Ramin Rahmani
About
Ramin Rahmani is a scholar working on Mechanical Engineering, Automotive Engineering and Biomedical Engineering.
According to data from OpenAlex, Ramin Rahmani has authored 35 papers receiving a total of 819 indexed citations (citations by other indexed papers that have themselves been cited), including 23 papers in Mechanical Engineering, 21 papers in Automotive Engineering and 9 papers in Biomedical Engineering. Recurrent topics in Ramin Rahmani's work include Additive Manufacturing and 3D Printing Technologies (18 papers), Additive Manufacturing Materials and Processes (14 papers) and Bone Tissue Engineering Materials (7 papers). Ramin Rahmani is often cited by papers focused on Additive Manufacturing and 3D Printing Technologies (18 papers), Additive Manufacturing Materials and Processes (14 papers) and Bone Tissue Engineering Materials (7 papers). Ramin Rahmani collaborates with scholars based in Estonia, Portugal and Slovenia. Ramin Rahmani's co-authors include Maksim Antonov, Konda Gokuldoss Prashanth, Irina Hussainova, Lauri Kollo, Rahul Kumar, Miha Brojan, Nikhil Kamboj, Sérgio Ivan Lopes, Ali Arefmanesh and A. Ghorbanpour Arani and has published in prestigious journals such as SHILAP Revista de lepidopterología, Materials Science and Engineering C and Materials.
In The Last Decade
Ramin Rahmani
33 papers receiving 803 citations
Hit Papers
Peers — A (Enhanced Table)
Peers by citation overlap · career bar shows stage (early→late) cites · hero ref
| Name | h | Career | Trend | Papers | Cites | |||||
|---|---|---|---|---|---|---|---|---|---|---|
| Ramin Rahmani Estonia | 17 | 520 | 325 | 219 | 209 | 160 | 35 | 819 | ||
| A Pertuz Colombia | 15 | 283 0.5× | 251 0.8× | 214 1.0× | 114 0.5× | 227 1.4× | 59 | 666 | ||
| Jun Xiao China | 17 | 471 0.9× | 115 0.4× | 233 1.1× | 171 0.8× | 374 2.3× | 78 | 923 | ||
| Augusto Moita de Deus Portugal | 16 | 484 0.9× | 276 0.8× | 121 0.6× | 115 0.6× | 67 0.4× | 45 | 668 | ||
| Jiankai Yang China | 20 | 1.0k 1.9× | 518 1.6× | 379 1.7× | 131 0.6× | 91 0.6× | 38 | 1.2k | ||
| Kay‐Peter Hoyer Germany | 15 | 908 1.7× | 434 1.3× | 195 0.9× | 63 0.3× | 119 0.7× | 47 | 1.0k | ||
| Volker Wesling Germany | 19 | 1.2k 2.2× | 315 1.0× | 307 1.4× | 91 0.4× | 172 1.1× | 116 | 1.4k | ||
| Charles Brugger France | 14 | 592 1.1× | 330 1.0× | 153 0.7× | 105 0.5× | 167 1.0× | 29 | 715 | ||
| Victoria A. Yardley United Kingdom | 16 | 828 1.6× | 245 0.8× | 463 2.1× | 141 0.7× | 256 1.6× | 40 | 1.1k | ||
| Giovanna Rotella Italy | 18 | 1.0k 2.0× | 98 0.3× | 411 1.9× | 376 1.8× | 297 1.9× | 69 | 1.2k | ||
| Jitendra Kumar Katiyar India | 19 | 877 1.7× | 141 0.4× | 228 1.0× | 157 0.8× | 507 3.2× | 120 | 1.2k |
Countries citing papers authored by Ramin Rahmani
Since
Specialization
Citations
This map shows the geographic impact of Ramin Rahmani'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 Ramin Rahmani with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Ramin Rahmani more than expected).
Fields of papers citing papers by Ramin Rahmani
Since
Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences
This network shows the impact of papers produced by Ramin Rahmani. 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 Ramin Rahmani. The network helps show where Ramin Rahmani may publish in the future.
Co-authorship network of co-authors of Ramin Rahmani
This figure shows the co-authorship network connecting the top 25 collaborators of Ramin Rahmani. A scholar is included among the top collaborators of Ramin Rahmani 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 Ramin Rahmani. Ramin Rahmani is excluded from the visualization to improve readability, since they are connected to all nodes in the network.
All Works
1.
Maurya, H.S., Rahul Kumar, Sudheer Kumar, et al.. (2025). Sliding wear and debris evolution in LPBFed ceramic-reinforced steel composites under variable loads and temperatures. Materials Chemistry and Physics. 345. 131195–131195.
2.
Rahmani, Ramin, et al.. (2025). Sustainable Additive Manufacturing: An Overview on Life Cycle Impacts and Cost Efficiency of Laser Powder Bed Fusion. Journal of Manufacturing and Materials Processing. 9(1). 18–18.
3.
