The document discusses organic field effect transistors (OFETs) for use in rollable displays. It describes how OFETs deposited by room-temperature processes on plastic enable an extremely thin, flexible active matrix backplane. This allows for the construction of rollable displays that are much thinner and lighter than traditional glass-based displays. The document outlines the key technology choices for the substrate, matrix stack, patterning methods, and frontplane. It also provides examples of companies developing this technology, like Polymer Vision which has successfully introduced a rollable display solution using proven manufacturing processes.
LioniX is a leading provider of micro- and nano-technology components and co-development of products for its customers. It focuses on applications integrating optics, microfluidics, and optofluidics including surface functionalization. LioniX offers design to manufacturing services, from concept to production, and provides foundry services and small to medium volume manufacturing.
Hybrid processes combine multiple manufacturing technologies to overcome limitations of conventional machining. This presentation defines hybrid processes as combining active principles that significantly influence the machining process. It provides examples of hybrid technologies like vibration-assisted machining, laser-assisted machining, and combinations of EDM/ECM with other processes. The goal of hybrid processes is to enable machining of difficult materials more efficiently.
The document discusses organic field effect transistors (OFETs) for use in rollable displays. It describes how OFETs deposited by room-temperature processes on plastic enable an extremely thin, flexible active matrix backplane. This allows for the construction of rollable displays that are much thinner and lighter than traditional glass-based displays. The document outlines the key technology choices for the substrate, matrix stack, patterning methods, and frontplane. It also provides examples of companies developing this technology, like Polymer Vision which has successfully introduced a rollable display solution using proven manufacturing processes.
LioniX is a leading provider of micro- and nano-technology components and co-development of products for its customers. It focuses on applications integrating optics, microfluidics, and optofluidics including surface functionalization. LioniX offers design to manufacturing services, from concept to production, and provides foundry services and small to medium volume manufacturing.
Hybrid processes combine multiple manufacturing technologies to overcome limitations of conventional machining. This presentation defines hybrid processes as combining active principles that significantly influence the machining process. It provides examples of hybrid technologies like vibration-assisted machining, laser-assisted machining, and combinations of EDM/ECM with other processes. The goal of hybrid processes is to enable machining of difficult materials more efficiently.
This document discusses embedded operating systems and processors. It covers several embedded operating systems including DOS, QNX, Embedded Linux, and Microsoft embedded operating systems. It also discusses embedded processors from Intel, AMD, DMP and VIA with specifications for the Geode LX, GX2, and CX series. The document provides an overview of options for embedded operating systems and processors.
This document provides an overview of diffuser films and hard coated films from Busines Unit CAS / FUNCTIONAL FILMS. It discusses the optical properties and applications of various Makrofol films for light management and electroplated parts, including LM 309, LM 905, LM 228, LM 322, and LM 243 diffuser films. It also presents the new ViviTouch technology in Mophie's Pulse mobile game controller.
The document discusses new machining concepts and technologies for advanced metal cutting. It begins with an agenda that outlines topics such as MAG being a global solutions provider, process integration as an innovation driver, complete machining of gears using a TurnMill center with an integrated hobbing unit, fine boring and honing on machining centers, free of twist turning, combined turning and grinding, high pressure cooling, and cryogenic machining. The document then provides details on some of these topics, including concepts for milling, turning and gearing using modular machines, and examples of results from fine boring and honing processes.
The document discusses inkjet printing of functional materials on plasma treated surfaces. It explores using a μPlasma printhead to selectively treat substrate surfaces, improving their wetting behavior and allowing for more precise inkjet printing. Experiments showed that plasma treatment increased surface energy and wettability over time. Small plasma spots around 1mm in diameter were achieved and enabled localized inkjet printing within the treated areas at high resolution. A design of experiments approach was used to model how plasma spot size could be influenced by varying print height and number of treatments.
