Dynamic Response of Reticulated Domes under the Impact

As the study of the dynamic response of single-layer reticulated domes under impact, Numerical models for single-layer Kiewitt-6 reticulated domes with sub steel cube column were established by the ANSYS/ LS-DYNA program and a dynamic analysis were carried out. Four failure modes for the reticulated domes were put forward according as the dynamic response and plastic deformation. The parametric analyses on the dynamic response of single-layer reticulated domes with sub steel cube column under the impact loading are carried out, by changing the impact velocity, mass of impact object, size of impact object and impact location.The effects of these parameters on the response mode of the structures are investigated, and the distribution regularity of the response modes of the structures with different parameters is explained.

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Impact Response and Failure Mode for Single-Layer Geodesic Spherical Domes under Impact Load

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.351-352.80 ◽

2013 ◽

Vol 351-352 ◽

pp. 80-84

Author(s):

Duo Zhi Wang ◽

Feng Fan ◽

Xu Dong Zhi ◽

Jun Wu Dai

Keyword(s):

Dynamic Response ◽

Failure Mode ◽

Failure Modes ◽

Impact Load ◽

Single Layer ◽

Impact Response ◽

Impact Location ◽

Parametric Analyses ◽

The Impact ◽

Local Dent

Based on the ANSYS/LS-DYNA software, the analysis for the 40m span geodesic spherical domes under impact load is carried out. By changing the mass of impact object, impact velocity and impact location, the parametric analyses on the dynamic response of the structures under the impact loading are carried out. The three failure modes of the spherical domes are summed up: local dent of structure and global collapse of structure, Punch failure of structure. Then the characteristics of the dynamic response of the structure with different failure mode, such as the impact course, impact load, speed of nodes, displacement of nodes, and stress of bars, are investigated. It is further improvement of failure mode for single-layer reticulated dome under impact.

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Failure Modes for Single-Layer Reticulated Domes under Oblique Impact

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.166-169.1284 ◽

2012 ◽

Vol 166-169 ◽

pp. 1284-1289

Author(s):

Duo Zhi Wang ◽

Feng Fan ◽

Jun Wu Dai ◽

Xu Dong Zhi ◽

Zhenggang Cao ◽

...

Keyword(s):

Dynamic Response ◽

Numerical Simulations ◽

Failure Modes ◽

Single Layer ◽

Oblique Impact ◽

Large Numbers ◽

Impact Position ◽

Global Collapse ◽

Reticulated Domes ◽

The Impact

FE models of both the single-layer Kiewitt-8 reticulated domes with a span of 60m and the cylindrical impactor were developed incorporating ANSYS/LS-DYNA. Afterward, fourteen groups impact are simulated by changing the impact position or impacted angle on reticulated dome, and impact velocity and mass of impactor are changed for each group impact. On the basis of large numbers of numerical simulations, characteristics of dynamic response for reticulated dome under impact are shown. And four failure modes (Members slightly damaged, Local collapse of dome, Global collapse of dome, Members shear failed) are presented for single-layer Kiewitt-8 reticulated dome under diverse impact. The distributing of failure modes for the fourteen types impact are different from each other, and the adverse position and angle are summrized.

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Failure modes and failure mechanisms of single-layer reticulated domes subjected to interior blasts

Thin-Walled Structures ◽

10.1016/j.tws.2018.07.028 ◽

2018 ◽

Vol 132 ◽

pp. 208-216 ◽

Cited By ~ 2

Author(s):

Jialu Ma ◽

Feng Fan ◽

Lingxin Zhang ◽

Chengqing Wu ◽

Xudong Zhi

Keyword(s):

Failure Modes ◽

Failure Mechanisms ◽

Single Layer ◽

Reticulated Domes

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Failure Modes of a Reticulated Dome in a Small Airplane Crash

Advances in Civil Engineering ◽

10.1155/2019/5025637 ◽

2019 ◽

Vol 2019 ◽

pp. 1-10

Author(s):

L. Lin ◽

Y. X. Ren ◽

M. Y. Huang ◽

X. D. Zhi ◽

D. Z. Wang

Keyword(s):