Kumar, Rahul, et al.. (2024). Bioinspired and Multifunctional Tribological Materials for Sliding, Erosive, Machining, and Energy-Absorbing Conditions: A Review. Biomimetics. 9(4). 209–209.
4.
Hussain, Abrar, Jakob Kübarsepp, Fjodor Sergejev, et al.. (2024). Advanced machine learning and experimental studies of polypropylene based polyesters tribological composite systems for sustainable recycling automation and digitalization. International Journal of Lightweight Materials and Manufacture. 8(2). 252–263.
5.
Rahmani, Ramin, et al.. (2024). Implementations of Digital Transformation and Digital Twins: Exploring the Factory of the Future. Processes. 12(4). 787–787.
6.
Maurya, H.S., R.J. Vikram, Ramin Rahmani, et al.. (2024). EBSD investigation of microstructure and microtexture evolution on additively manufactured TiC-Fe based cermets—Influence of multiple laser scanning. Micron. 180. 103613–103613.
7.
Hussain, Abrar, Dmitri Goljandin, Vitali Podgursky, et al.. (2024). Industrial sustainable Fabrication, SEM Characterization, mechanical Testing, ANOVA analysis of PP-PETF recycled Composites: Artificial intelligence and deep learning studies for nuclear shielding applications. European Polymer Journal. 213. 113082–113082.
8.
Rahmani, Ramin, J. Karimi, Pedro R. Resende, J.C.C. Abrantes, & Sérgio Ivan Lopes. (2023). Overview of Selective Laser Melting for Industry 5.0: Toward Customizable, Sustainable, and Human-Centric Technologies. Machines. 11(5). 522–522.
9.
Rahmani, Ramin, Sérgio Ivan Lopes, & Konda Gokuldoss Prashanth. (2023). Selective Laser Melting and Spark Plasma Sintering: A Perspective on Functional Biomaterials. Journal of Functional Biomaterials. 14(10). 521–521.
10.
Rahmani, Ramin, et al.. (2022). High virucidal potential of novel ceramic–metal composites fabricated via hybrid selective laser melting and spark plasma sintering routes. The International Journal of Advanced Manufacturing Technology. 120(1-2). 975–988.
11.
Rahmani, Ramin, Nikhil Kamboj, Miha Brojan, Maksim Antonov, & Konda Gokuldoss Prashanth. (2022). Hybrid metal-ceramic biomaterials fabricated through powder bed fusion and powder metallurgy for improved impact resistance of craniofacial implants. Materialia. 24. 101465–101465.
12.
Rahmani, Ramin, Maksim Antonov, & Miha Brojan. (2020). Lightweight 3D printed Ti6Al4V-AlSi10Mg hybrid composite for impact resistance and armor piercing shielding. Journal of Materials Research and Technology. 9(6). 13842–13854.
13.
Kamboj, Nikhil, Jekaterina Kazantseva, Ramin Rahmani, Miguel Á. Rodríguez, & Irina Hussainova. (2020). Selective laser sintered bio-inspired silicon-wollastonite scaffolds for bone tissue engineering. Materials Science and Engineering C. 116. 111223–111223.
14.
Rahmani, Ramin, et al.. (2019). Mechanical Behavior of Ti6Al4V Scaffolds Filled with CaSiO3 for Implant Applications. Applied Sciences. 9(18). 3844–3844.
15.
Kamboj, Nikhil, Miguel Á. Rodríguez, Ramin Rahmani, Konda Gokuldoss Prashanth, & Irina Hussainova. (2019). Bioceramic scaffolds by additive manufacturing for controlled delivery of the antibiotic vancomycin; pp. 185–190. Proceedings of the Estonian Academy of Sciences. 68(2). 185–190.
16.
Rahmani, Ramin, Merilin Rosenberg, Angela Ivask, & Lauri Kollo. (2019). Comparison of Mechanical and Antibacterial Properties of TiO2/Ag Ceramics and Ti6Al4V-TiO2/Ag Composite Materials Using Combined SLM-SPS Techniques. Metals. 9(8). 874–874.
17.
Morris, Nicholas J., Michael Leighton, Ramin Rahmani, et al.. (2017). Nano-scale investigation of frictional characteristics of tribo-films in sliding contacts of representative in-cylinder conditions. Loughborough University Institutional Repository (Loughborough University).
18.
Morris, Nicholas J., et al.. (2016). Clutch lining frictional characteristics under thermal tribodynamic conditions. Loughborough University Institutional Repository (Loughborough University).
19.
Leighton, Michael, et al.. (2016). A combined numerical and experimental investigation of disengaged wet brake plate power loss. Loughborough University Institutional Repository (Loughborough University).
20.
Arani, A. Ghorbanpour, Ramin Rahmani, Ali Arefmanesh, & Sa’id Golabi. (2008). Buckling analysis of multi-walled carbon nanotubes under combined loading considering the effect of small length scale. Journal of Mechanical Science and Technology. 22(3). 429–439.
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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