Crucible cold isostatic pressing bags, graphite crucible CIP mold, ceramic crucible isopressing mold

Home/Products/Polyurethane CIP bag mold

Crucible cold isostatic pressing bags, graphite crucible CIP mold, ceramic crucible isopressing mold

Categories: Polyurethane CIP bag mold

Application: Crucible cold isostatic pressing bags, graphite crucible CIP mold, ceramic crucible isopressing mold

Inquiry

Main description:

Crucible cold isostatic pressing bags, graphite crucible CIP mold, ceramic crucible isopressing mold, The key to isostatic pressing is the design of the polyurethane rubber bag which is in general both different in size and shape from the green body. the results of experiments to measure the powder and elastomer properties; finite element simulations of cold isostatic pressing; and comparisions between the two. The finite element simulations use an elasto-plastic, volume hardening plasticity model for the compacting powder and a finite deformation hyperelastic model for the rubber.

DESCRIPTION

Crucible cold isostatic pressing bags, graphite crucible CIP mold, ceramic crucible isopressing mold, The key to isostatic pressing is the design of the polyurethane rubber bag which is in general both different in size and shape from the green body. the results of experiments to measure the powder and elastomer properties; finite element simulations of cold isostatic pressing; and comparisions between the two. The finite element simulations use an elasto-plastic, volume hardening plasticity model for the compacting powder and a finite deformation hyperelastic model for the rubber.

the effects of bags on the process. Although many scholars have successfully applied FEM methods to illustrate the CIP process of ceramic, metal powders and even metallic SLSed parts, the numerical simulation of alumina SLSed parts during CIP has not been reported in literature. 


Contact High Industry Tech

Tel: +86-15905285887 Mr. Bluce Yan

cip@highindustryco.com

Wechat/QQ ID: 15905285887

Skype ID: bluce_yan



0.451044s