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Industrieanwendungen
• High Performance Drying and Thermal Processing within Seconds | #197
• NIR-Technologie – ein neuer Ansatz für thermische Prozesse bei der Verpackung von Pharmaprodukten | #166
• Spot Repair mit NIR | #127
Metallbandbeschichtung und Stahl
• NIR Coatings with a 5-Second Curing Cycle Specially Formulated for Marcegaglia´s Coil Coating Line | #366
• aLITE-Technology – Fully Electro-Thermal Surface Processing and no CO2-Emissions | #348
• Effects of Highly Absorbing Pigments on Near Infrared Cured Polyester/Melamine Coil Coating | #342
• Effects of highly absorbing pigments on near infrared cured polyester/melamine coil coatings | #328
• Zero CO2-Emissions with high Energy Saving Potential | #316
• Electro-thermal Driers Allow Zero CO2-Emission Operation with Additional Large Potential of Energy Reduction in Coil Coating | #308
• Advancements in Thermal Drying Processes; Can Further Efficiency be Achieved? | #230
• Alternative Changes and Strategies for Energy Savings with New Compact Coil Coating Concepts | #227
• Coil Coating für kleine Lose | #225
• New Supply Chains and New Opportunities for Coil Coaters to Gain Market Share of Post-Painted Complete Good | #224
• CO2-freie organische Bandbeschichtung bis 2020 | #219
• New Opportunities, Added Value and Lower Cost Coil Coating with Strong Reduced Emissions | #216
• CO2-Free Coil Coating – Naive Dream or Realistic Scenario? | #208
• Organic Color Coating of Stainless Steel | #207
• Novel Approaches in NIR-Curing Technology | #206
• Inline-Bandbeschichtung on Demand – Bandprozesse in einem Fluss | #202
• Vergleich der Trocknungstechnologien bei Bandbeschichtungen/ Evaluation of Drying Technologies in Coating Application | #200
• Clean Technologies in Coil Coating – Present and Future Advances | #194
• Coats of Many Hues and Roles | #193
• New Innovative Powder Coating Technology for Coil Coating! | #192
• Green Solutions in Coil Coating –Can it be affordable as well as profitable? | #191
• New Process Integrated in Galvanizing Line – Added Value Grants Future Success! | #189
• Technische Konzepte für Bandbeschichtungsverfahren in Compact Coil Coating Anlagen | #188
• Strategies for Cutting Production Costs in Coating Lines | #187
• Reticulation of Coatings for Coil-Coating in NIR-Ovens | #186
• Trocknen im Schnelldurchgang | #185
• Inline Bandbeschichtungen gehört die Zukunft | #184
• Metallurgica Marcegaglia Hot Dip Galvanizing Lines with Inline Painting | #183
• New Solutions in Coil Coating Production | #182
• Gaining Money in Crisis – Replacement and Modernization Investments in Coil Processing Lines for Reduced Operation Cost | #181
• New Changes for Success even in Crises – Technological Opportunities for Cost Savings and Efficiency Increase in Strip Processing | #180
• Essential Cost Saving Opportunities to Earn Money in Crisis | #179
• Kompakte Bandbeschichtungsanlagen für Effektlackierung und tiefziehfähige Grundierung „Technische Konzepte für Bandbeschichtungsverfahren in Kompaktanlagen“ | #178
• Kompakte Bandbeschichtungsanlagen für Effektlackierung und tiefziehfähige Grundierung „Einführung und Überblick“ | #177
• NIR-Based Integrated Modular Solutions for CCL`s – Energy Savings, Ecological Friendly and Reduction of Conversion Costs in Organic Coil Coating | #176
• The Science of Near Infra-Red Curing | #175
• NIR for Electro Coatings | #174
• Application Potential of NIR-Technology in Coil Processing Lines | #173
• Integrated Modular Solutions for Colour Coating Lines | #172
• The Coupled Galvanising and Painting Line at Marcegaglia Ravenna | #171
• Cost Drivers in Coil Coating – Most expected, mostly unexpected and partially even unknown | #170
• Instant Curing – Near-infrared technology can substantially improve production line efficiencies by reducing curing times to mere seconds |#169
• NIR Cost Drivers in Coil Coating – Most Expected, Most Unexpected and Mostly Unexpected Ones! | #168
