KEE Group is a privately held company founded in 1965 that focuses on providing innovative decorative solutions through six facilities globally. They have capabilities in plastic decoration through various printing, coating, and finishing techniques. They specialize in In-Mold Decoration (IMD) which allows pre-decorated films or shells to be inserted into injection molds. Their IMD capabilities include advanced decorations like 3D textures and the integration of touch screens. They have also learned lessons about managing tolerances and risks when designing parts for IMD.
The document discusses how technology and social media have changed communication for younger generations. It provides tips on using social media platforms like Facebook and Twitter effectively. It also discusses the importance of social media and technology in staying connected to others while maintaining real-world relationships and community. Pope Benedict XVI's message is cited, encouraging the use of online connections to enhance, not replace, physical interactions.
This document appears to be a study guide for a final exam asking students to identify different plant species based on visual characteristics like the number of needles and tail color. It lists the key distinguishing features of 3, 2, and 5 needle plants as well as mentioning a reddish tail but provides no further details about the specific species.
Sistem ekonomi tradisional mengandalkan produksi sendiri untuk memenuhi kebutuhan dengan sumber daya alam setempat. Sistem ini tidak mengenal persaingan namun juga kurang memotivasi kemajuan.
The document summarizes the key points from a staff meeting about meeting the needs of every student. It discusses the importance of engaging students within the first 18 seconds, changing learning states every 7-10 minutes, and allowing students to make personal meaning every 20-30 minutes. It also covers addressing the needs of students with disabilities, providing accommodations in content delivery and assessments, developing strong study skills, and adapting lessons and materials to meet individual student needs and goals. The overall message is that teachers must teach the specific students they have right now and find ways to inspire all students.
KEE Group is a privately held company founded in 1965 that focuses on providing innovative decorative solutions through six facilities globally. They have capabilities in plastic decoration through various printing, coating, and finishing techniques. They specialize in In-Mold Decoration (IMD) which allows pre-decorated films or shells to be inserted into injection molds. Their IMD capabilities include advanced decorations like 3D textures and the integration of touch screens. They have also learned lessons about managing tolerances and risks when designing parts for IMD.
The document discusses how technology and social media have changed communication for younger generations. It provides tips on using social media platforms like Facebook and Twitter effectively. It also discusses the importance of social media and technology in staying connected to others while maintaining real-world relationships and community. Pope Benedict XVI's message is cited, encouraging the use of online connections to enhance, not replace, physical interactions.
This document appears to be a study guide for a final exam asking students to identify different plant species based on visual characteristics like the number of needles and tail color. It lists the key distinguishing features of 3, 2, and 5 needle plants as well as mentioning a reddish tail but provides no further details about the specific species.
Sistem ekonomi tradisional mengandalkan produksi sendiri untuk memenuhi kebutuhan dengan sumber daya alam setempat. Sistem ini tidak mengenal persaingan namun juga kurang memotivasi kemajuan.
The document summarizes the key points from a staff meeting about meeting the needs of every student. It discusses the importance of engaging students within the first 18 seconds, changing learning states every 7-10 minutes, and allowing students to make personal meaning every 20-30 minutes. It also covers addressing the needs of students with disabilities, providing accommodations in content delivery and assessments, developing strong study skills, and adapting lessons and materials to meet individual student needs and goals. The overall message is that teachers must teach the specific students they have right now and find ways to inspire all students.
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."
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. Geld verdienen met kleine series plaatwerk
HD-1003 ATC
Kantbank met automatische gereedschapswisselaar
V 1.0 – 09.05.2012
AMADA HD-1003 ATC
Huidige problemen bij de productie
van gebogen delen
Seriegroottes en afroeporders worden steeds kleiner
Complexer wordende delen en gereedschapsopstellingen
Te lange voorbereidingstijden in vergelijk met productietijden
Fouten bij het handmatige stelproces
Afkeur door wisselende materiaalkwaliteit
Verlengde set-up tijd omdat gereedschappen eerst gekozen moeten worden
Goede operators zijn moeilijk te vinden
Machines zijn niet te gebruiken tijdens het schrijven van programma´s
Kapitaal dat niet vrij is omdat voorraaddelen geproduceerd worden (Opslagkosten!)
2. AMADA HD-1003 ATC
De oplossing van AMADA
HD-1003 ATC
Kantbank met automatische gereedschapswissel
AMADA HD-1003 ATC
De oplossing van AMADA
HD-ATC = een servo/hydraulische kantpers met automatische gereedschapswissel
De machine stelt automatisch haar gereedschappen, hetgeen de steltijden reduceert
en de belasting van de bediener minimaliseert
Aanzienlijke bespoediging van het snelproces, ook bij meerdere
gereedschapsstations. Nauwkeurigere positionering van de gereedschappen.
