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Parameter selecting method for solving phenomenon of salivation of 3D printing of ceramic pulp

A ceramic slurry, 3D printing technology, applied in the field of ceramic 3D printing, can solve the problems of salivation, the inability to extrude the ceramic slurry stably, and the resistance of the ceramic slurry is large, so as to reduce the resistance, solve the salivation phenomenon, and continuously and stably squeeze the effect

Inactive Publication Date: 2019-06-14
HEBEI UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, using this parameter design method for ceramic slurry 3D printing may cause salivation. Although the phenomenon of salivation has been solved, the resistance of the ceramic slurry during the extrusion process is too large, and the ceramic slurry cannot be extruded stably.

Method used

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  • Parameter selecting method for solving phenomenon of salivation of 3D printing of ceramic pulp
  • Parameter selecting method for solving phenomenon of salivation of 3D printing of ceramic pulp
  • Parameter selecting method for solving phenomenon of salivation of 3D printing of ceramic pulp

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Embodiment 1

[0047] In the zirconia slurry micro-flow extrusion 3D printing equipment, the extrusion speed of the ceramic slurry has been determined to be 0.4mm / s, and the optional diameter models of the extrusion head are 14G, 15G, 18G, 20G, 21G, 22G and 23G, the length models are 0.25 inches, 0.5 inches, 1.0 inches and 1.5 inches; the inner diameter models of the barrels are 55cc, 100cc, 200cc and 300cc.

[0048] Through the above optional models, determine the parameter range of ceramic slurry micro-flow extrusion 3D printing; the parameters are the inner diameter of the extrusion port D, the length of the extrusion port L, and the inner diameter of the barrel D 0 And ceramic slurry extrusion speed v; the lower limit of the range is the minimum value in the model, and the upper limit is the maximum value in the model;

[0049] According to the empirical formula of the Benbow-Bridgwater model of ceramic slurry extrusion resistance, the mathematical model of ceramic slurry extrusion resis...

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Abstract

The invention discloses a parameter selecting method for solving the phenomenon of salivation of 3D printing of ceramic pulp. The parameter selecting method comprises the following steps of determining parameter range of microflow extruding of the ceramic pulp for 3D printing; obtaining a mathematical model of extruding resistance of the ceramic pulp and salivation section length of the ceramic pulp; using the inner diameter of an extruding opening, the length of the extruding opening, the inner diameter of a feeding cylinder and the extruding speed of the ceramic pulp as parameters to be optimized, and using the numeric areas of the four parameters as constraint conditions; using the extruding resistance of the ceramic pulp and the salivation section length of the ceramic pulp as an adaptability degree function; combining the adaptability degree function and the constraint conditions to form a multi-target optimizing problem, setting two weight coefficients of the adaptability degreefunction, and converting a multi-target optimizing problem into a single-target optimizing problem; using a genetic algorithm to find the solution of the single-target optimizing problem, so as to obtain an optimal solution; and according to the optimal solution, selecting a parameter type. According to the parameter selecting method disclosed by the invention, a multi-target optimizing method isadopted to perform parameter design, so that the problem of salivation is solved, and the situation that the extruding resistance is minimum is guaranteed.

Description

technical field [0001] The invention belongs to the field of ceramic 3D printing, and specifically relates to a parameter selection method for solving the drooling phenomenon of ceramic slurry 3D printing. Background technique [0002] In recent years, ceramic materials have been widely used in aerospace, biology, medical and other fields. Due to the long forming time and complicated forming process of the traditional ceramic forming process, more and more rapid prototyping processes are used to manufacture ceramic products, and ceramic slurry 3D printing is one of them. Ceramic slurry is prone to salivation during the 3D printing process based on the microfluidic extrusion process. Salivation is a phenomenon in which ceramic slurry still flows out when extrusion is interrupted or stopped. The appearance of salivation will affect the product quality of ceramic 3D printing, which should be avoided as much as possible in ceramic 3D printing based on microfluidic extrusion pr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B28B1/00B33Y10/00
Inventor 段国林孔劲松周婧
Owner HEBEI UNIV OF TECH
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