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Electrospun (K,Na)NbO<sub>3</sub> piezoceramic fibers for self-powered tactile sensing application
Ichangi, A., Derichsweiler, C., Mathur, S., & Clemens, F. (2024). Electrospun (K,Na)NbO3 piezoceramic fibers for self-powered tactile sensing application. Advanced Engineering Materials, 26(1), 230166 (10 pp.). https://doi.org/10.1002/adem.202301066
Unraveling the highly plastic behavior of ALD‐aluminum oxide encapsulations by small‐scale tensile testing
Vogl, L. M., Schweizer, P., Minor, A. M., Michler, J., & Utke, I. (2024). Unraveling the highly plastic behavior of ALD‐aluminum oxide encapsulations by small‐scale tensile testing. Advanced Engineering Materials. https://doi.org/10.1002/adem.202302220
Electromechanical behavior of Al/Al<sub>2</sub>O<sub>3</sub> multilayers on flexible substrates: insights from in situ film stress and resistance measurements
Putz, B., Edwards, T. E. J., Huszar, E., Gruber, P. A., Gradwohl, K. P., Kreiml, P., … Michler, J. (2023). Electromechanical behavior of Al/Al2O3 multilayers on flexible substrates: insights from in situ film stress and resistance measurements. Advanced Engineering Materials, 25(2), 2200951 (15 pp.). https://doi.org/10.1002/adem.202200951
Tensile response characterization and constitutive modeling of LPBF Ti6Al4V thin struts
Hosseini, E., Robmann, S., Lüthi, T., Affolter, C., & Mazza, E. (2023). Tensile response characterization and constitutive modeling of LPBF Ti6Al4V thin struts. Advanced Engineering Materials, 25, 2201135 (10 pp.). https://doi.org/10.1002/adem.202201135
High-temperature creep properties of an additively manufactured Y<sub>2</sub>O<sub>3</sub> oxide dispersion-strengthened Ni–Cr–Al–Ti γ/γ’ superalloy
Kenel, C., De Luca, A., Leinenbach, C., & Dunand, D. C. (2022). High-temperature creep properties of an additively manufactured Y2O3 oxide dispersion-strengthened Ni–Cr–Al–Ti γ/γ’ superalloy. Advanced Engineering Materials, 24(12), 2200753 (10 pp.). https://doi.org/10.1002/adem.202200753
Tomographic volumetric additive manufacturing of silicon oxycarbide ceramics
Kollep, M., Konstantinou, G., Madrid-Wolff, J., Boniface, A., Hagelüken, L., Sasikumar, P. V. W., … Moser, C. (2022). Tomographic volumetric additive manufacturing of silicon oxycarbide ceramics. Advanced Engineering Materials, 24(7), 2101345 (10 pp.). https://doi.org/10.1002/adem.202101345
Aerogel spring-back correlates with strain recovery: effect of silica concentration and aging
Sivaraman, D., Zhao, S., Iswar, S., Lattuada, M., & Malfait, W. J. (2021). Aerogel spring-back correlates with strain recovery: effect of silica concentration and aging. Advanced Engineering Materials, 23(10), 2100376 (12 pp.). https://doi.org/10.1002/adem.202100376
Nanoscale 3D electroforming by template pyrolysis
Gunderson, C., Rohbeck, N., Tranchant, M., Michler, J., & Philippe, L. (2021). Nanoscale 3D electroforming by template pyrolysis. Advanced Engineering Materials, 23(5), 2001293 (7 pp.). https://doi.org/10.1002/adem.202001293
An innovative selective laser melting process for hematite-doped aluminum oxide
Florio, K., Pfeiffer, S., Makowska, M., Casati, N., Verga, F., Graule, T., … Wegener, K. (2019). An innovative selective laser melting process for hematite-doped aluminum oxide. Advanced Engineering Materials, 21(6), 1801352 (10 pp.). https://doi.org/10.1002/adem.201801352
Mechanical anisotropy investigated in the complex SLM-processed Sc- and Zr-modified Al–Mg alloy microstructure
Best, J. P., Maeder, X., Michler, J., & Spierings, A. B. (2019). Mechanical anisotropy investigated in the complex SLM-processed Sc- and Zr-modified Al–Mg alloy microstructure. Advanced Engineering Materials, 21(3), 1801113 (6 pp.). https://doi.org/10.1002/adem.201801113