• Colour Coating on Demand – A Dream Comes True | #167
• Jupiter Aluminum Pioneers NIR InfraRed | #165
• Raumfahrttechnologie ermöglicht ultimative Vernetzungsprozesse bei der Bandbeschichtung | #164
• NIR-Technology – ultra fast drying in metal processes | #163
• Ultra-fast curing technology for coil coating | #162
• Colour Coating on Demand – Coil Coating has been changed now? | #161
• NIR changes today’s coil processes – technology overview and actual experience outline | #160
• New, Econmic Coil Coating Lines Utilising NIR-Drying Technology | #159
• Added value and new markets with inline coating in galvanising lines | #158
• “One, two … cured!“ Space technology provides ultimate cure, Becker Germany invests in NIR-lab equipment! | #157
• New Opportunities for Inline Paint Applications in Galvanizing Linese | #156
• ”Coil Coating on Demand” – Farbbeschichtungsanlage in der Größe eines Wohnzimmers | #155
• Coil Coating on demand – a colour coating line fitting in a living room | #154
• New Concept of high ecological but also economical curing and thermal solvent treatment for today’s and future organic coatings | #153
• New Opportunities for Organic In-line Paint Applications in Galvanizing Lines | #152
• Mit NIR-Technologie schnell und platzsparend trocknen | #151
• Inline Paint Solutions in Galvanising Lines, New Opportunities, New Applications, New Markets | #150
• Drying [&] Curing: How to save money in color coating operations | #149
• International Coil Community met at Munich 5th _ _ _nir? – Coil Coating symposium held at AdPhos | #148
• Ultra Fast _ _ _nir? – Drying and Curing Technology- What makes _ _ _nir? – Systems Stand Out in the Coil Process? | #147
• Einsatzmöglichkeiten der NIR – und Induktionstechnologien für thermische Metallprozesse und die Behandlung von organischen Beschichtungen in Bandanlagen | #146
• How to save energy costs with the NIR¹ – Technology in coil coating processes | #145
• Inline-Beschichten in Bandverzinkungsanlagen | #144
• NIR-Booster Solutions – Payback within 12 Months! | #143
• Kembala Lines (Bluescope Steel) | #141
• Technological Be´s and Can´t Be´s in Coating Processes – Visions become real! | #140
• Blechlackierung mit innovativer NIR-Trocknung | #139
• Coil Coating für organische Beschichtung | #138
• NIR-Trockner für Coils im Einsatz | #137
• Korrosionsschutzprimer für Automobilblech | #136
• Potential Use for Innovative Near Infraread-Drying/Curing in Coil Coating Technology | #135
• NIR-Technology – An Innovation in Coil Coating | #134
• NIR-Technology – New Application Potential in Galvanizing Lines | #133
• NIR-Technology – Novel Potential use in Coil and Coating Lines | #132
• Coils mit NIR Platz sparend trocknen | #131
• NIR-Anlage für Bandaufheizung (Hydro) | #130
• Stahlrunde | #129
• Einsatzpotential der NIR-Technologie in Bandanlagen | #128
• Pressemitteilung 4. NIR-Symposium, Galvanotechnik, Februar 2003, 94. Band | #126
• Near-infrared curing | #125
• Strip coatings dried in Seconds | #124
Grafische Anwendungen und Beschichtungen
• High Viscosity Aqueous Inks for Flex Pack Printing / #365
• Competitive Evaluation of Potential Running Drying Examples / #364
• Transforming Surface Processes: The Drying Technologies That Redefine the Game / #363
• Unlock the Future of Gravure Printing with Cutting-Edge Drying Technologies I #362
• aNIR-Trocknung für flexible Druckfarben- und Bedruckstoffe – nur in Deutsch verfügbar/only in German available / #361
• Booster Dryers: How to Maximize Your Existing Assets / #360
• Combining Inkjet with Conventional Printing I #359
• Goals, Objectives and Best Practices for Drying and Curing I #358
• New and Improved Possibilities in Gravure Printing Through Electro-Thermal Drying Technologies I #357
• Sustainable Drying Technologies for the Future I #356
• Drying Gravure Printing Alternative I #355
• Neue Möglichkeiten zur nachhaltigen, effizienten und CO2 freien Trocknung im Verpackungsdruck | #354
• aNIR (advanced Near InfraRed) Drying – A Game Changer for the Processing of Print and Coatings I #353
