Laboringenieur
3D Scale - A system to reduce and compensate the influence of multiple axis errors of rotational axes
In: SPIE Photonics West, Optoelectronic Materials and Devices, SPIE 2013
Physical marker based stitching process of circular and non-circular interferograms
DOI: 10.1117/12.889491
Investigations on Grinding Tools for Silicon Carbide Based Advanced Materials
In: International Optical Design Conference 2010 (13-17 June 2010, Jackson Hole, WY, USA). null (Proceedings of SPIE. 2004-) pg. OWD2 ff..
Bellingham
Relationship between influence function accuracy and polishing quality in magnetorheological finishing
pg. 76550Y ff..
DOI: 10.1117/12.865508
Investigations on Magnetorheological Finishing of High-Quality Optical Surfaces with Varying Influence Function (Proceedings of Optical Fabrication and Testing 2010; Jackson Hole, WY, USA; June 13-17, 2010)
pg. OWD3 ff..
Washington, DC, USA
Effects of mechanical inaccuracies on the measurement result in metrology systems
vol. 7656 pg. 765611 ff..
Relationship between influence function accuracy and polishing quality in magnetorheological finishing
In: 5th SPIE International Symposium on Advanced Optical Manufacturing and Testing Technologies
Dalian, China
Prediction and control techniques for sub-aperture polishing of high-quality optical lenses
University of the West of England Bristol, Großbritannien
Strategies for grinding optical free-forms using ball-shaped grinding wheels
In: SPIE Optifab
SPIE - The International Society for Optical Engineering Rochester, NY, USA
Mathematical modelling of influence functions in computer-controlled polishing. Part II
In: Applied Mathematical Modelling vol. 32 pg. 2907-2924.
Material influence of silicon nitride at Magnetorheological Finishing (MRF)
Schneller und genauer - Optimale Polierstrategie durch variable Abtragsfunktion
In: BayTech Optik Seminar
Deggendorf
Ultraschallunterstütztes Schleifen von Linsen
In: Siebtes Symposium - Zukunft Glas - von der Tradition zum High-Tech-Produkt
OTTI e.V., Zwiesel Zwiesel
Forces acting between polishing tool and workpiece surface in magnetorheological finishing
vol. 7060 pg. 706006 ff..
DOI: 10.1117/12.794196
Ultraschallunterstütztes Schleifen von Linsen
pg. 191-203.
Advanced techniques for computer-controlled polishing
In: Current Developments in Lens Design and Optical Engineering IX vol. 7060
DOI: 10.1117/12.808036
Simulation of a complex optical polishing process using a neural network
In: Robotics and Computer-Integrated Manufacturing vol. 24 pg. 32-37.
DOI: 10.1016/j.rcim.2006.07.003
Precision finishing of aspherical optical components using ELID grinding
In: Siebtes Symposium - Zukunft Glas - von der Tradition zum High-Tech-Produkt
OTTI e.V., Zwiesel Zwiesel
Magnetorheological Finishing of silicon nitride moulds
Material removal study at silicon nitride molds for the precision glass molding using MRF process
In: Current Developments in Lens Design and Optical Engineering IX vol. 7060 pg. 706007 ff..
DOI: 10.1117/12.794583
Examination of surface and subsurface damages on silicon wafers using dimple polishing
Precision finishing of aspherical optical components using ELID grinding
pg. 191-203.
Utilisation of time-variant influence functions in the computer-controlled polishing
In: Precision Engineering vol. 32 pg. 47-54.
DOI: 10.1016/j.precisioneng.2007.04.005
Mathematical modelling of influence functions in computer-controlled polishing. Part I
In: Applied Mathematical Modelling vol. 32 pg. 2888-2906.
Correcting silicon carbide and silicon nitride moulds by Magnetorheological Finishing
pg. 360-363.
Filter algorithm for influence functions in the computer-controlled polishing of high-quality optical lenses
In: International Journal of Machine Tools and Manufacture vol. 47 pg. 107-111.
Design and development of a novel computer-controlled power device for electrical-assisted optical grinding
pg. TD0406-1 ff..
Lens production enhancement by adoption of artificial influence functions and a knowledge-based system in a magnetorheological finishing process
In: Optical Manufacturing and Testing VII vol. 6671 pg. 66711J ff..
DOI: 10.1117/12.761356
Calculation of MRF influence functions
In: Optical Manufacturing and Testing VII, SPIE
San Diego, CA, USA
Calculation of MRF influence functions
In: Optical Manufacturing and Testing VII vol. 6671 pg. 66710Y ff..
Subsurface damages detecting on standard optical glass by dimple method
In: The 12th International Conference on Problems of Material Engineering, Mechanics and Design
Jasna, Slowakei
Subsurface damages detecting on standard optical glass by dimple method
pg. 13 ff..
Deposits and damages on high precision surfaces of advanced materials
Sedimentations on high-precision surfaces of advanced materials by magnetorheological finishing
In: Current Developments in Lens Design and Optical Engineering VII vol. 6288 pg. 62880R ff..
