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Contactless testing of packaging / Pierre Pfeffer in KUNSTSTOFFE INTERNATIONAL, Vol. 112, N° 2 (2021)
[article]
Titre : Contactless testing of packaging : Comparison of terahertz- and microwave-testing Type de document : texte imprimé Auteurs : Pierre Pfeffer, Auteur ; Thomas Hochrein, Auteur ; Giovanni Schober, Auteur Année de publication : 2021 Article en page(s) : p. 46-49 Langues : Anglais (eng) Catégories : Emballages en matières plastiques
Mesures dimensionnelles sans contact
Micro-ondes
TérahertzIndex. décimale : 668.4 Plastiques, vinyles Résumé : Terahertz and microwave methods offer a wide range of applications for testing of plastic packaging. Already established wall thickness measurements and defect detection are now joined by a wealth of other possible applications that promise process reliability and cost efficiency. Both systems show different strengths and are suitable for different applications. Note de contenu : - Differences between THé and MW
- Saving costs and resources by inline testing
- THz-systems advantageous with foams
- Reliable recognition of defects in packaging
- Moisture and filler content : further applications for the testin methods
- Fig. 1 : The frequency range of terahertz and microwave technology lies between that of radio wave-based systems and that of infrared and UV light-based systems
- Fig. 2 : Principle of thickness measurement: interfaces of different density lead to reflection of terahertz and microwaves. By measuring the temporal behavior and knowing the material-specific propagation speed, the distance traveled and thus the thickness can be inferred
- Fig. 3 : Relationship between the refractive index, which can be determined in real time and inline, and the bulk density for various expanded polymers : since the frequency bandwidth is wider for THz systems than for MW systems, the former are more suitable for testing foams
- Fig. 4 : THz and MW measurement techniques can be used to determine the moisture content of polymers. MW systems are particularly suitable for this purpose
- Fig. 5 : Measuring the frequency-dependent absorbance allows conclusions to be drawn about particle sizes. A wide frequency bandwidth is an important criterion for this purpose
- Fig. 6 : THz and MW methods can also be used for the identification of materialsEn ligne : https://drive.google.com/file/d/1Ps2ZPuXjEl3L6ADmWJx5uHS2fjowfmIZ/view?usp=drive [...] Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=35499
in KUNSTSTOFFE INTERNATIONAL > Vol. 112, N° 2 (2021) . - p. 46-49[article]Réservation
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Code-barres Cote Support Localisation Section Disponibilité 22591 - Périodique Bibliothèque principale Documentaires Disponible How injection molding experts collaborate with AI / Jonathan Lambers in PLASTICS INSIGHTS, Vol. 113, N° 9 (2023)
[article]
Titre : How injection molding experts collaborate with AI : Combining expert knowledge and process data for monitoring and controlling the IM process Type de document : texte imprimé Auteurs : Jonathan Lambers, Auteur ; Jakob Schüder, Auteur ; Giovanni Schober, Auteur Année de publication : 2023 Article en page(s) : p. 55-57 Langues : Anglais (eng) Catégories : Assurance qualité
Industrie 4.0Le concept d’Industrie 4.0 correspond à une nouvelle façon d’organiser les moyens de production : l’objectif est la mise en place d’usines dites "intelligentes" ("smart factories") capables d’une plus grande adaptabilité dans la production et d’une allocation plus efficace des ressources, ouvrant ainsi la voie à une nouvelle révolution industrielle. Ses bases technologiques sont l'Internet des objets et les systèmes cyber-physiques.