• First ChoiceaHigh Performance and Efficient IJ-Printing in Packaging – What Makes the Difference? | #345
• aLITE-Plattformtechnologie zum energiesparenden und CO2-neutralen Trocknen und Fixieren (only in German available) | #344
• Turning Point Towards Sustainalbe Drying (published in German Language: Zeitenwende hin zur nachhaltigen Trocknung) | #343
• aLITE-Processing – Game Changer für (Pre-/Post) Print Prozesse im Verpackungsbereich (nur in Deutsch verfügbar/only in German available) | #340
• Functional Coatings in Combination with NIR Drying | #339
• Multi-layer-coating for conductive textiles with drying via NIR-Technology Multi-Layer-Beschichtung für leitfähige Textilien mit Trocknung über NIR-Technologie | #336
• Saving energy and CO2 emissions with electrothermal drying systems | #334
• Want more performance, quality and no CO2-emissions – aLITE® – thermal Processing! | #333
• Advanced NIR (aNIR) drying technology: – A game changer for industrial printing and coating processes but what makes aNIR so special? | #331
• What means drying: What is necessary to get a proper “dried” product? | #330
• Pre- and Post-Print Processing with Infrared Based Driers – Working Principles, Performance and Limitations | #329
• Saving energy and CO2 emissions with electrothermal drying systems – benchmark comparison with gas convection dryers for the decor sector | #327
• New Developments in Multi-Layer Coating for Conductive Textiles with Interim Drying Via NIR-technology and Associated Power-Supply | #326
• Electroluminescent Textiles for Home Interior Decoration | #324
• Possibilities for Future Efficiency Enhanced and CO2 Reduced Printing in Décor and Packaging Applications | #323
• Energy and CO2 Reduction Potential with Electro-Thermal Drying Technology – Benchmark Study with Gas Convection Driers | #320
• Inkjet Printing on Plastic | #317
• Pre- and Post-Processing Challenges for Water-Based Inkjet Printing on Packaging and Explores the Limitations Currently Impeding its Progress in Certain Sectors | #315
• aNIR-drying solutions for flexo- and gravure printing | #314
• A new wind blows in – A new drying technology is claiming to deliver improved productivity, enhanced print quality and energy efficiency with zero CO2 emissions | #313
• Coatings drying with advanced aNIR-Technology | #312
• Energy-Efficient Drying Technology for Textile Manufacturing | #311
• NIR Drying Reducing Energy Needed and Reducing CO2-Output | #306
• CO2-Tax – How it Effects Gravure Printing | #305
• NIR Drying Reducing Energy Needed and Reducing CO2-Output | #306
• CO2-Tax – How it Effects Gravure Printing | #305
• Layer Morphology and Ink Compatibility of Silver Nanoparticle Inkjet Inks for Near-Infrared Sintering | #304
• Technical Blog, NIR drying system increase printing speed by 60% | #303
• Unknowns, Misleadings and Misconclusions – Several Facts Must be Considered for InkJet Processing | #302
• Drying of Water Based InkJet Printing Processes | #299
• Drying, Pre- and Post-Processing of InkJet Printing with Infrared Technologies | #298
• aNIR Technology – an Enhancer in the 3D-Manufacturing Process | #287
• aNIR for Improved Printing Speed, Enhanced Print Quality and Less Production Costs | #286
• The Impact of Drying Technology on Image Quality and Substrate Compatibility | #284
• “Understanding aNIR” | #282
• “Nahinfrarot-Trocknung in der Praxis” | #281
• “NIR-Applications in Decor and Packaging Gravure” | #280
• “aNIR – Enabler for Pre/Post InkJet Processing” | #279
• NIR-Technology an Enhancer in Gravure and Flexo Printing for Décor and Packaging | #278
• Enhances of aNIR-Drying in Textil Printing Applications | #277
• NIR-Technology – Enabler for High Performance InkJet Printing in Packaging & Decorative Applications | #274
• High-Performance Solution not Only for Drying ink | #271
• High-Performance Instantaneous Drying for Coatings in Paper Finishing Lines | #270
• aNIR- Technology an Enhancer for InkJet Post-Proccessing | #269
