OEM-3D-Messsysstem für NPMM Weißlichtinterferon (GBS mbH)
Model: Weißlichtinterferometer GBS smartWLI-oem
Manufacturer: GBS mbH (2011)
Usage: Internal only
Organisation(s):
Lehrstuhl für Fertigungsmesstechnik (FMT)Funding Sources:
Deutsche Forschungsgemeinschaft (DFG)Involved Person(s):
Elisa Wirthmann Contact person Yiting Wu Contact personPictures
Debug: Alles
name_de: OEM-3D-Messsysstem für NPMM Weißlichtinterferonname_en: OEM-3D-Messsysstem für NPMM Weißlichtinterferon
model: Weißlichtinterferometer GBS smartWLI-oem
url:
manufacturer: GBS mbH
year: 2011
location_de:
location_en:
usage_de: Nur organisationsintern
usage_en: Internal only
description_de:
OEM-3D-Messsystem auf Basis der Weißlichtinterferometrie für die Nanopositionier- und Nanomessmaschine NMM-1 von SIOS Meßtechnik GmbH.
description_en:
feature_de:
laterale Auflösung: ca. 1 μm
Messbereich (ohne Stitching): 370 μm x 370 μm
Messbereich (mit Stichting): 25 mm x 25 mm (Messbereich der NMM-1)
feature_en:
pictures: <QuerySet [<Picture: 239417844>]>
cards: <QuerySet [<Card: Card of Elisa, Wirthmann: (True)>, <Card: Card of Yiting, Wu: (True)>]>
funding_sources: <QuerySet [<FundingSource: FundingSource: cris_id: 139453943, name: Deutsche Forschungsgemeinschaft (DFG), abbreviation: DFG>]>
projects: <QuerySet [<Project: Traceable industrial 3D roughness and dimensional measurement using optical 3D microscopy and optical distance sensors (TracOptic), TracOptic, https://www.ptb.de/empir2021/tracoptic/home/, Traceable industrial 3D roughness and dimensional measurement using optical 3D microscopy and optical distance sensors, <p></p><p>To remain competitive European manufacturers strive to make constant improvements in their manufacturing processes. The surface topography of a component part can have a profound effect on the function of the part. This is true across a wide range of industries (such as precision engineering, automotive and medical). It is estimated that surface effects cause 10 % of manufactured parts to fail which has financial implications. Optical measuring systems are widespread in surface and coordinate metrology as they are fast, with high resolution, and contactless (aspects that are essential for the factory of the future). Unfortunately, optical measurements are not often used in industry as they are not traceable. This is due to the complexity of the interaction between the object’s surface and measuring system. This project aims to improve the traceability of 3D roughness and dimensional measurements using optical 3D microscopy and optical distance sensors. Data evaluation, and uncertainty estimation methods will be developed, and be made accessible to industry by good practice guides, publications, training courses etc.</p><p></p>, , 2021-06-01, 2024-05-31, , 2024-05-31, Third Party Funds Group - Sub project, True>]>
publications: <QuerySet [<Publication: Precise measurement of large scale surfaces with micro-topographies without overlapping fields of view by white light interferometry>]>
fobes: <QuerySet []>
orgas: <QuerySet [<Organisation: Lehrstuhl für Fertigungsmesstechnik (FMT), <p>Am Lehrstuhl für Fertigungsmesstechnik erforschen, verbessern und validieren wir neue Prinzipien, Methoden, Verfahren, Mittel, Geräte und Systeme, welche im industriellen Entstehungsprozess von Produkten zur Qualitätssicherung erforderlich sind. Mit unseren Forschungs- und Lehraktivitäten schaffen wir die Grundlagen für innovative Messverfahren für die Qualitätssicherung.</p>, Erlangen, 91052, Nägelsbachstraße, 2999-12-31, Department Maschinenbau, True>]>