Mehrdad Kimiaei

Dr, MSc Amir Kubar Inst.Tech, PhD Iran Univ.Sc.Tech.

  • The University of Western Australia (M053), 35 Stirling Highway,

    6009 Perth

    Australia

  • 219 Citations
  • 9 h-Index
20032021
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Personal profile

Keywords

  • Structural reliability and integrity of offshore platforms
  • Risers and mooring lines engineering
  • Extreme response and probabilistic analysis of offshore platforms
  • Seismic and cyclic soil–structure interaction
  • Engineering and installation of offshore facilities
  • Fatigue design of offshore structural components
  • Seismic response and earthquake design of structural systems

Fingerprint Fingerprint is based on mining the text of the person's scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.

  • 12 Similar Profiles
Fatigue of materials Engineering & Materials Science
Steel Engineering & Materials Science
Soils Engineering & Materials Science
Mooring Engineering & Materials Science
Jacks Engineering & Materials Science
Fatigue damage Engineering & Materials Science
Water waves Engineering & Materials Science
Piles Engineering & Materials Science

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Projects 2017 2021

Research Output 2003 2019

  • 219 Citations
  • 9 h-Index
  • 28 Conference paper
  • 15 Article
  • 1 Doctoral Thesis

Reliability of mooring lines and piles for a permanently manned vessel in a tropical cyclone environment

Stanisic, D., Efthymiou, M., White, D. J. & Kimiaei, M., 1 Jan 2019, In : Applied Ocean Research. 82, p. 430-446 17 p.

Research output: Contribution to journalArticle

Mooring
Piles
Reliability analysis
Application programming interfaces (API)
Shear strength

An EWA framework for the probabilistic-based structural integrity assessment of offshore platforms

Zeinoddini, M., Yaghubi Namin, Y., Matin Nikoo, H., Estekanchi, H. & Kimiaei, M., 1 May 2018, In : Marine Structures. 59, p. 60-79 20 p.

Research output: Contribution to journalArticle

Structural integrity
Durability
Water waves
Hazards
Sampling

Comparing results of time domain fatigue design of steel catenary risers using linear and nonlinear riser soil interaction models under random waves

Muraleedharan, A. & Kimiaei, M., 2018, Offshore Technology Conference Asia 2018. United States, Vol. 3. p. 1607-1619 OTC-28571-MS

Research output: Chapter in Book/Conference paperConference paper

Soil structure interactions
Fatigue of materials
Soils
Steel
Time domain analysis
1 Citations
Mooring
Offshore structures
Time series

Numerical modelling of seabed trench and its effect on the structural response of steel catenary risers

Liu, J., 2018, (Unpublished)

Research output: ThesisDoctoral Thesis

File
Steel
Fatigue of materials
Soils
Geometry
Computer simulation