• Was macht NIR-Trocknung so speziell? | #267
• aNIR an Enabler for New Digital Production Concepts in Packaging | #266
• aNIR Technology an Enabler for Instantaneous Post Printing Processes | #265
• aNIR Technology – Drying at the Speed of Light | #264
• Innovative Drying Technology for Water and Solvent Based Inks and Coatings | #263
• How to Overcome the Limitations of InkJet Printing | #262
• Instantaneous and Low Thermal Stress Inkjet Post-Processing | #261
• aNIR-Drying Technology for Instantaneous Setting, Drying and Fixation of Textile Printing Applications | #259
• High Performance Instantaneous Drying Solutions for Coatings in Paper Finishing Lines | #258
• Comparison of Systems | #257
• Paper and Ink Characteristics – Spectral Absorption | #256
• Principles of Wetting & Setting, Absorption in Porous & Non-Porous Media | #255
• Introduction | #254
• Improving Speed and Print Quality in Digital Textile Printing | #253
• Ultrafast Heating for Accelerated 3d-Manufacturing Cycles | #252
• adphosNIR® – Solutions, Case Studies and Benefits in Functional InkJet Printing Application | #250
• adphosNIR® Based High Performance Drying – Drying can Decisively Determine the Print Quality and Print Performance | #249
• Trying to Overcome the Misleading and Misunderstanding of Drying in InkJet Processes | #248
• Instantaneous Drying of Textile Printing Process with adphosNIR®-Technology | #246
• How to Avoid Wavy Substrates in Digital Printing | #245
• Understanding the Ink Drying Process and Its Impact on Print Performance? | #244
• Why can an Inkjet Product Smear – Even Though it is Fully Dried? | #243
• Optimized Drying and Curing Processes for New Functional Products | #242
• Wetting, Setting and Fixation Mechanisms of InkJet Dryer and How Dryer can Substantially Effect Print Quality and Performance | #241
• Instantaneous Drying and Photonic NIR-Curing | #240
• Who needs drying technology? | #239
• IMI – Focusing on Inkjet – Presses! How Print Quality and Performance is Influenced by Ink Wetting to Ink Fixation in Digital Presses | #238
• Der Zusammenhang zwischen Trocknung und Qualität im InkJet Druck/The correlation between the drying process and quality in InkJet printing | #233
• Improving Image Quality! What Happens after your Inkdrop Reaches the Substrate? | #232
• Setting, Drying and Fixation Process for InkJet Applications – Todays High Performance Solutions, Planned Enhancements for Future Trends | #229
• Trocknung mit nichtionisierender Strahlung | #228
• High Performance Drying Technology | #226
• Efficiency, Ecology and Economy in Inkjet Drying | #221
• Wet and Dry A Comparative Review of Water Based Inkjet Drying Technologies | #215
• I/J Manufacturers’ Dream Supplier | #214
• The Feasible Production of Integration Printed Electronics into Commercial Graphic Printing | #213
• High Performance Drying for Digital Printing | #212
• Water Based Inkjet Drying | #211
• Hybrid Printing – Drying is Key to Performance and Profit | #210
• High-Speed Drying of Coatings | #201
• Short-Wave High-Performance Drying/Kurzwellige Hochleistungstrocknung | #198
• Advanced Drying Technology for Water Based Inkjet | #196
• Wet and Dry – A Comparative Review of Water Based Inkjet Drying Technologies | #195
Printed Electronics - Batterie und Kondensatoren
• Future of Battery Manufacturing – Quo Vadis | #367
• Empowering Efficient Battery Electrode Drying with BearLITE I #352
• New Accelerated Drying of Electrode Coatings – A Game Changer in Battery Manufacturing I #351
• Alternative Verdichtungsverfahren für nanopartikelhaltige Tinten mit digitalen Druckverfahren für planare MID -AVerdi (only in German available) | #350
• Accelerated, energy-reduced and enhanced quality – BearLITE processing for Battery electrodes production | #349
• Scalable Production of Energy Storage Systems | #347
• Near-Infrared Radiation: A Promising Heating Method for Power Bed Fusion | #346
• BearLITE – Processing – Now Proven, Enables New Battery Manufacturing | #341
