequency ◽

Present Model ◽

Mode Shapes ◽

Load Parameter ◽

Flexible Plate ◽

Cantilever Plate ◽

Finite Element Software ◽

Aspect Ratios

In this study, the effect of crack on free vibration of a large deflected cantilever plate, which forms the case of a pre-stressed curved plate, is investigated. A distributed load is applied at the free edge of a thin cantilever plate. Then, the loading edge of the deflected plate is fixed to obtain a pre-stressed curved plate. The large deflection equation provides the non - linear deflection curve of the large deflected flexible plate. The thin curved plate is modeled by using the finite element method with a four-node quadrilateral element. Three different aspect ratios are used to examine the effect of crack. The effect of crack and its location on the natural frequency parameter is given in tables and graphs. Also, the natural frequency parameters of the present model are compared with the finite element software results to verify the reliability and validity of the present model. This study shows that the different mode shapes are occurred due to the change of load parameter, and these different mode shapes cause a change in the effect of crack.

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Full-state quantum circuit simulation by using data compression

Proceedings of the International Conference for High Performance Computing, Networking, Storage and Analysis ◽

10.1145/3295500.3356155 ◽

2019 ◽

Cited By ~ 7

Author(s):

Xin-Chuan Wu ◽

Sheng Di ◽

Emma Maitreyee Dasgupta ◽

Franck Cappello ◽

Hal Finkel ◽

...

Keyword(s):

Data Compression ◽

Circuit Simulation ◽

Quantum Circuit ◽

Full State ◽

Using Data

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Numerical solutions for strain-softening surrounding rock under three-dimensional principal stress condition

International Journal of Nonlinear Sciences and Numerical Simulation ◽

10.1515/ijnsns-2019-0253 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Sheng Yu-ming ◽

Li Chao ◽

Xia Ming-yao ◽

Zou Jin-feng

Keyword(s):

Finite Element ◽

Principal Stress ◽

Stress Condition ◽

Strain Softening ◽

Numerical Solutions ◽

Three Dimensional ◽

Strength Criterion ◽

Surrounding Rock ◽

Flow Rule ◽

Finite Element Software

Abstract In this study, elastoplastic model for the surrounding rock of axisymmetric circular tunnel is investigated under three-dimensional (3D) principal stress states. Novel numerical solutions for strain-softening surrounding rock were first proposed based on the modified 3D Hoek–Brown criterion and the associated flow rule. Under a 3D axisymmetric coordinate system, the distributions for stresses and displacement can be effectively determined on the basis of the redeveloped stress increment approach. The modified 3D Hoek–Brown strength criterion is also embedded into finite element software to characterize the yielding state of surrounding rock based on the modified yield surface and stress renewal algorithm. The Euler implicit constitutive integral algorithm and the consistent tangent stiffness matrix are reconstructed in terms of the 3D Hoek–Brown strength criterion. Therefore, the numerical solutions and finite element method (FEM) models for the deep buried tunnel under 3D principal stress condition are presented, so that the stability analysis of surrounding rock can be conducted in a direct and convenient way. The reliability of the proposed solutions was verified by comparison of the principal stresses obtained by the developed numerical approach and FEM model. From a practical point of view, the proposed approach can also be applied for the determination of ground response curve of the tunnel, which shows a satisfying accuracy compared with the measuring data.

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Research on Mesh Optimization of the Finite Element Calculation about Three-Dimensional Foundation Pit

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.487.855 ◽

2012 ◽

Vol 487 ◽

pp. 855-859

Author(s):

Shi Lun Feng ◽

Yu Ming Zhou ◽

Pu Lin Li ◽

Jun Li ◽

Zhi Yong Li ◽

...

Keyword(s):

Finite Element ◽

Complex Geometry ◽

Three Dimensional ◽

Mesh Optimization ◽

Design Calculation ◽

Foundation Pit ◽

3D Design ◽

Finite Element Software ◽

Core Language ◽

Grid Division

Abaqus finite element software can implement three-dimensional excavation design calculation, so authors used Python of Abaqus core language made the 3D design of foundation pit supporting program come ture and also did intensive study of mesh optimization during the process. Authors also did intensive comparison and analysis about grid division of the complex geometry foundation pit, through a regularization partion about a variety of special-shaped pit, we made the automatic division about the structural grid of all kinds of shapes foundation pit successful. On this basis, we achieved better calculation effects of the model. The article will introduce problems about optimization of grid in procedure.

