The Mechanics of Geometric Stripping
Abstract:The paper describes a dynamic model for a toner-laden sheet being bent on a rotating fusing surface with a radius. The toner is treated as visco-elastic, with a complex modulus that is a function of temperature and frequency. Other inputs include toner thickness, media modulus, and media thickness. The model can quantify the contribution of the following to successful stripping: stripping radius, process speed, toner rheological properties, toner temperature, toner thickness, and media stiffness. The model can also be used to predict the impact of more complicated scenarios, like varying image/paper bleed dimensions and external stripping devices.
Document Type: Research Article
Publication date: 2010-01-01
For more than 30 years, IS&T's series of digital printing conferences have been the leading forum for discussion of advances and new directions in 2D and 3D printing technologies. A comprehensive, industry-wide conference that brings together industry and academia, this meeting includes all aspects of the hardware, materials, software, images, and applications associated with digital printing systems?particularly those involved with additive manufacturing and fabrication?including bio-printing, printed electronics, page-wide, drop-on-demand, desktop and continuous ink jet, toner-based systems, and production digital printing, as well as the engineering capability, optimization, and science involved in these fields. In 2016, the conference changed its name formally to Printing for Fabrication to better reflect the content of the meeting and the evolving technology of printing.
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