• BearLITE®-Process Game Changer for Battery Manufacturing?! | #338
• Increased Productivity for Battery Electrodes (published in German Language: Produktivitätssprung für Batterieelektroden) | #337
• BearLITE® processing – Key enabler for enhanced performance and lower costs in cell production | #332
• Performance Increase and Process Enhancements for Capacitors and Batteries Production by aLITE-Technology | #325
• adphosNIR® Photonic Drying and Curing for PE | #307
• aNIR® – A New Drying, Baking and Thermal Processing Solution – a Key Enabler for Battery Productions | #321
• Layer Morphology and Ink Compatibility of Silver Nanoparticle Inkjet Inks for Near-Infrared Sintering | #319
• aNIR-Technology – A Game Changer in Electrode Production? | #307
• High Throughput Fabrication of Mesoporous Carbon Perovskite Solar Cells | #294
• Photonic Flash-Annealing of Lead Halide Perovskite Solar Cells in 1 ms | #293
• Rapid Processing of Perovskite Solar Cells in Under 2.5 Seconds | #292
• Rapid Radiative Platinisation for Dye-Sensitised Solar Cell Counter Electrodes | #291
• Ultrafast Sintered TiO2 Films in Dye-Sensitized Solar Cells: Phase Variation, Electron Transport and Recombination | #290
• Ultrafast Near-Infrared Sintering of TiO2 Layers on Metal Substrates for Dye-Sensitized Solar Cells | #289
• Ultrafast Near-Infrared Sintering of a Slot-Die Coated Nano-Silver Conducting Ink | #288
• Application and Fundamentals of aNIR Drying Technology | #285
• New Possibilities for 3D-Printed Electronics Through NIR-Technology | #276
• Verbesserte Prozesse und neue Möglichkeiten mit NIR-Technologie | #275
• Application and Fundamentals of NIR Drying Technology | #273
• Applications of NIR-Drying Technology | #272
• aNIR Technology an Enhancer in 3D-Manufacturing Process | #268
• aNIR-Photonic Drying and Sintering of Conductive Coatings | #260
• Instantaneous Drying and Sintering of Water or Solvent Based Conductive Coatings | #251
• Influences of Near Infrared Sintering on Flexo Printed Conductive Tracks on PET and Paper Substrates | #247
• Hybrid Drying and Curing Equipment for Multi-Layer Flexible Electronics | #237
• Near Infrared Radiation as a Rapid Heating Technique for TiO2 Films on Glass Mounted Dye-Sensitized Solar Cells | #236
• Ultrafast Near-Infrared Curing of PEDOT:PSS | #235
• adphosNIR – Effective Drying and Photonic Sintering Technology for PE-Applications | #234
• Drying and Sintering – A Crucial Process Step for PE-Performance and Manufacturing | #231
• NIR Sintering for Rapid Processing of Metallic Conduction Circuits | #223
• Inkjet Printer for Printed Electronics with Photonics Curing Technology | #222
• Cost Effective Patterning of Conductors Utilizing Silver Nanoparticle Inks with Traditional Printing Processes | #220
• adphosNIR® Photonic Drying and Curing for Printed Electronics and other Functional Coatings | #218
• adphosNIR® Photonic High Performance Drying and Sintering – At an Affordable Cost | #217
• Photonic Drying and Heating Technologies for Thermal Processes in PE-Fabrication | #209
• Rapid Processing Technologies for Dye-Sensitized Solar Cells | #205
• Ultrafast Near Infrared Sintering of a Slot-Die Coated Nano-Silver Conduction Ink | #204
• Ultrafast Near Infrared Sintering of TiO2 Layers on Metal Substrates for Dye-Sensitized Solar Cells Progress in Photovoltaics | #203
• Improve Productivity and Product Quality with NIR-Drying and Heating Technology | #199
Pressemitteilungen
Auf unserer Homepage informieren wir Sie über alle wichtigen Neuigkeiten der adphos Gruppe. Hier erfahren Sie alles Wissenswerte über aktuelle Entwicklungen und neue Inbetriebnahmen.
Messen und Veranstaltungen
adphos ist auf zahlreichen Konferenzen und Fachmessen in der ganzen Welt vertreten. Hier finden Sie eine Übersicht aller Messen und Veranstaltungen, auf welchen wir präsent sind. Wir freuen uns schon darauf, Sie an unserem Stand persönlich willkommen zu heißen und mehr über Ihre Anwendungen und Anforderungen zu erfahren.
