• 专利标题:   Graphene-lanthanum nickel oxide/zinc-aluminum-titanium corrosion resisting coating layer used for polycrystalline silicon ingot furnace comprises alloy corrosion resisting layer and thermal insulating antiseptic layer.
  • 专利号:   CN102199373-A, CN102199373-B
  • 发明人:   LI S
  • 专利权人:   HEFEI YUNRONG ELECTROMECHANICAL
  • 国际专利分类:   C09D001/00, C09D001/04, C09D005/08, C09D005/10, C30B028/06, C30B029/06
  • 专利详细信息:   CN102199373-A 28 Sep 2011 C09D-001/00 201256 Pages: 9 Chinese
  • 申请详细信息:   CN102199373-A CN10091484 12 Apr 2011
  • 优先权号:   CN10091484

▎ 摘  要

NOVELTY - A graphene-lanthanum nickel oxide(LaNiO4)/zinc-aluminum-titanium corrosion resisting coating layer comprises an alloy corrosion resisting layer on surface of carbon fiber thermal insulating layer and a thermal insulating antiseptic layer on the alloy antiseptic layer. The alloy antiseptic layer comprises 20-38 wt.% aluminum powder, 30-45 wt.% zinc powder, and 30-45 wt.% titanium powder. The thermal insulating antiseptic layer comprises 55-72 wt.% graphene powder, 25-40 wt.% LaNiO4 powder, 1-5 wt.% film-forming agent and 1-5 wt.% of mixture of curing agent and dispersing agent. USE - A graphene-lanthanum nickel oxide(LaNiO4)/zinc-aluminum-titanium corrosion resisting coating layer used for polycrystalline silicon ingot furnace. ADVANTAGE - The coating layer has high rigidity and corrosion resistance, thus extending service life of the carbon fiber thermal insulating layer. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for: (1) heat resisting protective layer of polycrystalline silicon ingot furnace comprising a carbon fiber thermal insulating layer and a corrosion resisting antiseptic layer arranged on the surface of the carbon fiber thermal insulating layer; and (2) producing the heat resisting protective layer comprising uniformly mixing the aluminum powder, the zinc powder and the titanium powder, obtaining the co-cementation agent, embedding the carbon fiber thermal insulating layer in the co-cementation agent, heating to 300-500 degrees C, keeping warm for 2-5 hours, taking out, obtaining the carbon fiber thermal insulating layer whose surface is cover ed by alloy antiseptic layer; coating the mixture of the curing agent and the dispersing agent to the surface of the alloy antiseptic layer; mixing the graphene powder, the LaNiO4 powder and the film-forming agent, coating on the surfaces of the curing agent and the dispersing agent; heating the carbon fiber thermal insulating layer under vacuum state until the temperature reaches 70-85 degrees C, maintaining the temperature for 1.5-3 hours.