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Characterization of Mechanical Heterogeneity in Dissimilar Metal Welded Joints

Materials ◽

10.3390/ma14154145 ◽

2021 ◽

Vol 14 (15) ◽

pp. 4145

Author(s):

He Xue ◽

Zheng Wang ◽

Shuai Wang ◽

Jinxuan He ◽

Hongliang Yang

Keyword(s):

Mechanical Properties ◽

Finite Element ◽

Welded Joints ◽

Structural Integrity ◽

Material Interfaces ◽

Mechanical Heterogeneity ◽

Finite Element Software ◽

Dissimilar Metal ◽

Stress Changes

Dissimilar metal welded joints (DMWJs) possess significant localized mechanical heterogeneity. Using finite element software ABAQUS with the User-defined Material (UMAT) subroutine, this study proposed a constitutive equation that may be used to express the heterogeneous mechanical properties of the heat-affected and fusion zones at the interfaces in DMWJs. By eliminating sudden stress changes at the material interfaces, the proposed approach provides a more realistic and accurate characterization of the mechanical heterogeneity in the local regions of DMWJs than existing methods. As such, the proposed approach enables the structural integrity of DMWJs to be analyzed in greater detail.

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A Resource-Efficient, Robust QRS Detector Using Data Compression and Time-sharing Architecture

2021 IEEE International Symposium on Circuits and Systems (ISCAS) ◽

10.1109/iscas51556.2021.9401523 ◽

2021 ◽

Author(s):

Weihong Yan ◽

Yuxin Ji ◽

Lining Hu ◽

Ting Zhou ◽

Yang Zhao ◽

...

Keyword(s):

Data Compression ◽

Time Sharing ◽

Using Data

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Analysis of Pipe-Soil Interaction for a Miniature Pipejacking

Journal of Mechanics ◽

10.1017/s172771910000085x ◽

2006 ◽

Vol 22 (3) ◽

pp. 213-220 ◽

Cited By ~ 7

Author(s):

K. J. Shou ◽

F. W. Chang

Keyword(s):

Finite Element ◽

Failure Mechanism ◽

Physical Modeling ◽

Driving Force ◽

Numerical Models ◽

Surface Subsidence ◽

Finite Element Software

AbstractIn this study, physical and numerical models were used to analyze pipe-soil interaction during pipejacking work. After calibrating with the physical modeling results, the finite element software ABAQUS [1] was used to study the pipejacking related behavior, such as surface subsidence, failure mechanism, pipe-soil interaction, etc. The results show that the driving force in the tunnelling face is very important and critical for pipejacking. Surface subsidence is mainly due to the lack of driving force, however, excessive driving force could cause the unfavorable surface heaving problem. It also suggests that the depth of the pipe is critical to determine a proper driving force to stabilize the tunnelling face.

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Analysis on Temperature Field of Work-Piece during Cross Wedge Rolling

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.230-232.352 ◽

2011 ◽

Vol 230-232 ◽

pp. 352-356

Author(s):

Wen Ke Liu ◽

Kang Sheng Zhang ◽

Zheng Huan Hu

Keyword(s):

Finite Element ◽

Temperature Field ◽

Metal Flow ◽

Work Piece ◽

Contact Deformation ◽

Cross Wedge Rolling ◽

Forming Process ◽

Rigid Plastic ◽

Finite Element Software ◽

Deform 3D

Based on the rigid-plastic deformation finite element method and the heat transfer theories, the forming process of cross wedge rolling was simulated with the finite element software DEFORM-3D. The temperature field of the rolled piece during the forming process was analyzed. The results show that the temperature gradient in the outer of the work-piece is sometimes very large and temperature near the contact deformation zone is the lowest while temperature near the center of the rolled-piece keeps relatively stable and even rises slightly. Research results provide a basis for further study on metal flow and accurate shaping of work-piece during cross wedge rolling.

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Modeling of Thermoplastic Materials for the Process-Simulation of Press-Fit Interconnections on Moulded Interconnected Devices

Journal of Electronic Packaging ◽

10.1115/1.4006927 ◽

2012 ◽

Vol 134 (3) ◽

Cited By ~ 1

Author(s):

Thomas Fellner ◽

Elena Zukowski ◽

Jürgen Wilde ◽

H. Kück ◽

H. Richter ◽

...

Keyword(s):

Finite Element ◽

Three Dimensional ◽

Base Material ◽

Creep Model ◽

Assembly Process ◽

Temperature Dependent ◽

Reliability Modeling ◽

Finite Element Software ◽

Press Fit ◽

Temperature Loads

This investigation is aimed at the modeling of both the fabrication process and the reliability of press-fit interconnections on moulded interconnect devices (MID). These are multifunctional three-dimensional substrates, produced by thermoplastic injection moulding for large-series applications. The assembly process and subsequently the durability of press-fit interconnections has been modeled and proved with a finite element software. Especially, a simulation tool for process optimizations was created and applied. In order to obtain realistic results, a creep model for the investigated base material, a liquid-crystal polymer (LCP), was generated and verified by experiments. Required friction coefficients between metal pin and base material were determined by adapting simulations and experiments. Retention forces of pins pressed into substrate holes during as well after the assembly process, and after temperature loads were predicted by simulations. Additionally, the decreasing extraction forces over time due to creep in the thermoplastic base material have been predicted for different storage temperatures as well with finite element analyses. Following, the numerical results of the process and reliability modeling were verified by experiments. It is concluded that the behavior of the mechanical contact of the pin-substrate system, can be suitably described time- and temperature-dependent.

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