Patent ID: 9375862
Filing Date: 2016-06-28
CPC Classification: B28B

Claim Text:
1. A manufacturing method of a honeycomb structure comprising: a forming step of a honeycomb formed body with non-fired electrodes where there is performed twice a non-fired electrode forming operation in which an electrode paste is attached to a plate including a printing screen, a side surface of a columnar ceramic honeycomb formed body, the side surface being a curved side surface, is brought into a pressed state by a squeegee via the printing screen of the plate, the ceramic honeycomb formed body including: partition walls to divide and form a plurality of cells which extend from one end surface to another end surface and become through channels of a fluid, the end surfaces respectively defining surfaces of tip portions of the ceramic honeycomb formed body; and an outer peripheral wall positioned in the outermost periphery of the body, in the state, the ceramic honeycomb formed body is rotated around a central axis and the plate is linearly moved along the side surface of the ceramic honeycomb formed body synchronously with the rotation of the ceramic honeycomb formed body, and the squeegee allows the electrode paste attached to the plate to permeate the printing screen and coat the side surface of the ceramic honeycomb formed body, to form a pair of non-fired electrodes on the side surface of the ceramic honeycomb formed body, thereby preparing the honeycomb formed body with the non-fired electrodes; and a forming step of the honeycomb structure where the honeycomb formed body with the pair of non-fired electrodes is fired, to obtain the honeycomb structure including a pair of fired electrodes on a side surface of the honeycomb structure, wherein the squeegee has a hardness of from 30 to 90 degrees, the printing screen has a tension of from 1.0 to 2.0 mm, and a pressure during the pressed state of the ceramic honeycomb formed body by the squeegee is from 0.05 to 0.4 MPa, and wherein a length of the squeegee in a longitudinal direction is at least 0.1 cm smaller than a length of the ceramic honeycomb formed body in a central axis direction, and at least 0.5 cm larger than a width of a printing pattern in the central axis direction, so that, during formation of the non-fired electrodes, the squeegee avoids contact with either tip portion of the ceramic honeycomb formed body through the printing screen.