Coherences between influence function size, polishing quality and process time in the magnetorheological finishing
In: Current Developments in Lens Design and Optical Engineering VII
San Diego, CA, USA
Sedimentations on high-precision surfaces of advanced materials by magnetorheological finishing
In: Current Developments in Lens Design and Optical Engineering VII
San Diego, CA, USA
Rauhigkeitsentwicklung bei der Bearbeitung von Komponenten für die Präzisionsoptik mit Diamantwerkzeugen
pg. 143-153.
Rauhigkeitsentwicklung bei der Bearbeitung von Komponenten für die Präzisionsoptik mit Diamantwerkzeugen
Coherences between spot size, process time and polishing quality in MRF
In: QED Users Group Meeting
Rochester, NY, USA
Simulation of a complex optical polishing process using a neural network
In: Robotics and Computer-Integrated Manufacturing vol. 24 pg. 32-37.
DOI: 10.1016/j.rcim.2006.07.003
Deposits and damages on high precision surfaces of advanced materials
In: 5th Youth Symposium on Experimental Solid Mechanics
Puchov, Slowakei
Coherences between influence function size, polishing quality and process time in the magnetorheological finishing
In: Current Developments in Lens Design and Optical Engineering VII vol. 6288 pg. 62880Q ff..
DOI: 10.1117/12.678720
Correlation between influence- function quality and predictability of a computer-controlled polishing process
In: Optical Engineering vol. 45 pg. 063401 ff..
DOI: 10.1117/1.2213630
Utilizing a TII aspherical measurement machine in a computer-controlled polishing process
In: Optical Measurement Systems for Industrial Inspection IV
München
Analysis of thermal sources in a magnetorheological finishing (MRF) process
In: Optical Manufacturing and Testing VI vol. 5869 pg. 111-120.
DOI: 10.1117/12.616751
New viscosity measurement for magnetorheological polishing fluid
In: Optical Manufacturing and Testing VI vol. 5869 pg. 133-141.
DOI: 10.1117/12.616690
Analysis of thermal sources in a magnetorheological finishing (MRF) process
In: Optical Manufacturing and Testing VI
San Diego, CA, USA
New viscosity measurement for magnetorheological polishing fluid
In: Optical Manufacturing and Testing VI
SPIE, The International Society for Optics and Photonics San Diego, CA, USA
MRF in der Praxis – Optimierung der Wirtschaftlichkeit
In: BayTech Optik Seminar
Deggendorf
Comparison of different magnetorheological polishing fluids
In: Optical Fabrication, Testing, and Metrology II vol. 5965 pg. 659-670.
DOI: 10.1117/12.656430
Utilizing a TII aspherical measurement machine in a computer-controlled polishing process
In: Optical Measurement Systems for Industrial Inspection IV vol. 5856 pg. 987-993.
DOI: 10.1117/12.612597
A new approach to predict computer-controlled polishing results
In: Optical Manufacturing and Testing VI vol. 5869 pg. 94-102.
DOI: 10.1117/12.616780
A new approach to predict computer-controlled polishing results
In: Optical Manufacturing and Testing VI
San Diego, CA, USA
Comparison of different magnetorheological polishing fluids
Jena
Erzeugung hochpräziser Oberflächen auf optischen Bauelementen für die Präzisionsoptik mit magnetorheologischem Finishing (MRF)
In: Fünftes Symposium - Zukunft Glas - Von der Tradition zum High-Tech-Produkt
Zwiesel
Erzeugung hochpräziser Oberflächen auf optischen Bauelementen für die Präzisionsoptik mit magnetorheologischem Finishing (MRF)
pg. 89-98.
Comparison of a new contact topographical measurement system for spherical and aspherical surfaces with interferometry
In: Current Developments in Lens Design and Optical Engineering V vol. 5523 pg. 225-234.
DOI: 10.1117/12.558899
Temporal stability and performance of MR polishing fluid
In: Current Developments in Lens Design and Optical Engineering V vol. 5523 pg. 273-280.
DOI: 10.1117/12.558897
Temporal stability and performance of MR polishing fluid
In: Current Developments in Lens Design and Optical Engineering V
SPIE, The International Society for Optics and Photonics San Diego, CA, USA
Comparison of a new contact topographical measurement system for spherical and aspherical surfaces with interferometry
In: Current Developments in Lens Design and Optical Engineering V
Denver, CO, USA
Prediction of MRF polishing by classification of the initial error with Zernike polynomials
In: Optical Manufacturing and Testing V
San Diego, CA, USA
Lens production enhancement by adoption of artificial influence functions and a knowledge-based system in a magnetorheological finishing process
In: Optical Manufacturing and Testing VII
San Diego, CA, USA
Prediction of MRF polishing by classification of the initial error with Zernike polynomials
In: Optical Manufacturing and Testing V vol. 5180 pg. 115-122.
DOI: 10.1117/12.507652