Logiciels
Matières plastiques -- Moulage par injection
Numérisation
Réseau bayésienIndex. décimale : 668.4 Plastiques, vinyles Résumé : The German Plastics Center SKZ and Fraunhofer IPA are collaboratively developing a process monitoring and control system for the injection molding (IM) process based on Bayesian Networks. In their research project “ProBayes”, the researchers build a fully networked injection molding cell in the SKZ lab demonstrating a system in live operation that detects deviations in product quality, identifies the most likely cause and issues specific recommendations for action to the machine operator. Note de contenu : - Connecting machine, periphery, and quality measurement systems
- Generation of training data and extension by simulations
- Validating the bayesian network in production
- Fig. 1 : Software architecture of the injection molding cell. MQTT is a communication protocol for machine-to-machine communication
- Fig. 2 : Link to dataset published on EUDAT platform
- Fig. 3 : Structure of the Bayesian Network for the part weight quality characteristic
- Fig. 4 : "Human-in-the-Loop" : Schematic of the demonstrator’s architecture. The data from the injection molding machine and peripheral devices are aggregated by the middleware (Connectware) and transferred to the Bayesian Network for inferenceEn ligne : https://drive.google.com/file/d/1V4o-uKCt6c3Z4De0raWmuQU-zTmmG48K/view?usp=drive [...] Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=40753
in PLASTICS INSIGHTS > Vol. 113, N° 9 (2023) . - p. 55-57[article]Réservation
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Code-barres Cote Support Localisation Section Disponibilité 24326 - Périodique Bibliothèque principale Documentaires Disponible The evolution of non-destructive testing / Giovanni Schober in KUNSTSTOFFE INTERNATIONAL, Vol. 108, N° 9 (09/2018)
[article]
Titre : The evolution of non-destructive testing : Progress in IT facilitates testing in production Type de document : texte imprimé Auteurs : Giovanni Schober, Auteur ; Martin Bastian, Auteur Année de publication : 2018 Article en page(s) : p. 41-44 Langues : Anglais (eng) Catégories : Analyse des données
Contrôle non destructif
Ondes millimétriques
Qualité -- Contrôle
Shearographie
Thermographie
UltrasonsIndex. décimale : 668.4 Plastiques, vinyles Résumé : Humans have honed their senses in the course of evolution. Technical development has created the discipline of non-destructive testing, which today generates huge amounts of data. Ever more sophisticated data evaluation is needed in order to obtain indications of the quality of parts within a time-frame appropriate to production. Note de contenu : - The (still ?) unrivalled human capacity for data reduction
- Accelerated shearography though the lock-in process
- Lossy data compression as a compromise
- Multiple-pulse thermography does not stress the material
- Where radar is superior to ultrasound
- Fig. 1 : Speeding up through parallelization: compared to sequential results evaluation (green), the parallelized evaluation of the 12 CPU cores (yellow) runs about 30 times as fast, on a graphic card (red) about 120 times as fast
- Fig. 2 : Automated testing of a carbon fiber-reinforced lightweight part with interna) foam structure by means of non-contact air ultrasound technology
- Fig. 3 : Multiple pulse thermography system: direct imaging and non-destructive testing of a damaged rotor-blade system by means of thermography
- Fig. 4 : Millimeter-wave technology : the Centerwave 6000 measures the diameter, ovality, wall thickness and the sagging of plastic pipes and displays the values on the monitor of the Ecocontrol 6000 processor systemPermalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=31174
in KUNSTSTOFFE INTERNATIONAL > Vol. 108, N° 9 (09/2018) . - p. 41-44[article]Réservation
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Code-barres Cote Support Localisation Section Disponibilité 20202 - Périodique Bibliothèque principale Documentaires Disponible
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Titre : Transparency in compounding : Inline testing methods for monitoring processes Type de document : texte imprimé Auteurs : Pierre Pfeffer, Auteur ; Norbert Halmen, Auteur ; Thomas Hochrein, Auteur ; Giovanni Schober, Auteur Année de publication : 2021 Article en page(s) : p. 10-13 Langues : Anglais (eng) Catégories : Analyse spectrale
Assurance qualité
Contrôle non destructif
Matières plastiques
Mesures optiques
Micro-ondes
Procédés de fabrication
Térahertz
UltrasonsIndex. décimale : 668.4 Plastiques, vinyles Résumé : The quality of final products can be increased by using measurement technology for monitoring production processes. Interest in it is increasing especially for compounding. There are various existing methods of non-destructive testing that can also be used inline in the manufacturing process. The different methods are suitable for different applications: an overview of the current capabilities and limitations of the various inline methods. Note de contenu : - Ultrasonics : Proven, but temperature-dependent technology
- Optical spectroscopy : Regulating color directly in production
- Microwave and terahertz : Temperature-independent and non-contacting
- The appropriate method for the particular application
- Fig. 1 : An overview of electromagnetic and mechanical waves arranged in the order of frequency and wave length : The red colored areas represent the NDT methods used in plastics processing
- Fig. 2 : Dependence of measurable ultrasonic amplitude (extinction coefficients) of filler content and the accompanying median size of chalk particles in plastics compounds: By using such databank-integrated calibration curves, both of these quality relevant features can be quantified inline by ultrasound
- Fig. 3 : Process chain exemplified by color measurement of dyed plastics products: Dyed compounds are manufactured from various raw materials and processed further, either continuously by extrusion, or discontinuously to injection molded products. All along the process chain there are various possibilities for monitoring color quality
- Fig. 4 : Dependence of a characteristic value, the so-called refractive index determined via terahertz from the degree of melting in a compound or the melt temperature: The degree of melting can be recorded inline by consulting a databank specific to the material
- Fig. 5 : The dependence of so-called intensity, a characteristic value recorded via terahertz from the stochastic appearance of foreign materials in a compound (left), as well as a microscopic image of a machine-related wear particle in the melt (right): A threshold value (red line, left) can be defined by taking a variety of processing states into consideration beyond which the measuring signal can be univocally consigned to a foreign particleEn ligne : https://drive.google.com/file/d/14HvEX29bLDS3vrJDpT7bgV9MOWqmqJhZ/view?usp=drive [...] Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=35712
in KUNSTSTOFFE INTERNATIONAL > Vol. 111, N° 4 (2021) . - p. 10-13[article]Réservation
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Code-barres Cote Support Localisation Section Disponibilité 22682 - Périodique Bibliothèque principale Documentaires Disponible