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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200513T110000
DTEND;TZID=America/New_York:20200513T120000
DTSTAMP:20260509T234206
CREATED:20200501T204442Z
LAST-MODIFIED:20200501T204442Z
UID:3968-1589367600-1589371200@uvebtech.com
SUMMARY:High-Performance UV Curable Resin for Automotive Coatings
DESCRIPTION:Marcus Hutchins\, allnex \nLight weighting\, reduced carbon footprint\, throughput\, and sustainability are just some of the more common buzzards original equipment manufacturers (OEM) are using. They are looking for this advantage in not only the assembly process but every part and coating aspect that goes into that assembly. Going hand and hand with the challenges to improve the assembly process is the need to meet more stringent performance requirements. We have developed a number innovative UV curable products that can be used in automotive refinish\, films\, conformal coatings\, and glazing applications that maximize throughput and coating performance. This paper will discuss a variety of UV curable resins that can be used in a variety of automotive applications such as film and sheets used in IMD/IML\, metallization\, conformal coatings\, structural adhesives and automotive refinish applications allowing formulators and finishers to capitalize on the intrinsic values of UV curable chemistry such as rapid throughput and excellent chemical and abrasion resistance.
URL:https://uvebtech.com/event/high-performance-uv-curable-resin-for-automotive-coatings/
CATEGORIES:Webinar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200507T140000
DTEND;TZID=America/New_York:20200507T150000
DTSTAMP:20260509T234206
CREATED:20200501T204106Z
LAST-MODIFIED:20200501T204106Z
UID:3965-1588860000-1588863600@uvebtech.com
SUMMARY:Effects of Structure and Composition on Mechanical Properties of UV Systems
DESCRIPTION:Dr. Paul Share\, Advanced Materials Design \nThe formulation of UV curable compositions for 3D printing requires the simultaneous optimization of opposing properties. Increases in cure speed\, desirable for manufacturing throughput\, can lead to brittleness\, curling\, and storage instability. Increases in tensile strength and impact resistance\, desirable for structural components\, can lead to poor flexibility and low elongation. Increases in elongation\, desirable for elastomers\, can lead to surface tackiness and poor tear resistance. There is also a limited range of acceptable formulation viscosities unique to each 3D printing technology which further confines the optimization space. In this presentation\, a systematic synthesis and statistical mixture design study of the effects of oligomer structure and monomer formulation composition on the resulting mechanical properties of UV cured systems will be described.
URL:https://uvebtech.com/event/effects-of-structure-and-composition-on-mechanical-properties-of-uv-systems/
CATEGORIES:Webinar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191212T140000
DTEND;TZID=America/New_York:20191212T150000
DTSTAMP:20260509T234206
CREATED:20191121T152234Z
LAST-MODIFIED:20191121T152234Z
UID:3521-1576159200-1576162800@uvebtech.com
SUMMARY:Beyond Coating and Cure – the Fine Points of Applying UV Curable Materials in Your Manufacturing Process
DESCRIPTION:Presented by Mike Kelly\, Allied PhotoChemical; Wilson Lee\, Enercon Industries; Brett Maiorano\, Atlas Copco\nWebinar Overview:\nPairing a good formulation with the right curing system is only part of the equation when developing a sound UV+EB application process. This webinar is designed to systematically address some of those other concerns with presentations from three industry experts. \nMike Kelly\, Vice President of Global Sales for Allied Photochemical\, will discuss “Dispelling the Myth that UV Cure Coatings are not Cost Effective”\, using a case study to contrast the cost of using solventborne\, waterborne\, of UV Curable coating for the same application. \nWilson Lee\, Business Development Director for Enercon Industries\, will address “Surface Pretreatment for UV Coatings and Adhesives”\, covering various options for prepping the surface prior to applying a material to assure a good bond. \nBrett Maiorano\, Industrial Gases Business Development Manager for Atlas Copco\, will discuss “Nitrogen Use in the UV Coating Process”\, explaining ways to optimize the nitrogen supply when it is necessary. \nThis should be a very informative session with ample time for attendees to direct questions at each of these industry experts.
URL:https://uvebtech.com/event/beyond-coating-and-cure-the-fine-points-of-applying-uv-curable-materials-in-your-manufacturing-process/
CATEGORIES:Webinar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191205T140000
DTEND;TZID=America/New_York:20191205T150000
DTSTAMP:20260509T234206
CREATED:20191018T165051Z
LAST-MODIFIED:20191018T165144Z
UID:3006-1575554400-1575558000@uvebtech.com
SUMMARY:UV LED for Wide Web\, Flexible Packaging
DESCRIPTION:What every flexible packaging converter should know about UV LED technology and how it will impact the flexible packaging market and your business.\nPresented by Jennifer Heathcote\, Eminence UV\, and Joe Spinnato\, Ashland\nTarget Audience:\nMid and Wide web flexible packaging converters. Those looking for an introduction to UV LED technology (systems\, coatings\, adhesives) and its impact on migration\, sustainability\, and a converters’ bottom line. \nWebinar Overview:\nUV LED technology is now the dominant curing source in various industry segments including digital inkjet printing and spot cure adhesives. In other markets such as narrow web label\, UV LED technology is an increasingly viable option for both new presses and retrofits and has been steadily gaining market share with respect to conventional mercury lamps for the past ten years. Advancements in all early adopter applications are being leveraged to push UV LED curing into wide web flexible packaging where many converters are still largely unfamiliar with the technology. The long list of UV LED curing benefits and its growing preference in first mover markets suggest that UV LED will eventually dominate the world of wide web converting. So\, what should flexible packaging converters know about UV LED curing technology today and what does it really mean for the future of wide web applications?