Iron oxide doped spray dried aluminum oxide granules for selective laser sintering and melting of ceramic parts
Pfeiffer, S., Florio, K., Makowska, M., Ferreira Sanchez, D., Van Swygenhoven, H., Aneziris, C. G., … Graule, T. (2019). Iron oxide doped spray dried aluminum oxide granules for selective laser sintering and melting of ceramic parts. Advanced Engineering Materials, 21(6), 1801351 (14 pp.). https://doi.org/10.1002/adem.201801351
Solid state processing of aluminum matrix composites reinforced with nanoparticulate materials
Leparoux, M., Kollo, L., Kwon, H., Kallip, K., Babu, N. K., AlOgab, K., & Talari, M. K. (2018). Solid state processing of aluminum matrix composites reinforced with nanoparticulate materials. Advanced Engineering Materials, 20(11), 1800401 (18 pp.). https://doi.org/10.1002/adem.201800401
Phase evolution during high energy cube milling of Ti–6Al–4V–0.5 vol% TiC powders using heptane and tin as process control agents (PCAs)
Kishore Babu, N., Kallip, K., Leparoux, M., Talari, M. K., AlOgab, K. A., & Alqahtani, N. M. (2017). Phase evolution during high energy cube milling of Ti–6Al–4V–0.5 vol% TiC powders using heptane and tin as process control agents (PCAs). Advanced Engineering Materials, 19(2), 1600662 (6 pp.). https://doi.org/10.1002/adem.201600662
Microstructure, mechanical, and impression creep properties of AlMg5–0.5 vol% Al<SUB>2</SUB>O<SUB>3</SUB> nanocomposites
Talari, M. K., Babu, N. K., Kallip, K., Leparoux, M., Koller, R. E., AlOgab, K. A., & Maeder, X. (2016). Microstructure, mechanical, and impression creep properties of AlMg5–0.5 vol% Al2O3 nanocomposites. Advanced Engineering Materials, 18(11), 1958-1966. https://doi.org/10.1002/adem.201600301
Platinum thin-film electrodes prepared by a cost-effective chemical vapor deposition technique
Schlupp, M. V. F., Wehrle, M. M., Kunze, K., Remhof, A., & Vogt, U. F. (2016). Platinum thin-film electrodes prepared by a cost-effective chemical vapor deposition technique. Advanced Engineering Materials, 18(7), 1200-1207. https://doi.org/10.1002/adem.201500636
Intermetallic layer growth kinetics in Sn-Ag-Cu system using diffusion multiple and reflow techniques
Pawełkiewicz, M., Danielewski, M., & Janczak-Rusch, J. (2015). Intermetallic layer growth kinetics in Sn-Ag-Cu system using diffusion multiple and reflow techniques. Advanced Engineering Materials, 17(4), 512-522. https://doi.org/10.1002/adem.201400226
Stretchable metallic electrodes for electroactive polymer actuators
Habrard, F., Patscheider, J., & Kovacs, G. (2014). Stretchable metallic electrodes for electroactive polymer actuators. Advanced Engineering Materials, 16(9), 1133-1139. https://doi.org/10.1002/adem.201300569
3D auxetic microlattices with independently controllable acoustic band gaps and quasi-static elastic moduli
Krödel, S., Delpero, T., Bergamini, A., Ermanni, P., & Kochmann, D. M. (2014). 3D auxetic microlattices with independently controllable acoustic band gaps and quasi-static elastic moduli. Advanced Engineering Materials, 16(4), 357-363. https://doi.org/10.1002/adem.201300264
Forced convective drying of wet porous asphalt imaged with neutron radiography
Poulikakos, L. D., Saneinejad, S., Sedighi Gilani, M., Jerjen, I., Lehmann, E., & Derome, D. (2013). Forced convective drying of wet porous asphalt imaged with neutron radiography. Advanced Engineering Materials, 15(11), 1136-1145. https://doi.org/10.1002/adem.201300027
Effect of pore morphology on deformation behaviors in porous Al by FEM simulations
Cho, Y. J., Lee, W. J., Park, S. K., & Park, Y. H. (2013). Effect of pore morphology on deformation behaviors in porous Al by FEM simulations. Advanced Engineering Materials, 15(3), 166-169. https://doi.org/10.1002/adem.201200145
 

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