M. Fitzka

856 total citations
39 papers, 654 citations indexed

About

M. Fitzka is a scholar working on Mechanics of Materials, Mechanical Engineering and Atmospheric Science. According to data from OpenAlex, M. Fitzka has authored 39 papers receiving a total of 654 indexed citations (citations by other indexed papers that have themselves been cited), including 25 papers in Mechanics of Materials, 24 papers in Mechanical Engineering and 8 papers in Atmospheric Science. Recurrent topics in M. Fitzka's work include Fatigue and fracture mechanics (20 papers), Ultrasonics and Acoustic Wave Propagation (10 papers) and Non-Destructive Testing Techniques (9 papers). M. Fitzka is often cited by papers focused on Fatigue and fracture mechanics (20 papers), Ultrasonics and Acoustic Wave Propagation (10 papers) and Non-Destructive Testing Techniques (9 papers). M. Fitzka collaborates with scholars based in Austria, United States and Germany. M. Fitzka's co-authors include H. Mayer, R. Schuller, Ulrike Karr, Bernd M. Schönbauer, Stana Simić, M. Bacher‐Höchst, Philipp Weihs, Alfred Strauß, Alois W. Schmalwieser and Niloofar Sanaei and has published in prestigious journals such as Journal of Materials Science, Atmospheric chemistry and physics and Soft Matter.

In The Last Decade

M. Fitzka

38 papers receiving 613 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
M. Fitzka Austria 16 442 429 139 87 70 39 654
Fuhui Shen Germany 15 525 1.2× 440 1.0× 342 2.5× 17 0.2× 14 0.2× 46 660
Li Tan China 12 248 0.6× 134 0.3× 92 0.7× 70 0.8× 87 1.2× 32 504
Philippe Bompard France 11 138 0.3× 195 0.5× 71 0.5× 83 1.0× 11 0.2× 17 352
Wenyu Ma China 10 289 0.7× 214 0.5× 137 1.0× 9 0.1× 29 0.4× 36 408
Robert M. Andrews United Kingdom 7 330 0.7× 376 0.9× 127 0.9× 151 1.7× 7 0.1× 19 512
Yiqi Zhang China 10 210 0.5× 90 0.2× 60 0.4× 21 0.2× 4 0.1× 25 341
Yu Fan China 14 434 1.0× 221 0.5× 82 0.6× 50 0.6× 4 0.1× 63 576
Dong Myung Bae South Korea 15 351 0.8× 95 0.2× 164 1.2× 117 1.3× 5 0.1× 36 501
Hassan M. Badr Saudi Arabia 12 197 0.4× 27 0.1× 96 0.7× 88 1.0× 36 0.5× 25 510

Countries citing papers authored by M. Fitzka

Since Specialization
Citations

This map shows the geographic impact of M. Fitzka'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 M. Fitzka with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites M. Fitzka more than expected).

Fields of papers citing papers by M. Fitzka

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by M. Fitzka. 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 M. Fitzka. The network helps show where M. Fitzka may publish in the future.

