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Literaturliste

1. Development of a simple substitute model to describe the normal force of fluids in narrow gaps.
   Raphael Bilz und Kristin de Payrebrune
   PAMM, Vol. 22, Nr. 1, (2023-mar)
   DOI: 10.1002/pamm.202200062
   
2. New data perspective for selective laser melting simulations.
   Luca Luberto und Kristin de Payrebrune
   PAMM, Vol. 22, Nr. 1, (2023-mar)
   DOI: 10.1002/pamm.202200051
   
3. Finite Difference Modeling and Experimental Investigation of Cyclic Thermal Heating in the Fused Filament Fabrication Process.
   Luca Luberto, Volker Böß und Kristin de Payrebrune
   3D Printing and Additive Manufacturing, (2023-feb)
   DOI: 10.1089/3dp.2022.0282
   
4. A Novel and Practicable Approach for Determining the Beam Parameters of Soft Pneumatic Multi-Chamber Bending Actuators.
   Frederik, Lamping
   Applied Science, (2023)
   DOI: https://doi.org/10.3390/app13052822
   
5. Component Surfaces. Manufacturing-Morphology-Property Relationships.
   Jan Aurich und Hans Hasse
   Springer Nature (2023)
   
6. Improved modeling and design of soft robots using sensitivity analysis.
   Frederik Lamping, Leon Schindler und Kristin de Payrebrune
   Technische Mechsnik, Vol. 43, Nr. 2, S. 271 - 283. (2023)
   
7. Investigation of the influence of cooling lubricants on workpiece topography.
   Felix Kästner und Kristin de Payrebrune
   PAMM, Vol. 23, Nr. 1, S. 202200128. (2023)
   DOI: https://doi.org/10.1002/pamm.202200128
   
8. Proceedings of the 3rd Conference on Physical Modeling for Virtual Manufacturing Systems and Processes.
   Jan Aurich, Christoph Garth und Barbara Linke
   Springer International Publishing (2023)
   DOI: 10.1007/978-3-031-35779-4
   
9. Optimizing compressive strength of sand treated with MICP using response surface methodology.
   Niklas Erdmann, Kristin de Payrebrune, Roland Ulber und Dorina Strieth
   SN Applied Sciences, Vol. 4, Nr. 10, (2022-sep)
   DOI: 10.1007/s42452-022-05169-8
   
10. Investigation of the rate of ureolytis during microbially induced calcium carbonate precipitation under high concentrations of urea and calcium salts.
    Niklas Erdmann, Lorenz Monika, Kristin de Payrebrune und Dorina Strieth
    Chemie Ingenieur Technik, Vol. 94, Nr. 9, S. 1300 - 1301. (2022-aug)
    DOI: 10.1002/cite.202255162
    
11. A systematically derived design for a modular pneumatic soft bending actuator.
    Frederik Lamping und Kristin de Payrebrune
    2022 5th IEEE International Conference on Soft Robotics (RoboSoft), (2022-apr)
    
12. Parameter identification of an abrasive manufacturing process with machine learning of measured surface topography information.
    Samuel Schmidt, Matthias Eifler, Cedric Issel, Kristin de Payrebrune, Felix Ströer, Abdullah Karatas und Jörg Seewig
    Journal of Computing and Information Science in Engineering, S. 1 - 36. (2022-01)
    DOI: 10.1115/1.4053670
    https://doi.org/10.1115/1.4053670
    
13. Fast and simple creation of powder beds for selective laser melting.
    Luca Luberto und Kristin de Payrebrune
    8th European Congress on Computational Methods in Applied Sciences and Engineering, (2022)
    DOI: 10.23967/eccomas.2022.116
    
14. Frictional Properties of a Novel Artificial Snakeskin for Soft Robotics.
    Frederik Lamping, Stanislav Gorb und Kristin de Payrebrune
    Biotribology, Vol. 30, S. 100210. (2022)
    DOI: https://doi.org/10.1016/j.biotri.2022.100210
    https://www.sciencedirect.com/science/article/pii/S2352573822000051
    
15. Influence of Cooling Lubricants on the Interaction Between Indenter and Material Surface During Scratch Tests.
    Felix Kästner und Kristin, de Payrebrune
    8th European Congress on Computational Methods in Applied Sciences and Engineering, (2022)
    DOI: 10.23967/eccomas.2022.146
    
