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The integrated curved surface imprinting process technology aided by gas and gray-scale regulated electromagnetic force

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Published/Copyright: February 1, 2012
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Journal of Polymer Engineering
From the journal Volume 32 Issue 1

Abstract

This study proposes an integrated imprinting technology, of combining gas-aided imprinting technology and gray-scale, regulated, electromagnetic, force hot-imprinting technology, for the replication imprinting forming of the curved surface micro-nano structure. Based on the existing gas-aided hot imprinting forming technology, this study designed an electromagnetic disc that can regulate and control the imprinting force at different positions, and with features of even and precise control of gradual pressure. The electromagnetic disc was integrated with the gas and the electromagnetic force aided hot-imprinting technology to replicate micro-structure, to make the micro-nano imprinting technology and applications more mature. The experimental results showed that the proposed integrated imprinting technology can accurately replicate the curved surface micro-nano micro-structure.

Keywords: composite casting; conformal contact; gas-aided hot imprinting; magnetic-aided hot imprinting; magnetic mold
Published Online: 2012-02-01
Published in Print: 2012-02-01

©2012 by Walter de Gruyter Berlin Boston

Articles in the same Issue

  1. Original articles
  2. Unsaturated polyester-clay slurry nanocomposites
  3. Copolymerization of norbornene with styrene catalyzed by Ni{CF3C(O)CHC[N(naphthyl)]CH3}2/B(C6F5)3 and transparent films
  4. Effect of silica nanoparticle loading and surface modification on the kinetics of RAFT polymerization
  5. The integrated curved surface imprinting process technology aided by gas and gray-scale regulated electromagnetic force
  6. Universal mechanical response of polypropylene under cyclic deformation
  7. Micromechanical modeling and strength prediction of short fiber reinforced polymers
  8. Influence of the specimen thickness on low velocity impact behavior of composites
  9. Thermal degradation and physical aging of linear low density polyethylene and poly(l-lactic acid) blends
  10. Prelims
  11. Prelims
https://doi.org/10.1515/polyeng.2011.603
Keywords for this article
composite casting; conformal contact; gas-aided hot imprinting; magnetic-aided hot imprinting; magnetic mold

Articles in the same Issue

  1. Original articles
  2. Unsaturated polyester-clay slurry nanocomposites
  3. Copolymerization of norbornene with styrene catalyzed by Ni{CF3C(O)CHC[N(naphthyl)]CH3}2/B(C6F5)3 and transparent films
  4. Effect of silica nanoparticle loading and surface modification on the kinetics of RAFT polymerization
  5. The integrated curved surface imprinting process technology aided by gas and gray-scale regulated electromagnetic force
  6. Universal mechanical response of polypropylene under cyclic deformation
  7. Micromechanical modeling and strength prediction of short fiber reinforced polymers
  8. Influence of the specimen thickness on low velocity impact behavior of composites
  9. Thermal degradation and physical aging of linear low density polyethylene and poly(l-lactic acid) blends
  10. Prelims
  11. Prelims
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