Shock and Vibration

Risk, Reliability, and Uncertainty Quantification of Structural Systems Subjected to Shock and Vibration


Publishing date
01 Sep 2018
Status
Published
Submission deadline
27 Apr 2018

Lead Editor

1Louisiana State University, Baton Rouge, USA

2University of Colorado, Boulder, USA

3University of Ottawa, Ottawa, Canada

4Zhejiang University, Hangzhou, China


Risk, Reliability, and Uncertainty Quantification of Structural Systems Subjected to Shock and Vibration

Description

Deterministic analysis methods, even when they are based on detailed modeling, may not precisely reflect the reliability of engineering structures. The alternative is to perform risk analysis under the probabilistic assumption and propagate the uncertainty in different design variables. This is an important and crucial task, especially for structures subjected to shock and vibration. The design and analysis of ordinary structures subjected to single and multiple hazard dynamic loads are real-world related engineering applications: critical dams and nuclear power plants under hydrodynamic shock and earthquake impact; synoptic and nonsynoptic wind induced structural vibrations; vehicle-induced vibrations in bridges; wind, wave, and seismic impact on offshore structures and wind turbines; earthquake induced vibrations in structures; and so on.

In this special issue, we solicit high quality articles of original research focused on the state-of-the-art techniques and methods employed in risk, reliability, and uncertainty quantification in infrastructure systems, with or without control/mitigation devices, subjected to shock and vibration. We welcome both theoretical and application papers of high technical standard across various disciplines, thus facilitating awareness of techniques and methods in one area that may be applicable to other areas. We seek high-quality submissions of original research articles as well as review articles on all aspects related to risk, reliability, and uncertainty in shock and vibration applications, especially in relation to civil, mechanical, and aerospace engineering, with emphasis on fundamental research that has a potential for practical application.

Potential topics include but are not limited to the following:

  • Safety, reliability, risk, and life-cycle performance of structures and infrastructures subjected to shock and vibration
  • Uncertainties associated with extreme return periods of wind and earthquake loadings acting on structures
  • Reliability considerations for wind turbines under multiple hazard dynamic loads
  • Risk, reliability, and uncertainty quantification in the evaluation of the response of structures to windstorms and earthquakes
  • Risk, reliability, and uncertainty quantification in passive, active, and semiactive structural control
  • Uncertainties in complex dynamic modeling and control of structures under multihazards
  • Reliability in structural monitoring under shock and vibrations
  • Modelling and analysis of metamaterials for vibration mitigation
  • Effects of passive, active, and semiactive structural control on reliability and sustainability of aging structures
  • Risk, reliability, and uncertainty in real-time hybrid simulation

Articles

  • Special Issue
  • - Volume 2018
  • - Article ID 3269734
  • - Editorial

Risk, Reliability, and Uncertainty Quantification of Structural Systems Subjected to Shock and Vibration

Aly Mousaad Aly | M. Amin Hariri-Ardebili | ... | Jiming Xie
  • Special Issue
  • - Volume 2018
  • - Article ID 5817940
  • - Research Article

Cylindrical Shell with Junctions: Uncertainty Quantification of Free Vibration and Frequency Response Analysis

Harri Hakula | Vesa Kaarnioja | Mikael Laaksonen
  • Special Issue
  • - Volume 2018
  • - Article ID 2506909
  • - Research Article

The Influence of the Track Parameters on Vibration Characteristics of Subway Tunnel

Wenbo Shi | Linchang Miao | ... | Honglei Zhang
  • Special Issue
  • - Volume 2018
  • - Article ID 6853047
  • - Research Article

Wind-Induced Response of Inclined and Yawed Ice-Accreted Stay Cable Models

Songyu Cao | Himan Hojat Jalali | Elena Dragomirescu
  • Special Issue
  • - Volume 2018
  • - Article ID 9106404
  • - Research Article

Reliability and Random Lifetime Models of Planetary Gear Systems

Peng Gao | Liyang Xie | Wei Hu
  • Special Issue
  • - Volume 2018
  • - Article ID 6839062
  • - Research Article

A New Erosion Model for Wind-Induced Structural Vibrations

Keqin Yan | Yi Zhang | Tao Cheng
  • Special Issue
  • - Volume 2018
  • - Article ID 5460362
  • - Research Article

Experimental Study of the Debris Flow Slurry Impact and Distribution

Haixin Zhao | Lingkan Yao | ... | Cong Zhang
  • Special Issue
  • - Volume 2018
  • - Article ID 3958016
  • - Research Article

A Copula-Based and Monte Carlo Sampling Approach for Structural Dynamics Model Updating with Interval Uncertainty

Xueqian Chen | Zhanpeng Shen | Xin’en Liu
  • Special Issue
  • - Volume 2018
  • - Article ID 9824631
  • - Research Article

Theoretical Study of Synchronous Behavior in a Dual-Pendulum-Rotor System

Fang Pan | Hou Yongjun | ... | Du Mingjun
  • Special Issue
  • - Volume 2018
  • - Article ID 3013684
  • - Research Article

Remaining Useful Life Prediction Method of Rolling Bearings Based on Pchip-EEMD-GM(1, 1) Model

Fengtao Wang | Xiaofei Liu | ... | Qingkai Han
Shock and Vibration
 Journal metrics
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Acceptance rate52%
Submission to final decision78 days
Acceptance to publication22 days
CiteScore2.300
Journal Citation Indicator0.380
Impact Factor1.616
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