Changes in Carbon Content of Materials of the Japanese Sword under Traditional Forging Process

The Japanese sword has excellent strength-toughness balance given by two traditional processes. One process is compounding of inner tough iron and outer strong steel. And the other process is cooling-rate control quenching by using thickness of clay-coating before quenching. However, it is a precond...

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Veröffentlicht in:	Tetsu to hagane 2007/12/01, Vol.93(12), pp.792-798
Hauptverfasser:	SASAKI, Naohiko, MOMONO, Tadashi
Format:	Artikel
Sprache:	jpn
Schlagworte:	carbon concentration carbon content carburization decarburization diffusion fold-forging forge-welding Japanese sword TAMAHAGANE steel
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container_title	Tetsu to hagane
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creator	SASAKI, Naohiko MOMONO, Tadashi
description	The Japanese sword has excellent strength-toughness balance given by two traditional processes. One process is compounding of inner tough iron and outer strong steel. And the other process is cooling-rate control quenching by using thickness of clay-coating before quenching. However, it is a precondition for acquiring high strength-toughness that carbon content of sword parts are regulated in proper quantities. Carbon content of sword parts is very important and controlled under forging process which contains TSUMI-WAKASHI (forge-welding piled steel chips) work and fold-forging. Therefore, changes in carbon content of TAMA-HAGANE steels and carbon steels under traditional forging process were investigated in this study. Changes in carbon content depended on enclosing decarburized or carburized surface in steel as forge-weld interface. Total changes in carbon content were proportional to total layers of included surface in steel. Changes in carbon content per one forge-welded layer. “d (mass%/layer)” was ruled by carbon content of raw materials “C0 (mass%)”. When C0 is over 0.2 mass%, carbon content of forged steel is decreasing and the more C0, the more \|d \|. C0 is under 0.2 mass%, carbon content is increasing. The mass of forged steels is 4% increasing per one fold-forging cycle, but d is not affected by changes in mass of them.
doi_str_mv	10.2355/tetsutohagane.93.792
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One process is compounding of inner tough iron and outer strong steel. And the other process is cooling-rate control quenching by using thickness of clay-coating before quenching. However, it is a precondition for acquiring high strength-toughness that carbon content of sword parts are regulated in proper quantities. Carbon content of sword parts is very important and controlled under forging process which contains TSUMI-WAKASHI (forge-welding piled steel chips) work and fold-forging. Therefore, changes in carbon content of TAMA-HAGANE steels and carbon steels under traditional forging process were investigated in this study. Changes in carbon content depended on enclosing decarburized or carburized surface in steel as forge-weld interface. Total changes in carbon content were proportional to total layers of included surface in steel. Changes in carbon content per one forge-welded layer. “d (mass%/layer)” was ruled by carbon content of raw materials “C0 (mass%)”. When C0 is over 0.2 mass%, carbon content of forged steel is decreasing and the more C0, the more \|d \|. C0 is under 0.2 mass%, carbon content is increasing. 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source	J-STAGE (Free - Japanese); Free E-Journal (出版社公開部分のみ）
subjects	carbon concentration carbon content carburization decarburization diffusion fold-forging forge-welding Japanese sword TAMAHAGANE steel
title	Changes in Carbon Content of Materials of the Japanese Sword under Traditional Forging Process
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