• 열처리공학회지
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• 제6권1호
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• pp.26-36
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• 1993

In this study, the ausformed martensite and marformed martensite obtained from austenite with various deformation degrees in Fe-31% Ni-0.2%C alloy were transformed to revesed austenite at $510^{\circ}C$ by cyclic reverse martensite transformation. The effect of prior deformation, the rapid heating rate of reversion and number of cyclic transformation on the microstructure, mechanical properties of reversed austenite were investigated. The reverse austenite transformation is accomplised by the mechanism of shear type transformation. The structure of reversed austenite formed from ausformed martensite and marformed martensite with high deformation degrees is a fine structure of nearly equiaed grain containg a high density of dislocation tangles and was largely affected by the prior deformation applied before reversal transformation. The strength of reversed austenite is more increased with of cyclic transformation especially it is strength at the first cyclic transformation. The yield stress of revesed austenite of ausformed martensite is lower than that of marformed martensite.

• 열처리공학회지
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• 제7권2호
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• pp.88-95
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• 1994

In order to compare mechanical properties of ausformed martensite with those of marformed martemsite in Fe-30%Ni-0.1%C alloy and to investigate their strengthening mechanisms, ausformed martensite and marformed martensite were prepared by ausforming treatment and marforming treatment respectively. The microstructures were observed and the quantities of retained austenite, hardness, yield strength, ultimate tensile strength and elongation were examined. The strength of ausformed martensite was mainly increased because of the lattice defects inherited from austenite. The ductility of ausformed martensite was constant at the rate of 7-8% by ductile matrix formation of the retained austenite in spite of the increase in strength. The strength of marformed martensite was increased by the increment in dislocation density, the crossing of transformation twin with deformation twin and the mutual crossing of deformation twin. The ductility of mar formed martensite was slightly lower than that of ausformed martensite, but the strength of mar formed martensite was prominently higher.

• 열처리공학회지
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• 제12권4호
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• pp.313-319
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• 1999

The reverse transformation behavior was investigated by DSC analysis in thermomechanically processed Fe-30%Ni-0.35%C alloy. Upon increasing the heating rate from $5^{\circ}C/min$ to $80^{\circ}C/min$, the As point of the ausformed martensite was not changed and the As point of the marformed martensite decreased at reverse transformation. The Af points showed to be constant with increasing the heating rate both in the ausformed martensite and in the marformed martensite. With increasing the deformation degree, the As points of the ausformed martensite and the marformed martensite increased and the Af points appeared to be constant, structures. The enthalpy changes increased with increasing the heating rate, but decreased with increasing the deformation degree in both structures.

• 열처리공학회지
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• 제11권2호
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• pp.75-81
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• 1998

The effect of thermomechanical treatment on thermal expantion and melting point of Fe-30%Ni-0.35%C alloy was investigated. The dimention changes of the ausformed martensite and the marformed martensite were decreased with increasing deformation degree in the range of $25{\sim}350^{\circ}C$ prior to reverse transformation but became larger in the range of $500{\sim}800^{\circ}C$ after the reverse transformation. The dimension change and the thermal expansion coefficient were reduced in the order of the deformed austenite, the marformed martensite and the ausformed martensite in the range of $25{\sim}800^{\circ}C$. Therefore, the ausforming treatment is more effective than the marforming treatment in improving the heat-resistance. The melting points of the deformed austenite, the ausformed martensite and the marformed martensite were lowered as either the heating rate or the degree of deformation was increased.

• 한국재료학회지
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• 제10권6호
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• pp.392-397
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• 2000

Fe-30Ni-0.35C 합금과 몇가지 저융점 순금속의 상변태에 미치는 압력의 영향에 대하여 PDSC를 이용하여 조사하였다. Fe-30Ni-0.35C 합금의 오스폼트 마르텐사이트 및 마르폼드 마르텐사이트 오스테나이트로 역변태시 압력이 1 기압에서 60기압으로 증가하에 따라. $A_s$점이 약 $2~4^{\circ}C$ 저하하며, 이것은 상전이시의 체적변화가 음의 값이 되기 때문이다. 또한 $A_f$ 점은 압력이 증가함에 따라 변함없이 일정하거나 매우 미소한 상승을 나타내는데, 이것은 압력이 증가할수록 탄화물의 석출이 촉진되기 때문이다. Fe-30Ni-0.35C 합금의 오스폼드 마르텐사이트의 역변태시 엔탈피변화는 압력이 1 기압에서 60기압으로 상승함에 따라 10~14J/g 증가한다. 순금속 Se, Sn, Pb, Zn, Te 등의 용융점은 압력이 1기압에서 60기압으로 증가함에 따라 매우 완만하게 상승하며, 용융시의 엔탈피변화는 압력의 증가에 따라 거의 변화가 없거나 미소 증가를 나타낸다.