16. Modeling Grinding Processes - Mesh or Mesh-Free Methods, 2D or 3D Approach?.
    Praveen Sridhar, Juan Prieto und Kristin de Payrebrune
    Journal of Manufacturing and Materials Processing, Vol. 6, Nr. 5, (2022)
    DOI: 10.3390/jmmp6050120
    https://www.mdpi.com/2504-4494/6/5/120
    
17. Simulation of non-spherical particles in tribological three-body systems.
    Raphael Bilz und Kristin de Payrebrune
    8th European Congress on Computational Methods in Applied Sciences and Engineering, (2022)
    DOI: 10.23967/eccomas.2022.249
    
18. Sporosarcina pasteurii can be used to print a layer of calcium carbonate.
    Niklas Erdmann, Felix Kästner, Kristin de Payrebrune und Dorina Strieth
    Engineering in Life Sciences, Vol. n/a, Nr. n/a, (2022)
    DOI: https://doi.org/10.1002/elsc.202100074
    https://onlinelibrary.wiley.com/doi/abs/10.1002/elsc.202100074
    
19. A Virtual Work Model for the Design and Parameter Identification of Cylindrical Pressure-Driven Soft Actuators.
    Frederik Lamping und Kristin de Payrebrune
    Journal of Mechanisms and Robotics, Vol. 14, Nr. 3, (2021-nov)
    DOI: 10.1115/1.4052849
    
20. Design improvement by a simulative investigation of the locomotion of a snake-like soft robot.
    Frederik Lamping und Kristin de Payrebrune
    PAMM, Vol. 21, Nr. 1, (2021-dec)
    DOI: 10.1002/pamm.202100059
    
21. Experimental Analyses of the Effects of Cooling Lubricants to Expand an FEM-Based Physical Grinding Force Model.
    Felix Kästner und Kristin de Payrebrune
    PAMM, Vol. 21, Nr. 1, (2021-dec)
    DOI: 10.1002/pamm.202100176
    
22. A comparative study of an isotropic and anistropic model to describe the micro-indentation of TWIP steel.
    Praveen Sridhar, Mahesh Prasad, Raphael Bilz, Matthias Klein, Napat Vajragupta, Kristin de Payrebrune und Marek Smaga
    PAMM, Vol. 20, Nr. 1, S. 202000224. (2021)
    DOI: https://doi.org/10.1002/pamm.202000224
    https://onlinelibrary.wiley.com/doi/abs/10.1002/pamm.202000224
    
23. Examination of laminar Couette flow with obstacles by a low-cost particle image velocimetry setup.
    Luca Luberto und Kristin de Payrebrune
    Physics of Fluids, Vol. 33, Nr. 3, S. 033603. (2021)
    
24. Investigation of the influence of velocity in a tribological three-body system containing a single layer of rolling hard particles from a mechanical point of view.
    Raphael Bilz und Kristin de Payrebrune
    Tribology International, Vol. 159, S. 106948. (2021)
    DOI: https://doi.org/10.1016/j.triboint.2021.106948
    
25. Modelling and Analysis of Topographic Surface Properties of Grinding Wheels.
    Praveen Sridhar, Daniel Mannherz und Kristin de Payrebrune
    Journal of Manufacturing and Materials Processing, Vol. 5, Nr. 4, (2021)
    DOI: 10.3390/jmmp5040121
    https://www.mdpi.com/2504-4494/5/4/121
    
26. On the motion of a snake-like soft robot.
    Frederik Lamping, Robin Seis und Kristin de Payrebrune
    PAMM, Vol. 20, Nr. 1, S. 202000037. (2021)
    
27. Parameter identification aspects of tribological systems containing hard particles.
    Raphael Bilz, Praveen Sridhar und Kristin de Payrebrune
    PAMM, Vol. 21, Nr. 1, S. 202100018. (2021)
    DOI: https://doi.org/10.1002/pamm.202100018
    https://onlinelibrary.wiley.com/doi/abs/10.1002/pamm.202100018
    