Co-authorship network of co-authors of M. Fitzka

This figure shows the co-authorship network connecting the top 25 collaborators of M. Fitzka. A scholar is included among the top collaborators of M. Fitzka 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 M. Fitzka. M. Fitzka 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.
Fitzka, M., et al.. (2025). Ultrasonic fatigue testing in hot hydrogen gas. International Journal of Fatigue. 198. 108991–108991.
2.
Fitzka, M., Harald Rennhofer, D. Catoor, et al.. (2024). Ultrasonic fatigue of superelastic Nitinol and in situ synchrotron observation of strain and damage. Journal of Materials Research and Technology. 33. 5160–5169. 2 indexed citations
3.
Fitzka, M., et al.. (2024). Very high cycle fatigue properties of short glass fiber reinforced polyetheretherketone (PEEK). International Journal of Fatigue. 190. 108652–108652. 4 indexed citations
4.
Fitzka, M., Bernd M. Schönbauer, Harald Rennhofer, et al.. (2023). Ultrasonic fatigue of unfilled and carbon nanotube (CNT) reinforced polyetheretherketone (PEEK). Ultrasonics. 138. 107236–107236. 3 indexed citations
5.
Schönbauer, Bernd M., M. Fitzka, Matias Jaskari, Antti Järvenpää, & H. Mayer. (2023). Very High Cycle Fatigue Data Acquisition Using High-Accuracy Ultrasonic Fatigue Testing Equipment. Materials Performance and Characterization. 12(2). 172–185. 6 indexed citations
6.
Fitzka, M., et al.. (2021). Ultrasonic fatigue testing of concrete. Ultrasonics. 116. 106521–106521. 13 indexed citations
7.
Rennhofer, Harald, Sven F. Plappert, Helga C. Lichtenegger, et al.. (2019). Insight into the nanostructure of anisotropic cellulose aerogels upon compression. Soft Matter. 15(41). 8372–8380. 13 indexed citations
8.
Karr, Ulrike, et al.. (2019). Inclusion initiated fracture under cyclic torsion very high cycle fatigue at different load ratios. International Journal of Fatigue. 122. 199–207. 29 indexed citations
9.
Fitzka, M., et al.. (2019). Influence of cycling frequency and testing volume on the VHCF properties of 18Ni maraging steel. Engineering Fracture Mechanics. 216. 106525–106525. 14 indexed citations
10.
Mayer, H., et al.. (2016). Mean stress sensitivity and crack initiation mechanisms of spring steel for torsional and axial VHCF loading. International Journal of Fatigue. 93. 309–317. 38 indexed citations
11.
Fitzka, M. & H. Mayer. (2015). Variable Amplitude Testing of 2024-T351 Aluminum Alloy Using Ultrasonic and Servo-hydraulic Fatigue Testing Equipment. Procedia Engineering. 101. 169–176. 4 indexed citations
12.
Schuller, R., et al.. (2015). Mean stress sensitivity of spring steel in the very high cycle fatigue regime. Journal of Materials Science. 50(16). 5514–5523. 17 indexed citations
13.
Fitzka, M., et al.. (2014). Total ozone and Umkehr observations at Hoher Sonnblick 1994–2011: Climatology and extreme events. Journal of Geophysical Research Atmospheres. 119(2). 739–752. 11 indexed citations
14.
Mayer, H., et al.. (2014). Cyclic torsion very high cycle fatigue of VDSiCr spring steel at different load ratios. International Journal of Fatigue. 70. 322–327. 48 indexed citations
15.
Mayer, H., et al.. (2014). Very high cycle fatigue of nitrided 18Ni maraging steel sheet. International Journal of Fatigue. 64. 140–146. 27 indexed citations
16.
Schuller, R., et al.. (2014). VHCF properties of nitrided 18Ni maraging steel thin sheets with different Co and Ti content. Fatigue & Fracture of Engineering Materials & Structures. 38(5). 518–527. 32 indexed citations
17.
Mayer, H., M. Fitzka, & R. Schuller. (2013). Constant and variable amplitude ultrasonic fatigue of 2024-T351 aluminium alloy at different load ratios. Ultrasonics. 53(8). 1425–1432. 35 indexed citations
18.
Weihs, Philipp, Jochen Wagner, Stefan F. Schreier, et al.. (2012). The influence of the spatial resolution of topographic input data on the accuracy of 3-D UV actinic flux and irradiance calculations. Atmospheric chemistry and physics. 12(5). 2297–2312. 5 indexed citations
19.
Wagner, Jochen, F. Angelini, M. Blumthaler, et al.. (2011). Investigation of the 3-D actinic flux field in mountainous terrain. Atmospheric Research. 102(3). 300–310. 6 indexed citations
20.
Simić, Stana, et al.. (2008). Spectral UV measurements in Austria from 1994 to 2006: investigations of short- and long-term changes. Atmospheric chemistry and physics. 8(23). 7033–7043. 15 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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