Failure Modes ◽

Impact Resistance ◽

Test Subject ◽

Engineering Research ◽

Airplane Crash ◽

Reticulated Domes ◽

Small Airplanes ◽

Span 60 ◽

The Impact ◽

Roof Sheathing

Since the 9/11 incident, many engineering research works have been conducted on the impact resistance of large-span space structures. In the present study, a small airplane, Bombardier Challenger 850, was chosen as the test subject. An airplane crash on a single-layered Kiewitt-8 reticulated dome with span 60 m considering roof sheathing effect was simulated using ANSYS/LS-DYNA software. The principles of establishing the numerical model of small airplanes were determined. In addition, the impact styles of small airplane and impact positions on the dome were investigated. The failure modes of reticulated dome with roof sheathing due to small airplane crash were identified. Furthermore, the failure modes between reticulated domes with and without roof sheathing were compared and the effect of roof sheathing on the failure modes of reticulated dome under a small airplane crash was investigated.

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Finite Element Analysis of a Single-Layer Reticulated Dome under Impact Loading

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.163-167.327 ◽

2010 ◽

Vol 163-167 ◽

pp. 327-331 ◽

Cited By ~ 1

Author(s):

Liang Zheng ◽

Zhi Hua Chen

Keyword(s):

Finite Element ◽

Dynamic Response ◽

Impact Force ◽

Impact Load ◽

Residual Deformation ◽

Time History ◽

Single Layer ◽

Element Analysis ◽

Deformation Stage ◽

The Impact

Finite element model of both the single-layer Schwedler reticulated dome with the span of 50m and a Cuboid impactor were developed, incorporating ANSYS/LS-DYNA. PLASTIC_KINEMATIC (MAT_003) material model which takes stain rate into account was used to simulate steel under impact load. The automatic point to surface contact (NODES TO SURFACE) was applied between the dome and impact block. Three stages of time history curve of the impact force on the apex of the single-layer Scheduler reticulated dome including the impact stage, stable stalemate stage, the decaying stage were generalized according to its dynamic response. It must be pointed out that the peak of the impact force of the single-layer reticulated dome increase with the increase of the weight and the velocity of the impact block, but the change of the velocity of the impact block is more sensitive than the change of weight of the impact block for the effect of the peak of the impact force, and a platform value of the impact force of the single-layer reticulated dome change near a certain value, and the duration time of the impact gradually increase. Then four stages of time history curve of the impact displacement were proposed according to the dynamic response of impact on the apex of the single-layer reticulated dome based on numerical analysis. Four stages include in elastic deformation stage, plastic deformation stage, elastic rebound stage, free vibration stage in the position of the residual deformation.

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Hydrodynamic Load Modeling for Offshore Free-Floating Macroalgal Aquaculture Under Extreme Environmental Conditions

Volume 6: Ocean Space Utilization ◽

10.1115/omae2019-96803 ◽

2019 ◽

Author(s):

Ming Chen ◽

Solomon C. Yim ◽

Daniel Cox ◽

Taiping Wang ◽

Michael Huesemann ◽

...

Keyword(s):

Dynamic Response ◽

Environmental Conditions ◽

Failure Modes ◽

Numerical Models ◽

Farming System ◽

Saccharina Latissima ◽

Response Analysis ◽

Hydrodynamic Load ◽

Numerical Predictions ◽

Long Line

Abstract This article describes a preliminary study of an on-going ARPA-E (Advanced Research Projects Agency-Energy) MARINER Phase I project. The hydrodynamic load and dynamic response of an innovative offshore macroalgae cultivation system, Nautical Offshore Macroalgal Autonomous Device (NOMAD), under extreme environmental conditions is examined. The high strength, extremely durable, recyclable carbon fiber (rCF) free-floating long-line is applied with polyculture (Nereocystis luetkeana (bull kelp) and Saccharina latissima (sugar kelp)) in the NOMAD system. This novel macroalgal farming system is designed to free float from Washington State to California along the west coast of the US to avoid anchoring costs and the failure of earlier offshore growth trials. In this study, we expect to identify possible failure modes for the preliminarily design of NOMAD free-floating long-line macroalgal farming system based on the preliminary numerical predictions. We developed a 1km system-scale NOMAD free-floating long-line numerical model and performed a dynamic response analysis on the long-line to determine the behaviors of the long-line under extreme environmental conditions. The 1km free-floating rCF long-line responses very flexible due to wave and current activities even for large bending stiffness. Therefore, the potential entanglement of free-floating long-line on a global scale may cause the system failure even when the tensions and bending moments are in the safe range. Three cases include 10m NOMAD free-floating long-line with sugar kelp, bull kelp, and polyculture numerical models are developed, and the simulation results are analyzed. The tensions at the holdfast of the kelps in these cases are found to be below the breakage limit approximately. However, the severe clumping of the kelps and potential entanglement of adjacent lines may result in damage to the farming system.