28. Physical Modeling of Process Forces in Grinding.
    Praveen Sridhar, Daniel Mannherz, Raphael Bilz, Kristin de Payrebrune, Mahesh Prasad und Juan Prieto
    2nd International Conference of the DFG International Research Training Group 2057 ?, Vol. 89, S. 16 - 1. (2021)
    DOI: 10.4230/OASIcs.iPMVM.2020.16
    https://drops.dagstuhl.de/entities/document/10.4230/OASIcs.iPMVM.2020.16
    
29. Relation of kinematics and contact forces in three-body systems with a limited number of particles.
    Kristin de Payrebrune
    Facta Univ. Ser. Mech. Eng, Vol. 1, S. 14. (2021)
    DOI: https://doi.org/10.22190/FUME210310035P
    
30. An eco-design for additive manufacturing framework based on energy performance assessment.
    Li Yi, Moritz Glatt, Praveen Sridhar, Kristin de Payrebrune, Barbara Linke, Bahram Ravani und Jan Aurich
    Additive Manufacturing, Vol. 33, S. 101120. (2020)
    
31. Discretization approaches to model orthogonal cutting with Lagrangian, Arbitrary Lagrangian Eulerian, Particle Finite Element method and Smooth Particle Hydrodynamics formulations.
    Praveen Sridhar, Juan Prieto und Kristin de Payrebrune
    Procedia CIRP, Vol. 93, S. 1496 - 1501. (2020)
    
32. Structural Vibration Tests. Use of Artificial Neural Networks for Live Prediction of Structural Stress.
    Laura Wilmes, Raymond Olympio, Kristin de Payrebrune und Markus Schatz
    Applied Sciences, Vol. 10, Nr. 23, (2020)
    DOI: 10.3390/app10238542
    https://www.mdpi.com/2076-3417/10/23/8542
    
33. Analytical investigation of the motion of lapping particles.
    Raphael Bilz und Kristin de Payrebrune
    PAMM, Vol. 19, Nr. 1, S. 201900076. (2019)
    
34. Discretization Approaches to Model Metal Cutting with Lagrangian, Arbitrary Lagrangian Eulerian and Smooth Particle Hydrodynamics formulations.
    Praveen Sridhar und Kristin de Payrebrune
    PAMM, Vol. 19, Nr. 1, S. 201900413. (2019)
    
35. Experimental investigation on the thermal length expansion of direct laser writing material.
    Wenjie Huang und Kristin de Payrebrune
    PAMM, Vol. 19, Nr. 1, S. 201900485. (2019)
    
36. Influence of friction on the locomotion of soft robots.
    Kristin de Payrebrune
    PAMM, Vol. 19, Nr. 1, S. 201900334. (2019)
    
37. Investigation of elastic grinding pins.
    Frederik Lamping und Kristin de Payrebrune
    PAMM, Vol. 19, Nr. 1, S. 201900174. (2019)
    
38. Numerical and experimental investigation on the flow behavior of liquids in narrow gaps.
    Luca Luberto und Kristin de Payrebrune
    PAMM, Vol. 19, Nr. 1, S. 201900143. (2019)
    
39. An alternative DEM parameter identification procedure based on experimental investigation. A case study of a ring shear cell.
    Thomas Falke, Kristin de Payrebrune, Kirchhof S, Kühnel L, Kühnel R, Mütze T und Matthias Kröger
    Powder Technology, Vol. 328, S. 227 - 234. (2018)
    DOI: https://doi.org/10.1016/j.powtec.2017.12.072
    http://www.sciencedirect.com/science/article/pii/S0032591017310306
    
40. Investigation of process parameter influences in single grain scratch simulations.
    Praveen Sridhar, Driss Fares und Kristin de Payrebrune
    PAMM, Vol. 18, Nr. 1, S. 201800357. (2018)
    
41. Effects of the Grinding Wheel Eccentricity and Waviness on the Dynamics of Tool Grinding.
    Kristin de Payrebrune und Matthias Kröger
    Physical Modeling for Virtual Manufacturing Systems and Processes, Vol. 869, S. 128 - 138. (2017-09)
    DOI: 10.4028/www.scientific.net/AMM.869.128
    
42. Numerical investigation of a walking soft robot.
    Kristin de Payrebrune und Oliver O’Reilly
    PAMM, (2017)
    
43. On the development of rod-based models for pneumatically actuated soft robot arms. A five-parameter constitutive relation.
    Kristin de Payrebrune und Oliver O’Reilly
    International Journal of Solids and Structures, Vol. 120C, S. 226 - 235. (2017)
    