1. Near Net Shape technologies like thixomolding and rheocasting allow for shaping metals in a semi-solid state, producing parts with tight tolerances and reduced machining compared to conventional casting.
2. Thixomolding involves reheating alloy pellets into the semi-solid state and injecting into a mold, while rheocasting uses a machine to slowly fill a mold with semi-solid metal slurry.
3. Both technologies are being applied industrially, with thixomolding common for magnesium parts and rheocasting still at a pre-industrial stage for aluminum. Examples are given of thixomolded magnesium components for applications like
The document discusses organic light-emitting diodes (OLEDs) and their potential applications in flexible electronics. It describes OLED basics including their operation, materials used, and current efficiencies between 5-10 lum/W and up to 100 lum/W in some cases. The document also outlines Holst Centre's role in flexible electronics research through its facilities and partnerships with industry.
This document discusses optimizing manufacturing processes by combining lithography, micro milling, EDM, and ECM. It provides examples of how these processes can be combined to enable new applications in micro/nano manufacturing, tooling, and replication. Specifically, it describes minimizing ECM tool sizes using lithography, combining hot embossing and interference lithography to create motheye structures on lenses, and combining interference and nanoimprint lithography for large-scale patterning. The overall aim is to leverage the advantages of both silicon-based and non-silicon processes to establish new integrated process flows for micro/nano integration and manufacturing.
This document summarizes the transition of Besi Packaging Company from an engineer-to-order (ETO) model to an assemble-to-order (ATO) model. It outlines the goals of establishing modular product structures and standardized components to reduce engineering costs and lead times. It describes the approach taken, which involved communicating the vision across departments and tracking key performance indicators. The results included significantly reduced throughput times, increased profitability, and the establishment of new product lines using a configure-price-quote model. In conclusion, it emphasizes that such cultural changes require strong leadership, communication, and perseverance through market challenges.
Meer informatie en whitepaper downloaden: https://prker.co/WP_SoortenCorrosie_NL
Corrosiebeheer is essentieel voor productiviteit, veiligheid en winstgevendheid. Deze infographic toont soorten corrosie, oorzaken en best practices.
Corrosie onder isolatie is een veel voorkomend probleem in industriële installaties. In dit webinar gaat Subject Matter Expert, Geert Henk Wijnants in op de huidige stand van zaken rond het beheersen van corrosie onder isolatie. Hierbij legt hij de link met de binnen World Class Maintence (WCM) ontwikkelde best practice.
Hij toont u dat het mogelijk is om dit lastige schademechanisme aantoonbaar te beheersen.
Meer dan ooit heeft ieder laboratorium te maken met kwaliteitsborging en risicobeheersing. Of het nu gaat om een research-, diagnostiek-, productielab of een steriliteitslab bij een groot farmaceutisch bedrijf; in alle sectoren moet de kwaliteit van het eindproduct aantoonbaar en geborgd zijn. Veel tijd en inspanning wordt daarom gestoken in het valideren van testen en het kalibreren van apparatuur. Maar wat als de testomgeving niet (meer) voldoet aan de eisen die daaraan gesteld zijn? Ruimtecondities en utilities kunnen verstrekkende gevolgen hebben op uw testresultaten. In deze presentatie gaan we dieper in op het nut en de noodzaak van het valideren en commissionen van laboratoriumruimten en andere testomgevingen.
This document discusses embedded operating systems and processors. It covers several embedded operating systems including DOS, QNX, Embedded Linux, and Microsoft embedded operating systems. It also discusses embedded processors from Intel, AMD, DMP and VIA with specifications for the Geode LX, GX2, and CX series. The document provides an overview of options for embedded operating systems and processors.
This document provides an overview of diffuser films and hard coated films from Busines Unit CAS / FUNCTIONAL FILMS. It discusses the optical properties and applications of various Makrofol films for light management and electroplated parts, including LM 309, LM 905, LM 228, LM 322, and LM 243 diffuser films. It also presents the new ViviTouch technology in Mophie's Pulse mobile game controller.