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Dynamic Response of a Single-Layer Reticulated Dome during Aircraft Impact Based on S-J Modeling Method

Shock and Vibration ◽

10.1155/2019/9056810 ◽

2019 ◽

Vol 2019 ◽

pp. 1-12

Author(s):

Li Lin ◽

Bo Huang ◽

Yunhui Sun ◽

Yu Zhu ◽

Duozhi Wang

Keyword(s):

Numerical Model ◽

Temperature Effect ◽

Failure Modes ◽

Numerical Models ◽

Material Model ◽

Modeling Method ◽

Dynamic Responses ◽

Shell Structures ◽

Large Strains ◽

The Impact

In previous numerical models developed for the impact dynamic responses of reticulated domes, mostly BEAM 161 elements and piecewise linear plastic material model have been employed and spherical joints have been simplified as intersection points of beams, which is called the B-P method. The B-P method can be employed in studying the dynamic responses of reticulated shells under low- to moderate-speed impacts with no obvious temperature effect. However, the analysis of the dynamic responses of reticulated shells under moderate- and high-speed impacts of missiles and other aircraft using this method had errors because it could not take into account the temperature effect. To accurately describe the mechanical responses of reticulated shells under aircraft impacts, the Johnson–Cook material model considering temperature effect with corresponding SHELL 163 element was selected for determining the members of the numerical model and the shell element was used to establish the spherical joints of reticulated shells; the whole process was called the S-J modeling method. This modeling method was capable of considering the effects of high strain rates, high temperatures, large strains, stress state change, and loading history. S-J and B-P methods were used to model the reticulated shell structures. Comparing the numerical analysis results of the drop hammer impact of the two developed methods with experimental results verified the accuracy of the S-J modeling method. In addition, based on the results obtained from the S-J modeling method and LS-DYNA finite element analysis software, a numerical model was established for small aircraft impact reticulated shells and the failure modes and dynamic responses of reticulated shell structures under aircraft impacts were studied. In terms of energy analysis, it was found that the effects of roof plates, spherical joints, and temperature softening could not be ignored in such studies.

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Failure modes for single-layer reticulated domes under impact loads

Transactions of Tianjin University ◽

10.1007/s12209-008-0094-7 ◽

2008 ◽

Vol 14 (S1) ◽

pp. 545-550 ◽

Cited By ~ 14

Author(s):

Feng Fan ◽

Duozhi Wang ◽

Xudong Zhi ◽

Shizhao Shen

Keyword(s):

Failure Modes ◽

Single Layer ◽

Impact Loads ◽

Reticulated Domes

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Progressive Collapse Mechanics of Reticulated Dome under Impact

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.255-260.1760 ◽

2011 ◽

Vol 255-260 ◽

pp. 1760-1764

Author(s):

Duo Zhi Wang ◽

Jun Wu Dai ◽

Feng Fan ◽

Xu Dong Zhi

Keyword(s):

Kinetic Energy ◽

Potential Energy ◽

Strain Energy ◽

Failure Modes ◽

Impact Load ◽

Progressive Collapse ◽

Single Layer ◽

Initial Kinetic Energy ◽

Impact Zone ◽

Reticulated Domes

FE models of both the single-layer Kiewitt reticulated domes and the impactor were developed incorporating ANSYS/LS-DYNA. Three failure modes for Kiewitt reticulated dome under impact load are discerned. Moreover, Global collapse of structure belongs to the progressive collapse, and is the most serious failure. After this, stress of members, velocity and strain energy of each component are introduced to display the progressive process of collapse. It shows that the dome does not defend impact load as a whole. Each component of structure is impacted and dented in turn. And the collapse enlarges from impact zone to the supports of dome. Furthermore, collapse relates to energy transform among kinetic energy, stain energy and potential energy of structure. Moreover, collapse will continue, if initial kinetic energy and release of potential energy of structure exceed the strain needed.

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