URL:https://uvebtech.com/event/uv-led-for-wide-web-flexible-packaging/
CATEGORIES:Webinar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191107T140000
DTEND;TZID=America/New_York:20191107T150000
DTSTAMP:20260509T234206
CREATED:20191018T161617Z
LAST-MODIFIED:20191018T165130Z
UID:3001-1573135200-1573138800@uvebtech.com
SUMMARY:UV LED in Narrow Web
DESCRIPTION:Why label converters should be actively engaged in process development and implementing UV LED solutions today\nPresented by Jennifer Heathcote\, Eminence UV\, and Jake Staples\, Ashland\nTarget Audience:\nNarrow web label converters. Those with a baseline understanding of LED curing who want to understand the technology and coating/adhesive applications at a deeper level as well as the potential value to a converters’ bottom line. \nWebinar Overview:\nUV LED technology has become a viable narrow web curing option. This reflects ten-years of steadily growing market share and collaborative industry activity among converters and suppliers. While most narrow web converters are now aware of UV LED technology and are specifically requesting that it be included as an option in new press and curing system upgrade proposals\, many remain uncertain as to how and when UV LED technology should be used. The result is that while some converters are embracing 100% LED\, others lack the confidence which comes with direct personal use and remain loyal to conventional mercury technology. Splitting the difference are converters who opt for hybrid curing solutions that allow mercury-arc and LED systems to run interchangeably at each station\, thus enabling converters to have a more controlled transition to UV LED.
URL:https://uvebtech.com/event/uv-led-in-narrow-web/
CATEGORIES:Webinar
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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20190502T110000
DTEND;TZID=America/New_York:20190502T120000
DTSTAMP:20260509T234206
CREATED:20190419T150038Z
LAST-MODIFIED:20190419T150038Z
UID:1965-1556794800-1556798400@uvebtech.com
SUMMARY:Leveraging an E-Commerce Testing Requirement to Understand Packaging Cost Implications | featuring a CPG case study
DESCRIPTION:The growth of e-commerce is rapidly changing the way products are packaged and shipped. \nAnd with the introduction of new testing standards from Amazon\, many vendors are adjusting their approach or seeking out package and distribution testing for the first time. \n\n\n\nIn an upcoming one-hour webinar\, Michael Kuebler\, Technical Director\, Smithers Pira\, gives an overview of the evolution of e-commerce and how and why the latest Amazon testing standards were developed. Kuebler takes a deep dive into a real-world case study that follows an everyday CPG product through a standard testing procedure\, a package failure\, and an investigative testing process that uncovers a cost-saving solution. Finally\, Kuebler breaks down how the testing process can help: \n\nSave time\nReduce costs\nMaintain brand reputation
URL:https://uvebtech.com/event/leveraging-an-e-commerce-testing-requirement-to-understand-packaging-cost-implications-featuring-a-cpg-case-study/
CATEGORIES:Webinar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Chicago:20190115T130000
DTEND;TZID=America/Chicago:20190115T150000
DTSTAMP:20260509T234206
CREATED:20181218T231850Z
LAST-MODIFIED:20181218T231850Z
UID:1563-1547557200-1547564400@uvebtech.com
SUMMARY:New UV-Based Interventions to Enhance the Food Safety of Fresh Produce
DESCRIPTION:Presented by IUVA\, Keith Warriner\, Professor and Department of Food Science Graduate Coordinator\, University of Guelph\, and Tatiana Koutchma\, Research Scientist\, Agriculture and Agri-Food Canada \nAbstract:\nThere have been three outbreaks of Escherichia coli O157:H7 infections linked to contaminated romaine lettuce within the last 12 months affecting over 200 people. Since 1995 there have been over 40 outbreaks linked to leafy greens although other produce types such as apples\, cantaloupes and soft fruit have also been implicated. There are various routes from production through to the end-user by which pathogens become associated with fresh produce. For large scale outbreaks the typical source of pathogens is contaminated irrigation water with pathogens being spread during post-harvest processing. To date\, the main interventions used to enhance the microbiological safety of fresh produce is through good agricultural practice (GAP)\, testing and post-harvest washing. However\, none are effective as demonstrated by the on-going foodborne illness outbreaks. Consequently more effective treatments are required and those based on UV show promise. For example\, UV treatment of irrigation water and water-assisted UV post-harvest washing is a further technology. The main challenge with UV is to access the shaded area on produce surfaces. To overcome this limitation\, UV based methods based on Advanced Oxidative Process have been developed and currently being applied on a commercial scale. Additionally\, research was conducted on application of multiple wavelengths LEDs against common food pathogens on surface of fresh produce. Based on risk analysis of recent outbreaks and produce production chain\, this webinar will discuss new approaches to enhance it safety by using UV light through advanced oxidation\, water assisted washing and UV LEDS interventionsIUVAhttps://www.esf.edu/outreach/radcuring/
URL:https://uvebtech.com/event/new-uv-based-interventions-to-enhance-the-food-safety-of-fresh-produce/
CATEGORIES:Webinar
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