G. Karami

3.3k total citations
125 papers, 2.8k citations indexed

About

G. Karami is a scholar working on Mechanics of Materials, Pulmonary and Respiratory Medicine and Civil and Structural Engineering. According to data from OpenAlex, G. Karami has authored 125 papers receiving a total of 2.8k indexed citations (citations by other indexed papers that have themselves been cited), including 53 papers in Mechanics of Materials, 50 papers in Pulmonary and Respiratory Medicine and 36 papers in Civil and Structural Engineering. Recurrent topics in G. Karami's work include Automotive and Human Injury Biomechanics (50 papers), Composite Structure Analysis and Optimization (31 papers) and Traumatic Brain Injury Research (24 papers). G. Karami is often cited by papers focused on Automotive and Human Injury Biomechanics (50 papers), Composite Structure Analysis and Optimization (31 papers) and Traumatic Brain Injury Research (24 papers). G. Karami collaborates with scholars based in United States, Iran and United Kingdom. G. Karami's co-authors include P. Malekzadeh, Mariusz Ziejewski, Mark Garnich, Mehdi Sotudeh Chafi, Mehrdad Farid, A.R. Setoodeh, P. Zahedinejad, Fardad Azarmi, M. Farshad and M. R. Banan and has published in prestigious journals such as Energy Conversion and Management, Computer Methods in Applied Mechanics and Engineering and Applied Surface Science.

In The Last Decade

G. Karami

120 papers receiving 2.6k citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
G. Karami United States 34 1.6k 952 627 603 485 125 2.8k
Ludovic Noels Belgium 32 1.7k 1.1× 587 0.6× 148 0.2× 723 1.2× 344 0.7× 127 3.0k
Fangsen Cui Singapore 26 471 0.3× 738 0.8× 151 0.2× 659 1.1× 807 1.7× 112 2.3k
Anna Pandolfi Italy 35 2.4k 1.5× 1.0k 1.1× 175 0.3× 557 0.9× 1.2k 2.6× 115 4.8k
Jun-Sik Kim South Korea 28 808 0.5× 675 0.7× 44 0.1× 311 0.5× 384 0.8× 234 2.6k
J.A.W. van Dommelen Netherlands 31 790 0.5× 143 0.2× 765 1.2× 868 1.4× 1.1k 2.4× 118 3.5k
Alan Wineman United States 32 1.4k 0.8× 557 0.6× 141 0.2× 740 1.2× 2.1k 4.3× 188 3.8k
H.P. Lee Singapore 25 974 0.6× 263 0.3× 110 0.2× 347 0.6× 454 0.9× 39 2.0k
Mazdak Ghajari United Kingdom 20 466 0.3× 492 0.5× 668 1.1× 246 0.4× 185 0.4× 64 1.6k
Jeremiah G. Murphy Ireland 22 603 0.4× 149 0.2× 311 0.5× 357 0.6× 1.1k 2.3× 86 1.5k
Jaime Domínguez Spain 31 1.6k 1.0× 411 0.4× 31 0.0× 1.2k 2.0× 350 0.7× 165 3.1k

Countries citing papers authored by G. Karami

Since Specialization
Citations

This map shows the geographic impact of G. Karami's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by G. Karami with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites G. Karami more than expected).

Fields of papers citing papers by G. Karami

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by G. Karami. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by G. Karami. The network helps show where G. Karami may publish in the future.

Co-authorship network of co-authors of G. Karami

This figure shows the co-authorship network connecting the top 25 collaborators of G. Karami. A scholar is included among the top collaborators of G. Karami based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with G. Karami. G. Karami is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Lu, Lichun, et al.. (2025). Computational Assessment of Fracture Risk in Vertebral Bodies With Simulated Defects: The Role of Baseline Strength and Tumor Size. International Journal for Numerical Methods in Biomedical Engineering. 41(8). e70081–e70081. 1 indexed citations
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Lu, Lichun, et al.. (2024). Prediction of vertebral failure under general loadings of compression, flexion, extension, and side-bending. Journal of the mechanical behavior of biomedical materials. 162. 106827–106827. 3 indexed citations
4.
Ziejewski, Mariusz, et al.. (2020). A constrained particle swarm optimization algorithm for hyperelastic and visco-hyperelastic characterization of soft biological tissues. International Journal for Computational Methods in Engineering Science and Mechanics. 21(4). 169–184. 10 indexed citations
5.
Ziejewski, Mariusz, et al.. (2020). Visco-hyperelastic characterization of human brain white matter micro-level constituents in different strain rates. Medical & Biological Engineering & Computing. 58(9). 2107–2118. 21 indexed citations
6.
Ziejewski, Mariusz, et al.. (2019). Computational Mechanics of Traumatic Brain Injury under Impact Loads. International Journal of Mechanical Engineering and Robotics Research. 921–928.
7.
Ziejewski, Mariusz, et al.. (2019). A Biphasic Viscoelastic Constitutive Model for Brain Tissue. 3 indexed citations
8.
Ziejewski, Mariusz, et al.. (2019). Rate-dependent constitutive modeling of brain tissue. Biomechanics and Modeling in Mechanobiology. 19(2). 621–632. 11 indexed citations
9.
Azarmi, Fardad, et al.. (2015). Computational biomechanics of human brain with and without the inclusion of the body under different blast orientation. Computer Methods in Biomechanics & Biomedical Engineering. 19(9). 1019–1031. 8 indexed citations
10.
Karami, G., et al.. (2014). Examination of the protective roles of helmet/faceshield and directionality for human head under blast waves. Computer Methods in Biomechanics & Biomedical Engineering. 18(16). 1846–1855. 30 indexed citations
11.
Karami, G., et al.. (2013). A computational study of influence of helmet padding materials on the human brain under ballistic impacts. Computer Methods in Biomechanics & Biomedical Engineering. 17(12). 1368–1382. 36 indexed citations
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Karami, G., et al.. (2008). A MESHLESS BOUNDARY ELEMENT METHOD FORMULATION FOR TRANSIENT HEAT CONDUCTION PROBLEMS WITH HEAT SOURCES. Scientia Iranica. 15(3). 348–359. 5 indexed citations
15.
Malekzadeh, P., Mehrdad Farid, P. Zahedinejad, & G. Karami. (2008). Three-dimensional free vibration analysis of thick cylindrical shells resting on two-parameter elastic supports. Journal of Sound and Vibration. 313(3-5). 655–675. 46 indexed citations
16.
Karami, G. & Mark Garnich. (2004). Micromechanical study of thermoelastic behavior of composites with periodic fiber waviness. Composites Part B Engineering. 36(3). 241–248. 67 indexed citations
17.
Malekzadeh, P. & G. Karami. (2003). Out-of-plane static analysis of circular arches by DQM. International Journal of Solids and Structures. 40(23). 6527–6545. 32 indexed citations
18.
Karami, G. & G. Kühn. (1994). A finite element-boundary element treatment for the analysis of elastohydrodynamic lubrication problems. Computational Mechanics. 14(4). 289–297.
19.
Karami, G. & G. Kühn. (1992). Implementation of thermoelastic forces in boundary element analysis of elastic contact and fracture mechanics problems. Engineering Analysis with Boundary Elements. 10(4). 313–322. 10 indexed citations
20.
Banan, M. R., G. Karami, & M. Farshad. (1990). Finite element stability analysis of curved beams on elastic foundation. Mathematical and Computer Modelling. 14. 863–867. 3 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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