44. Reduced models of grinding wheel topography and material removal to simulate dynamical aspects in grinding.
    Kristin de Payrebrune und Matthias Kröger
    The International Journal of Advanced Manufacturing Technology, Vol. 88, Nr. 1-4, S. 33 - 43. (2017)
    
45. An experimentally validated rod model for soft continuum robots.
    Kristin de Payrebrune und Oliver O’Reilly
    PAMM, Vol. 16, Nr. 1, S. 317 - 318. (2016)
    
46. An integrated model of tool grinding. challenges, chances and limits of predicting process dynamics.
    Kristin de Payrebrune und Matthias Kröger
    Production Engineering, Vol. 10, Nr. 4-5, S. 421 - 432. (2016)
    DOI: https://doi.org/10.1007/s11740-016-0687-2
    
47. On constitutive relations for a rod-based model of a pneu-net bending actuator.
    Kristin de Payrebrune und Oliver O’Reilly
    Extreme Mechanics Letters, Vol. 8, S. 38 - 46. (2016)
    
48. A finite element model for a soft robot equipped with a flexible limb.
    Kristin de Payrebrune und Oliver O’Reilly
    Book of Abstracts-Extract, S. 23. (2015)
    
49. Dynamical aspects in modeling long cantilevering workpieces in tool grinding.
    Kristin de Payrebrune und Matthias Kröger
    Journal of Sound and Vibration, Vol. 355, S. 407 - 417. (2015)
    
50. Kinematic analysis of particles in three-body contact.
    Kristin de Payrebrune und Matthias Kröger
    Tribology International, Vol. 81, S. 240 - 247. (2015)
    
51. Investigation of Interaction between Granular Material and a Structure.
    Kristin de Payrebrune, Uli Wöllner, Tom Hofmann, Kevin Berghoff und Matthias Kröger
    Selected Dynamical Problems in Mechanical Systems, S. 201 - 214. (2014)
    
52. Parameter study of a multi-body friction oscillator.
    Kristin de Payrebrune und Matthias Kröger
    PAMM, Vol. 14, Nr. 1, S. 305 - 306. (2014)
    
53. Parameterreduktion am Reibschwinger durch Ähnlichkeitskennzahlen.
    Matthias Kröger und Kristin de Payrebrune
    PAMM, Vol. 14, Nr. 1, S. 301 - 302. (2014)
    
54. Analyse und Modellierung der Prozess-Strukturwechselwirkungen beim Werkzeugschleifen.
    Kristin de Payrebrune und Technische Universit\a"t Bergakademie Freiberg
    (2013)
    
55. Influence Study of Wear Parameters in three-body Abrasion.
    The Doan, Kristin de Payrebrune und Matthias Kröger
    , S. 1 - 4. (2013)
    
56. Kinematic Analysis of Particles in Three-Body-Contact and Granulate Materials.
    Kristin de Payrebrune und Matthias Kröger
    , S. 1 - 4. (2013)
    
57. Modeling of process machine interactions in tool grinding.
    Manuel Deichmueller, Berend Denkena, Kristin Payrebrune, Matthias Kröger, Sebastian Wiedemann, Andreas Schröder und Carsten Carstensen
    Process Machine Interactions Predicition and Manipulation of Interactions between Manufacturing Processes and Machine Tool Structures, S. 143 - 176. (2013)
    DOI: 10.1007/978-3-642-32448-2
    
58. Untersuchung der kinematischen Wechselwinkungen zwischen granularen Materialien und Strukturen.
    Kristin de Payrebrune, Tom Hofmann und Matthias Kröger
    , S. 8 - 1. (2013)
    
59. Experimental Investigation of Friction Characteristics on three-body Abrasion with low Applied Loads.
    Yen Doan, Kristin de Payrebrune und Matthias Kröger
    Tribologie Fachtagung GfT, S. 9 - 1. (2012)
    
60. Hysteresis Effects in Abrasive and Frictional Contacts.
    Kristin de Payrebrune und Matthias Kröger
    PAMM, Vol. 12, Nr. 1, S. 239 - 240. (2012)
    
61. Optische Untersuchungen der Kinematik von Abrasivpartikeln in Drei-Körper-Kontakten.
    Kristin de Payrebrune und Matthias Kröger
    Tribologie Fachtagung GfT, S. 10 - 1. (2012)
    
