ASTAR - Literature:


  1. Liu Y., Samimi P., Ghamarian I., Brice D., A., Huber D., E., Wang Z., Dixit V., Koduri S., Fraser H., L., Collins P., C., Discovery via Intergration of Experimentation and Modelling: Three Examples of Titanium Alloys, JOM, DOI: 10.1007/s11837-014-1197-3

  2. Mohseni H., Nandwana P., Tsoi A., Banerjee R., Scharf T.W,  In situ Nitrided titanium alloys: Microstrucrural evolution during solidification and wear, Acta Materialia 83, (2015), 61-74, Available online at

  3. Mompiou F., Legros M., Quantitative grain growth and rotation probed by in-situ TEM straining and orientation mapping in small grained Al thin films, Scripta Materialia 99 (2015) 5-8.

  4. Herbig M., Choi P., Raabe D. Combining structural and chemical information at the nanometer scale by correlative transmission electron microscopy and atom probe tomography, Ultramicroscopy 153 (2015) 32-39

  5. Liu Xuan and Nuhfer Noel T., Warren A., P., and Coffey K., R., Rohrer G., S., Barmak Katayun Grain size dependence of the twin length fraction in nanocrystalline Cu thin filmsvia transmission electron microscopy based orientation mapping, J. Mater. Res., (2015) DOI: 10.1557/jmr.2014.393

  6. Straska Jitka, Janecek Milos, Gubicza Jeno, Kraznak Thomas, Yoon Yoo Eun, Kim Seop Hyoung, Evolution of microstructure and hardness in AZ31 alloy processed by high pressure torsion, Materials Science & Engineering A 625 (2015) 98-106

  7. Leff A., C., Weinberger C., R., Taheri M., L., Estimation of dislocation densityfrom Precession Electron Diffraction Data using the Nye Tensor, Ultramicroscopy 153 (2015) 9-21

  8. Zhang X., Linjun C., Ryan V., Ho P.S., Taylor B., Witt B., Labelle C., Co Liner impact on microstructure of Cu interconnects, ECS Journal of Solid State Science and Technology, 4 (1) N3177-N3179 (2015), DOI: 10.1149/2.0141501jss

  9. Hrkac V., Kobler A., Marauska S., Petraru A., Schurmann U., Chakravadhanula V., S., K., Duppel V., Kohlstedt H., Wagner B., Lotsch B., V., Kubel C., Kienle L., Structural study of growth, orientation and defects characteristics in the functional microelectromrchanical system material aluminium nitride, Journal of Applied Physics 117, 014301 (2015) DOI: 10.1063/1.4905109

  10. Haddad M., Ivanisenko Y., Courtois-Manara E., Fecht H-J., In situ tensile test of high strength nanocrystalline bainitic steel, Materials Science & Engineering A 620 (2015) 30-35.

  11. Midgley Paul A., Eggeman AlexanderS., Precession electron diffraction – a topical review, IUCrJ (2015). 2, 126-136

  12. Colla M-S., Amin-Ahmadi B., Idrissi H., Malet L., Godet S., Raskin J-P., Schryvers D., Pardoen T., Dislocation – mediated relaxation in nanograined columnar palladium films revealed bt on-chip time-resolved HRTEM testing, Nature Communications, 6:5922, DOI: 10.1038/ncomms6922

  13. Sun F., Zhang J. Y., Marteleur M., Brozek C., Rauch E. F., Veron M., Vermaut P., Jacques P.J., Prima F., A new titanium alloy with a combination of high strength, high strain hardening and improved ductility, Scripta Materialia 94 (2015) 17-20.

  14. Sallez N., Donnadieu P., Courtois-Manara E., Chassaing D., Kubel C., Delabrouille F., Blat-Yrieix M., Yann de Carlan, Brechet Y., On ball-milled ODS ferritic steel recrystallization: From as-milled powder particles to consolidated effects, J Mater Sci (2015) 50: 2202 – 2217, DOI 10.1007/s10853-014-8783-

  15. Wang W., Lartigue-Korinek S., Brisset F., Helbert A.L., Bourgon J., Baudin T., Formation of annealing twins during primary recrystallization of two low stacking fault energy Ni-based alloys, J Mater Sci (2015) 50: 2167-2177, DOI 10.1007/s10853-014-8780-4