The document discusses new machining concepts and technologies for advanced metal cutting. It begins with an agenda that outlines topics such as MAG being a global solutions provider, process integration as an innovation driver, complete machining of gears using a TurnMill center with an integrated hobbing unit, fine boring and honing on machining centers, free of twist turning, combined turning and grinding, high pressure cooling, and cryogenic machining. The document then provides details on some of these topics, including concepts for milling, turning and gearing using modular machines, and examples of results from fine boring and honing processes.
The document discusses inkjet printing of functional materials on plasma treated surfaces. It explores using a μPlasma printhead to selectively treat substrate surfaces, improving their wetting behavior and allowing for more precise inkjet printing. Experiments showed that plasma treatment increased surface energy and wettability over time. Small plasma spots around 1mm in diameter were achieved and enabled localized inkjet printing within the treated areas at high resolution. A design of experiments approach was used to model how plasma spot size could be influenced by varying print height and number of treatments.
1. Near Net Shape technologies like thixomolding and rheocasting allow for shaping metals in a semi-solid state, producing parts with tight tolerances and reduced machining compared to conventional casting.
2. Thixomolding involves reheating alloy pellets into the semi-solid state and injecting into a mold, while rheocasting uses a machine to slowly fill a mold with semi-solid metal slurry.
3. Both technologies are being applied industrially, with thixomolding common for magnesium parts and rheocasting still at a pre-industrial stage for aluminum. Examples are given of thixomolded magnesium components for applications like
The document discusses organic light-emitting diodes (OLEDs) and their potential applications in flexible electronics. It describes OLED basics including their operation, materials used, and current efficiencies between 5-10 lum/W and up to 100 lum/W in some cases. The document also outlines Holst Centre's role in flexible electronics research through its facilities and partnerships with industry.
This document discusses optimizing manufacturing processes by combining lithography, micro milling, EDM, and ECM. It provides examples of how these processes can be combined to enable new applications in micro/nano manufacturing, tooling, and replication. Specifically, it describes minimizing ECM tool sizes using lithography, combining hot embossing and interference lithography to create motheye structures on lenses, and combining interference and nanoimprint lithography for large-scale patterning. The overall aim is to leverage the advantages of both silicon-based and non-silicon processes to establish new integrated process flows for micro/nano integration and manufacturing.
This document summarizes the transition of Besi Packaging Company from an engineer-to-order (ETO) model to an assemble-to-order (ATO) model. It outlines the goals of establishing modular product structures and standardized components to reduce engineering costs and lead times. It describes the approach taken, which involved communicating the vision across departments and tracking key performance indicators. The results included significantly reduced throughput times, increased profitability, and the establishment of new product lines using a configure-price-quote model. In conclusion, it emphasizes that such cultural changes require strong leadership, communication, and perseverance through market challenges.
Meer informatie en whitepaper downloaden: https://prker.co/WP_SoortenCorrosie_NL
Corrosiebeheer is essentieel voor productiviteit, veiligheid en winstgevendheid. Deze infographic toont soorten corrosie, oorzaken en best practices.
Corrosie onder isolatie is een veel voorkomend probleem in industriële installaties. In dit webinar gaat Subject Matter Expert, Geert Henk Wijnants in op de huidige stand van zaken rond het beheersen van corrosie onder isolatie. Hierbij legt hij de link met de binnen World Class Maintence (WCM) ontwikkelde best practice.
Hij toont u dat het mogelijk is om dit lastige schademechanisme aantoonbaar te beheersen.
Meer dan ooit heeft ieder laboratorium te maken met kwaliteitsborging en risicobeheersing. Of het nu gaat om een research-, diagnostiek-, productielab of een steriliteitslab bij een groot farmaceutisch bedrijf; in alle sectoren moet de kwaliteit van het eindproduct aantoonbaar en geborgd zijn. Veel tijd en inspanning wordt daarom gestoken in het valideren van testen en het kalibreren van apparatuur. Maar wat als de testomgeving niet (meer) voldoet aan de eisen die daaraan gesteld zijn? Ruimtecondities en utilities kunnen verstrekkende gevolgen hebben op uw testresultaten. In deze presentatie gaan we dieper in op het nut en de noodzaak van het valideren en commissionen van laboratoriumruimten en andere testomgevingen.
The document discusses adhesive bonding as an alternative joining method to welding, soldering, mechanical fasteners, and other techniques. It covers bonding theory, surface treatment methods, adhesive types, design considerations, examples of bonding applications, and trends in the industry. Success in bonding projects requires close collaboration between the customer, adhesive manufacturer, and equipment suppliers from the initial design phase.
The document discusses achieving reliable micro interconnections with long lifetime expectations. It describes common failure mechanisms for solder and adhesive micro interconnects, such as fatigue, creep, corrosion and brittle fracture. It also discusses how to improve interconnect design through careful material selection, understanding failure mechanisms, analyzing stress conditions, improving product design with modeling, and exploring new technologies like laser-induced forward transfer. The goal is to create systems with enhanced lifetimes through optimized interconnect design and technology.
Benjamin Mehlmann - Fraunhofer InstituteThemadagen
This document discusses laser micro joining processes and applications in research and development. It outlines laser beam sources and beam manipulation strategies used for micro joining applications in energy storage, electronics, and lightweight construction. Current approaches in research include welding copper with spatial and temporal power modulation to increase weld depth and quality. Developments aim to enable precision melt engineering through dynamic beam manipulation and modeling of laser micro joining processes.
This document discusses organic photovoltaic (OPV) technology and the Solliance OPV Program. The program aims to develop a complete technology toolbox for OPV to improve efficiency, lifetime, and lower costs. Current status shows efficiencies over 10% in the lab but lower efficiencies in modules. The program focuses on both solution processing and evaporated OPV using scalable printing and coating techniques. The goal is to achieve over 13% cell efficiency, 5% module efficiency, and manufacturing costs below €0.50/Wp by 2015.
This document provides an overview of a presentation on organic and printed electronics. The presentation covers topics such as OLED lighting and its potential market impact if OLEDs capture 10% of the lighting replacement market. It also discusses flexible OLEDs and OPVs, noting their potential applications in rollable, wearable, and easily integrated devices. The presentation reviews roll-to-roll manufacturing processes for these applications and the importance of techniques like slot die coating to enable low-cost, large-area production. It emphasizes the need for strict contamination control in OLED manufacturing. Finally, it provides a high-level summary and introduces the Holst Centre's work on large-area printing and coating technologies.
The document provides an introduction to organic and printed electronics. It discusses several societal challenges such as an aging population, increasing costs of healthcare, food waste, and energy needs. Organic and printed electronics offer advantages like low cost production using printing processes, flexibility, and lower environmental impact. Examples of applications mentioned include flexible displays, plastic solar cells, RFID tags, and electronic textiles. The market for printed electronics is predicted to grow substantially over the coming years across various industries such as healthcare, consumer packaging, and displays.
The document discusses research on smart materials for conformable electronics and photonics being conducted by Holst Centre. Holst Centre is an independent research organization co-founded by IMEC and TNO that focuses on creating generic technologies for flexible electronics. The presentation provides an overview of Holst Centre's work on organic light-emitting diodes (OLEDs) including applications, lifetime considerations, conformable technology approaches, and a vision for conformable electronic and photonic systems featuring wearable and stretchable designs.
Avantes is a developer and manufacturer of compact spectrometers, light sources, fiber optics, and accessories. It has sold over 17,000 spectrometers since 1994 and has annual worldwide sales of 10 million euros. Avantes uses its core spectrometer technology across multiple markets including life sciences and health, industrial processes, optical diagnosis spectroscopy and imaging, safety and security, agriculture and food, and green energy and environment. The document provides examples of spectroscopy applications for Avantes' products in areas such as LED measurements, solar panel measurements, thin film measurements, blood analyses, and food quality analysis.
The document describes the development of a low-cost ammonia sensor called the miniDOAS that uses UV spectrometry. It was created to address the need for more affordable ammonia monitoring by adapting the established Differential Optical Absorption Spectroscopy (DOAS) technique using less expensive components. Testing showed it can measure ammonia concentrations comparably to the research-grade RIVM DOAS system, but at a fraction of the cost. Further development aims to commercialize the miniDOAS for wider air quality monitoring and research applications.
1) Additive manufacturing (AM) opens revolutionary opportunities for high tech equipment development by enabling new and innovative mechatronic system designs.
2) AM can help address challenges for high tech equipment like improving accuracy, productivity, and reducing costs by providing ultimate design freedom and integration capabilities.
3) For high tech systems, AM enables new solutions like lightweight, integrated, and freeform designs which conventional manufacturing cannot achieve. AM moves manufacturing from "design for manufacturing" to "manufacturing for design."
1. Corrosiepreventie door materiaalkeuze,
ontwerp en laskwaliteit
I M j l i L h t LIr. Marjolein van Loenhout – van Leeuwen
Materiaalkunde TU Delftate aa u de U e t
Schade en corrosieonderzoek Stork FDO B.V.
Materiaal selectie Fluor B.V.
Consultancy corrosie en inspectie Applus RTD
1. Introductie
2. Materiaalselectie
3. Ontwerp
4. Laskwaliteit
2. Introductie: Oorzaken schade
Materiaal degradatie (30-50% van de lekkages)
Proces upset condities
Gebrek aan onderhoudsprocedures
Falen van controlesystemen
Operationele fouten/ misoperatie
Slecht weer
| 3
Introductie: corrosiepreventie
Het voorkomen van corrosie door in de ontwerp- en
d f k h d ‘ ll ’ l kproductiefase, rekening te houden met ‘alle’ mogelijke
variabelen:
J i te m te i l ele tieƒ Juiste materiaalselectie
ƒ Verandering van omgeving
T i b h i lƒ Toepassing van beschermingslagen
ƒ Verandering van potentialen
G d tƒ Goed ontwerp
ƒ Juiste laskwaliteit
fKeuze afhankelijke van veiligheid, beschikbaarheid en
kosten
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3. Introductie: corrosiepreventie
Om het ontwerp aan de eisen te laten voldoen is het
b l k d k d h k lbelangrijk deskundigen in te schakelen:
ƒ Corrosiedeskundige voor corrosieanalyses en
m te i l ele tiemateriaalselectie
ƒ NDO expert om soort en locaties voor toekomstige
inspecties te bepalen en vast te leggeninspecties te bepalen en vast te leggen
ƒ Kwaliteitscontroles uit te voeren tijdens constructie en
opleveringoplevering
ƒ Alvast referentiemetingen uit te voeren (nulmetingen)
| 5
1. Introductie
2. Materiaalselectie
3. Ontwerp
4. Laskwaliteit
5. Materiaalselectie
Evaluatie van uitwendige condities
Omgevingsfactoren:
• Temperatuur
• Industriële omgeving
• Splash zones
¾ Aantasting voorkomen door eventueel toepassen van
ti f d klcoating of deklaag
¾ Ook een coating / deklaag moet geschikt zijn voor de
heersende omstandighedenheersende omstandigheden
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Materiaalselectie
De uiteindelijk keuze wordt bepaald door:
Materiaaleigenschappen
ƒ Corrosieve eigenschappen
ƒ Mechanische eigenschappen
Levensduur van onderdeel/installatie
Betrouwbaarheid en veiligheid
Fabrikage aspecten
Kosten voor materialen en fabrikage
Inspectie en monitoring mogelijkheden en kostenp g g j
Kosten voor onderhoud, waaronder corrosion control
Beschikbaarheid en levertijdj