Ideaal voor kleine seriegroottes mede door het automatische hoekmeetsysteem BI-S
Flexibel door vergrote inbouwhoogte van 620 mm
Motorisch verrijdbaar voetpedaal verplaatst zich naar het gekozen
gereedschapsstation
Δ- X achteraanslag-functie
Externe 3D- CAM software maakt volautomatische programma´s voor het systeem
Unieke technologie, elders in de markt niet verkrijgbaar
3. AMADA HD-1003 ATC
Componenten
hybride
aandrijving opslagplaats voor stempels
AMNC
besturing
AKAS III
veiligheids-
voorziening
opslagplaats
voor magazijnen
Hoekmeet-
systeem BI-S
veiligheidsluik
8-assen achteraanslag
verrijdbaar
incl. Δ-X functie
voetpedaal
AMADA HD-1003 ATC
Technische gegevens
perskracht 1000 kN
kantlengte 3000 mm
doorgang tussen
machinestaanders 2700 mm
inbouwhoogte 620 mm
slag 200 mm
uitlading 450 mm
4. AMADA HD-1003 ATC
Details gereedschapswisselaar ATC
gereedschapsmagazijn
voor stempels
AKASIII
veiligheids-
voorziening
BI-S hoek- 4 manipulatoren
meetsysteem voor het wisselen van
gereedschap
gereedschapsmagazijn
met de hand verschuifbaar voor matrijzen
veiligheidsluik met
gewichtscompensatie systeem
AMADA HD-1003 ATC
HD-ATC gereedschapswisselaar
15 magazijnen voor stempels, 18 magazijnen voor
matrijzen, lengte telkens maximaal 800mm
Theoretische gereedschapscapaciteit 26.400mm!
Nooit meer zoeken naar gereedschappen
Beschermde gereedschapsopslag
5. AMADA HD-1003 ATC
HD-ATC gereedschapswisselaar
In totaal 4 manipulatoren stellen
volautomatisch het gereedschap
Tot 90% tijdsbesparing in vergelijking tot
het handmatige stellen
Positionering aanzienlijk nauwkeuriger
dan bij traditionele werkwijze
AMADA HD-1003 ATC
Bijzondere eigenschappen van de HD- kantpers
Unieke servo/ hydraulische aandrijving
van de bovenste persbalk
Gepatenteerd bombeersysteem
geïntegreerd in de onderste persbalk, voor
de beste buigresultaten
6. AMADA HD-1003 ATC
Servo/ hydraulisch aandrijfconcept
zeer nauwkeurig AC Hydrauliek-
Data I/O blok
Servo-
motor
dynamisch
cilinder
constante buigresultaten
AMNC-NT
M P
stil pers-
balken
zuigerpomp
energie-efficiënt
Signaal positie persbalk Lineairmeetlat
milieuvriendelijk
AMADA HD-1003 ATC
Δ-X achteraanslag
6-assige achteraanslag aangevuld
met de optionele Δ-X functie
Hoogste precisie en snelheid
7. AMADA HD-1003 ATC
Automatisch hoekmeetsysteem BI-S
Tactiele sensoren, zijdelings motorisch
verrijdbaar, gerangschikt voor en achter
de matrijs
Tijdens het kanten meet en corrigeert
BI-S de buighoek
Automatische registratie en correctie
van de terugvering
Inzetbaar met 1V- matrijzen 6-20 mm
AMADA HD-1003 ATC
Motorisch verrijdbaar voetpedaal
Het motorisch aangedreven
voetpedaal verplaatst zich naar het
gereedschapsstation waarop de
volgende buiging wordt uitgevoerd
Reduceert productietijd en maakt
het proces ergonomischer
Beveiliging middels lichtscherm
8. AMADA HD-1003 ATC
Besturing / Software
AMADA AMNC- externe CAM software
besturing BendCam incl. Dr. ABE Bend
AMADA HD-1003 ATC
Video
9. AMADA HD-1003 ATC
HD- ATC - steltijdvoorbeelden
1 2 3
Steltijd voor een gezamenlijke gereedschaps lay-out voor 3 componenten 1‘ 32‘‘
AMADA HD-1003 ATC
Verkorting van de doorlooptijden met HD-ATC
start verdere
A A A A B B B B C C C C D D D D verwerking
batches 1 - 4
A B C D
A B C D
A B C D
A B C D
batch 1
batch 2 Tijdswinst!
batch 3
batch 4
start verdere
verwerking
10. AMADA HD-1003 ATC
Traditionele materiaalstroom
!
1. Een of meerdere
snijmachines 5. Vertraagde
3. Delen worden traditioneel
produceren de batch als uitlevering van
per partij gekant
meervoudige producties de batch
AA A
A
A AA A
AA A B C
A
A
AAAAAA BB CC
B C B
B
B C B
BBBBBB CC BB CC
CC B CC
CCCCCCC
2. Verschillende werkstukken 4. Pakken voor de verdere
gaan separaat naar de verwerking bewerkelijk.
kantpersen Lange wachttijd voordat
vervolgprocessen kunnen beginnen.
AMADA HD-1003 ATC
Optimale materiaalstroom met HD-ATC
!
1. Delen worden genest 3. Enkelvoudige 5. Tijdswinst bij de
geproduceerd productie van de uitlevering
badges op
HD-ATC
A A A
AAA BBB B B B
CCC C C C
DD EE FF H D DE H
E
GG HH G F G FG G
2. De badges gaan 4. Onmiddelijk begin van
samengevoegd de verdere verwerking
naar de HD-ATC