62. Heat conduction in grinding.
    Kristin de Payrebrune, M Kühnert und Matthias Kröger
    Machine Dynamics Research, Vol. 35, Nr. 4, S. 92 - 104. (2011)
    
63. Nonlinear process machine interaction in tool grinding.
    Kristin de Payrebrune und Matthias Kröger
    PAMM, Vol. 11, Nr. 1, S. 927 - 930. (2011)
    
64. Determination of Static and Dynamic Deflections in Tool Grinding using a Dexel-Based Material Removal Simulation.
    Manuel Deichmueller, Berend Denkena, Kristin de Payrebrune, M Kröger, Sebastian Wiedemann, Andreas Schroeder und Carsten Carstensen
    2nd CIRP International Conference on Process Machine Interactions, (2010)
    
65. MRE properties under shear and squeeze modes and applications.
    Kristin Popp, Matthias Kröger, Wei Li, Xian Zhang und Prabuono Kosasih
    Journal of Intelligent Material Systems and Structures, Vol. 21, Nr. 15, S. 1471 - 1477. (2010)
    
66. Magnetorheologische Elastomere - intelligente Werkstoffe f«är die Aktorik und Sensorik.
    M Kröger und Kristin de Payrebrune
    Lasermagazin, S. 58 - 60. (2010)
    
67. Modal Reduction of Dynamics of Tool Grinding.
    Kristin de Payrebrune und Matthias Kröger
    2nd International Conference on Process Machine Interactions, S. 289 - 298. (2010)
    
68. Nichtlineares Kontaktmodell für die Schleif-Prozess-Simulation.
    Kristin de Payrebrune und Matthias Kröger
    PAMM, Vol. 10, Nr. 1, S. 261 - 262. (2010)
    
69. Das Werkzeug als Werkstück, Schleifprozesse von Hochleistungswerkzeugen unter der Lupe.
    Matthias Kröger und Kristin de Payrebrune
    Ingenieur Spiegel, S. 28 - 29. (2009)
    
70. Investigation on the dynamics of tool grinding.
    Kristin Payrebrune, Matthias Kröger, Manuel Deichmueller und Berend Denkena
    Machine Dynamics Problems, Vol. 33, S. 92 - 104. (2009)
    
71. Kleine Körner, große Wirkung - Schleifabtrags- und Abrasivverschleißprozesse unter der Lupe.
    Matthias Kröger und Kristin de Payrebrune
    Ingenieur Spiegel, S. 43 - 44. (2009)
    
72. MRE properties under shear and squeeze modes and applications.
    Kristin Popp, Xianzhou Zhang, Weihua Li und Prabuono Kosasih
    Journal of Physics, Vol. 149, Nr. 1, S. 012095. (2009)
    http://stacks.iop.org/1742-6596/149/i=1/a=012095
    
73. Nonlinear Interaction Phenomena of Workpiece and Grinding Wheel.
    Kristin Popp und Matthias Kröger
    3rd GACM Colloquium on Computational Mechanics, S. 1 - 2. (2009)
    
74. On Contact Modeling of Workpiece and Grinding Wheel with Nonlinear Elements.
    Kristin de Payrebrune, Matthias Kröger, Manuel Deichmueller und Berend Denkena
    7th EUROMECH Solid Mechanics Conference, (2009)
    
75. Analysis of the machine structure and dynamic response of a tool grinding machine.
    Kristin Popp, Matthias Kröger, Manuel Deichmueller und Berend Denkena
    Proc. of the 1 st Int. Conf. on Process Machine Interaction, S. 299 - 307. (2008)
    
76. Fabrication and Characterization of MR Elastomers with High MR Effects.
    Kristin Popp, Prabuono Kosasih, Xianzhou Zhang und Weihua Li
    International Institute of Acoustics and Vibrations, S. 258 - 265. (2008)
    
77. Geometrical analysis of the complex contact area for modeling the local distribution of process forces in tool grinding.
    Berend Denkena, Manuel Deichmueller, Matthias Kröger, Kristin Popp, Carsten Carstensen, Andreas Schroeder und Sebastian Wiedemann
    Proceedings of the 1st international conference on process machine interaction, S. 289 - 298. (2008)