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A platform for research: civil engineering, architecture and urbanism
GRAPHITE JOINTING PLATE AND METHOD FOR PRODUCING GRAPHITE JOINTING PLATE
To provide a graphite jointing plate with a junction structure having high strength and a method for producing the same.SOLUTION: A method for producing a graphite jointing plate 1 of the present invention, comprises: a coating step of coating a thermosetting carbon-based adhesive M to at least any of a first jointing area 11 of a first graphite member 10 and a second jointing area 21 of a second graphite member 20; an assembly step of abutting the first jointing area 11 and the second jointing area 21 as well as inserting an insertion stationary member 50 into holes 40 provided on the first jointing area 11 and the second jointing area 21; a hardening step of heating the carbon-based adhesive M and thermal hardening it; and a carbonization step of carbonizing the carbon-based adhesive M after the hardening step to form an adhesion layer 30 consisting of carbon, in which the adhesion layer 30 has a step-like shape. A firm graphite jointing plate 1 can be thus obtained by integrating the whole through the adhesion layer 30.SELECTED DRAWING: Figure 3
【課題】高い強度を持った接合構造の黒鉛接合板およびその製造方法を提供する。【解決手段】本発明の黒鉛接合板1の製造方法であって、接着層30は階段状であり、第1黒鉛部材10の第1の接合面11と第2黒鉛部材20の第2の接合面21の少なくともいずれかに熱硬化性の炭素系接着剤Mを塗布する塗布工程と、第1の接合面11と第2の接合面21とを突き合わせるとともに、第1の接合面11および第2の接合面21に備えられた孔40に挿入固定部材50を挿入する組立工程と、炭素系接着剤Mを加熱し熱硬化させる硬化工程と、硬化工程の後で炭素系接着剤Mを炭化させ炭素からなる接着層30を形成する炭素化工程と、を含む。接着層30を介して全体が一体化し、強固な黒鉛接合板1を得ることができる。【選択図】図3
GRAPHITE JOINTING PLATE AND METHOD FOR PRODUCING GRAPHITE JOINTING PLATE
To provide a graphite jointing plate with a junction structure having high strength and a method for producing the same.SOLUTION: A method for producing a graphite jointing plate 1 of the present invention, comprises: a coating step of coating a thermosetting carbon-based adhesive M to at least any of a first jointing area 11 of a first graphite member 10 and a second jointing area 21 of a second graphite member 20; an assembly step of abutting the first jointing area 11 and the second jointing area 21 as well as inserting an insertion stationary member 50 into holes 40 provided on the first jointing area 11 and the second jointing area 21; a hardening step of heating the carbon-based adhesive M and thermal hardening it; and a carbonization step of carbonizing the carbon-based adhesive M after the hardening step to form an adhesion layer 30 consisting of carbon, in which the adhesion layer 30 has a step-like shape. A firm graphite jointing plate 1 can be thus obtained by integrating the whole through the adhesion layer 30.SELECTED DRAWING: Figure 3
【課題】高い強度を持った接合構造の黒鉛接合板およびその製造方法を提供する。【解決手段】本発明の黒鉛接合板1の製造方法であって、接着層30は階段状であり、第1黒鉛部材10の第1の接合面11と第2黒鉛部材20の第2の接合面21の少なくともいずれかに熱硬化性の炭素系接着剤Mを塗布する塗布工程と、第1の接合面11と第2の接合面21とを突き合わせるとともに、第1の接合面11および第2の接合面21に備えられた孔40に挿入固定部材50を挿入する組立工程と、炭素系接着剤Mを加熱し熱硬化させる硬化工程と、硬化工程の後で炭素系接着剤Mを炭化させ炭素からなる接着層30を形成する炭素化工程と、を含む。接着層30を介して全体が一体化し、強固な黒鉛接合板1を得ることができる。【選択図】図3
GRAPHITE JOINTING PLATE AND METHOD FOR PRODUCING GRAPHITE JOINTING PLATE
黒鉛接合板および黒鉛接合板の製造方法
KITAGUCHI HIRO (author) / ITO TOSHIKI (author) / HORIO SACHIKA (author)
2019-09-12
Patent
Electronic Resource
Japanese
IPC:
C04B
Kalk
,
LIME
/
C09J
ADHESIVES
,
Klebstoffe
/
F27D
Einzelheiten oder Zubehör für Industrieöfen, Schachtöfen, Brennöfen oder Retorten, soweit sie nicht auf eine Ofenart eingeschränkt sind
,
DETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE