Dr. Steffen Brinckmann
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Fundamental differences in mechanical behavior between two types of crystals at the nanoscale
S Brinckmann, JY Kim, JR Greer
Physical review letters 100 (15), 155502, 2008
Photons and particles emitted from cold atmospheric-pressure plasma inactivate bacteria and biomolecules independently and synergistically
JW Lackmann, S Schneider, E Edengeiser, F Jarzina, S Brinckmann, ...
Journal of the Royal Society Interface 10 (89), 20130591, 2013
The Sandia Fracture Challenge: blind round robin predictions of ductile tearing
BL Boyce, SLB Kramer, HE Fang, TE Cordova, MK Neilsen, K Dion, ...
International Journal of Fracture 186 (1-2), 5-68, 2014
A dislocation density based strain gradient model
S Brinckmann, T Siegmund, Y Huang
International journal of plasticity 22 (9), 1784-1797, 2006
The third Sandia Fracture Challenge: predictions of ductile fracture in additively manufactured metal
SLB Kramer, A Jones, A Mostafa, B Ravaji, T Tancogne-Dejean, CC Roth, ...
International Journal of Fracture 218 (1), 5-61, 2019
Microshear deformation of gold single crystals
JK Heyer, S Brinckmann, J Pfetzing-Micklich, G Eggeler
Acta materialia 62, 225-238, 2014
On the influence of microcantilever pre-crack geometries on the apparent fracture toughness of brittle materials
S Brinckmann, K Matoy, C Kirchlechner, G Dehm
Acta Materialia 136, 281-287, 2017
Computations of fatigue crack growth with strain gradient plasticity and an irreversible cohesive zone model
S Brinckmann, T Siegmund
Engineering Fracture Mechanics 75 (8), 2276-2294, 2008
A discrete dislocation dynamics study aiming at understanding fatigue crack initiation
S Brinckmann, E Van der Giessen
Materials Science and Engineering: A 387, 461-464, 2004
Stress intensity factor dependence on anisotropy and geometry during micro-fracture experiments
S Brinckmann, C Kirchlechner, G Dehm
Scripta Materialia 127, 76-78, 2017
A fatigue crack initiation model incorporating discrete dislocation plasticity and surface roughness
S Brinckmann, E Van der Giessen
International journal of fracture 148 (2), 155-167, 2007
Hydrogen embrittlement of tungsten induced by deuterium plasma: Insights from nanoindentation tests
X Fang, A Kreter, M Rasinski, C Kirchlechner, S Brinckmann, C Linsmeier, ...
Journal of materials research 33 (20), 3530-3536, 2018
On the formation of vacancies by edge dislocation dipole annihilation in fatigued copper
S Brinckmann, R Sivanesapillai, A Hartmaier
International journal of fatigue 33 (10), 1369-1375, 2011
Influence of composition and crystal structure on the fracture toughness of NbCo2 Laves phase studied by micro-cantilever bending tests
W Luo, C Kirchlechner, X Fang, S Brinckmann, G Dehm, F Stein
Materials & Design 145, 116-121, 2018
On the role of dislocations in fatigue crack initiation
S Brinckmann
University Library Groningen][Host], 2005
A cohesive zone model based on the micromechanics of dislocations
S Brinckmann, T Siegmund
Modelling and Simulation in Materials Science and Engineering 16 (6), 065003, 2008
Mechanical and toughness properties of robotic-FSW repair welds in 6061-T6 aluminium alloys
S Brinckmann, C Schilling, JF dos Santos, M Kocak, D Lohwasser
Nanotribology in austenite: plastic plowing and crack formation
S Brinckmann, G Dehm
Wear 338, 436-440, 2015
Micro fracture investigations of white etching layers
AK Saxena, A Kumar, M Herbig, S Brinckmann, G Dehm, C Kirchlechner
Materials & Design 180, 107892, 2019
A scheme to combine molecular dynamics and dislocation dynamics
S Brinckmann, DK Mahajan, A Hartmaier
Modelling and Simulation in Materials Science and Engineering 20 (4), 045001, 2012
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Articles 1–20