3:30pm - 3:45pmID: 190
/ TOM2&9: 1
TOM 9 Applications of Optics and Photonics
Design approach for an advanced multi-channel pyrometer for bulk oven processes
Rune Fritzsche1, Clemens F. Kaiser1, Georg Herdrich1, Jürgen Grün2, Tobias Grün2
1Institute of Space Systems, University of Stuttgart, Germany; 2New Generation Kilns Grün GmbH
Industrial processes such as smelting and sintering require stable and precise temperature control of furnaces. To achieve this, accurate temperature measurements are required. Pyrometry allows for contactless measurement of bulk materials and is particularly suitable for high temperature applications. One of the main influences on the accuracy of pyrometric measurements is the knowledge of the emissivity in the spectral measurement range. To reduce this dependence, two-color pyrometers or multi-color pyrometers can be used. With this in mind, the IRS is further developing their existing pyrometer technology by designing an advanced multi-channel pyrometer for bulk oven processes in a joint venture with Stange Elektronik GmbH and New Generation Kilns Grün GmbH. The design process is explained here and the different methods of achieving emissivity independence are examined.
3:45pm - 4:00pmID: 325
/ TOM2&9: 2
TOM 9 Applications of Optics and Photonics
Investigations on the causes of process vibrations in CNC grinding processes and their effects on achievable surface qualities on fused silica
Marcel Binder1, Sebastian Henkel1, Jens Bliedtner1, Marco Fritzsche2, Eugen Biegler2, Harish Sunkara3, Franziska Schöneweck3, Sascha Greiner-Adam3, Jörg Flügge3
1Ernst-Abbe-Hochschule Jena; 2Polytec GmbH; 3Batix Software GmbH
The presented investigations build on the results already presented at EOSAM 2022 on the in-situ monitoring of grinding processes, in which high correlations between vibrometry, force and topography data of machined fused silica samples could already be proven. With the help of new measurement setups, it was possible to also detect high-frequency vibration components in CNC grinding processes and to check their effects on the resulting surface qualities. The investigations were carried out on a 5-axis CNC machine and monitored with the help of vibrometric and white-light interferometric measurement technology. The aim was to look at the influences of process-side parameters on the process vibrations and the resulting surface qualities.
4:00pm - 4:15pmID: 299
/ TOM2&9: 3
TOM 2 Adaptive and Freeform Optics
Visible imaging system optical design by continuous optimization of glasses
Sébastien Héron, Yann Semet
Thales Research & Technology, 1 av Augustin Fresnel, 91767 Palaiseau, France
Choice of lenses materials in optical design is crucial to reduce aberrations down to an acceptable level. Commercial glasses do not cover a continuous range of refractive indices and must be selected in a discrete library making them discrete variables in any optimization design process to achieve the final optical design to be manufactured. This paper proposes an alternative method to avoid the complicated discrete variables optimization process thanks to a two-steps continuous optimization methodology starting with fictitious glasses models before jumping to the real glasses optimization design. The illustration of this process and achieved results are presented on an example of optical system which validates our proposed method.
4:15pm - 4:30pmID: 168
/ TOM2&9: 4
TOM 2 Adaptive and Freeform Optics
Smart lighting system with tunable radiation pattern
Jeroen Cerpentier, Nick Rondelez, Nathan Slembrouck, Youri Meuret
KU Leuven, Belgium
Smart lighting systems are capable of producing light when and where it is needed. Such functionality can be achieved with adaptive optical systems, which consist of one or multiple adjustable components, enabling illumination with a variable radiation pattern. This paper introduces the design of a compact, tunable optical system, allowing illumination with variable beam size and beam direction. We demonstrate how this system can be combined with computer vision and a feedback loop, to achieve a fully autonomous, smart illumination system.
4:30pm - 4:45pmID: 221
/ TOM2&9: 5
TOM 9 Applications of Optics and Photonics
Optoelectronic oscillator controlled by photodiode-based optoelectronic chromatic dispersion and FBG integration
Ayuushi Dutta, Ziv Glasser, Shmuel Sternklar
Ariel University, Israel
High Optoelectronic Chromatic Dispersion in Ge PN-photodetectors is incorporated in an Optoelectronic Oscillator to achieve high sensitivity wavelength monitoring and strain sensing. The sensitivity is enhanced for higher oscillating mode numbers and lower cavity lengths.
4:45pm - 5:00pmID: 146
/ TOM2&9: 6
TOM 9 Applications of Optics and Photonics
High-frequency processing effects on three commercial polymers with different thermal properties under femtosecond laser irradiation.
Andrés P. Bernabeu1, Guillem Nájar1, Alberto Ruiz1, Juan Carlos Bravo1,2, Manuel G. Ramírez1,2, Sergi Gallego1,2, Andrés Márquez1,2, Daniel Puerto1,2
1Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, Universidad de Alicante, 03690, San Vicente del Raspeig, Spain; 2Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante, 03690, San Vicente del Raspeig, Spain
The response of three of the most used commercial polymers (poly(vinyl chloride) (PVC), poly(ethylene terephthalate) (PET) and polypropylene (PP)) with different thermal properties under irradiation with high frequency (1 kHz-1 MHz) femtosecond (450 fs) multi-pulse (N=10-1500) laser at λ=515 (1.34 J/cm2) and 1030 (1.70 J/cm2) is reported. Thermal and ablative effects are observed after laser irradiations. The results are compared to a photothermal model that pretends to explain the heat accumulation effect of successive pulses irradiation. Thermal analyses (Modulated Differential Scanning Calorimetry (MDSC) and Thermogravimetry (TG)) are performed and utilized to explain the different behaviour of each polymer. Three different regimes (non thermal, thermal and saturation) are identified and explained from the model and experimental results. A connection between ablation depth and simulated reached temperature is established. Further studies as micro-Raman analyses on the irradiated area and the dependence of damaged area on the repetition rate are being performed.
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