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6. Materiaalselectie - opties
Koolstofstaal wordt het meest gebruikt
ƒ Sterk
ƒ Makkelijk te fabriceren
ƒ Relatief goedkoop
ƒ Nadeel: niet erg corrosiebestendig
Austenitisch roestvaststaal
ƒ Passieve laag
ƒ Behoorlijk corrosiebestendig in diverse milieus
ƒ Grootste zorg meestal chloride spanningscorrosieg p g
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Materiaalselectie - opties
Duplex roestvaststaal
ƒ Goede corrosiebestendigheid in veel milieus
ƒ Minder last van spanningscorrosie tov austenieten
ƒ Lastiger te fabriceren en te lassen
Nikkel-legeringen, koper, aluminium, titanium en
kunststoffen
ƒ Ieder materiaal heeft zijn eigen mogelijkheden en
b kibeperkingen
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9. Ontwerp
Door een spleet op te vullen met isolerend materiaal wordt
l h kgalvanische corrosie voorkomen
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Ontwerp
Ook bij toepassen van coating speelt het ontwerp een
b l k lbelangrijke rol
| 18
10. Ontwerp
Spleet /onder neerslag corrosie
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Ontwerp
Samenvattend:
Tijdens het ontwerp dient rekening gehouden te worden met:
Voorkomen van ophoping van medium, drainage
Voorkomen van spleten
Goede bereikbaarheid voor inspectie en vervanging
Mogelijkheden en beperkingen van coatings
Voorkomen galvanische koppeling
Beperking spanningen
Vermijd scherpe bochte en vernauwingenj p g
Vermijd lokale verhitting
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11. 1. Introductie
2. Materiaalselectie
3. Ontwerp
4. Laskwaliteit
Laskwaliteit
Factoren die de lasparameters (mede) bepalen:
Een las moet sterk genoeg zijn om te functioneren
Spleten of onregelmatigheden in de las kunnen leiden tot
versnelde corrosie: volledige doorlassing is daarom beter
dan een hoeklas
R l k t / it it i d lRuwe lassen en kraters/porositeiten in de las geven
aanleiding tot versnelde corrosie
Nabewerken van de las beperkt de kans op corrosieNabewerken van de las beperkt de kans op corrosie
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12. Laskwaliteit
Ook de ruwheid van de las beïnvloedt
de corrosiebestendigheid
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Laskwaliteit
Om de laskwaliteit te waarborgen zijn er:
Tijdens ontwerpfase
• Lasmethode kwalificaties
• Lassers kwalificaties
Tijdens productiefase: Inspecties aan lassen:
• Visueel onderzoek
• Ultrasoon onderzoek
• Röntgen onderzoek
PMI• PMI
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15. Laskwaliteit - voorbeelden
RVS beschadigd met CS gereedschap
| 29
Laskwaliteit
Controle van laskwaliteit met een Röntgen onderzoek
| 30
16. Applus RTD role in Asset Integrity Management
Asset Integrity
Asset Integrity Management
g y
Asset Integrity Management
Operations PhaseNew Construction Phase
Operate:Design MaintainCommission Operate:
to Design Intent
Design Maintain
Fabrication &
Construction
Commission
Construction
I t t d I ti E i i d NDT&I
| 31| 31
Integrated Inspection Engineering and NDT&I
Services Applus RTD
Partner bij ontwerp, tussentijdse inspecties en
l d b l ll d b krestlevensduur bepaling en alles wat daarbij komt
ƒ Materiaalselectie
ƒ Corrosieanalyses
ƒ Risk based inspection analyses
ƒ Meedenken bij ontwerp mbt corrosie, inspecties,
monitoring, etc
I ti l kƒ Inspectieplannen maken
ƒ Inspecties uitvoeren
ƒ Standaard NDO
ƒ Kwaliteitscontrole
ƒ Evaluatie en advies
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