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      KCI등재

      이중복합 주조체의 제조에 미치는 구성 재질과 주조 조건의 영향 = Influences of Casting Conditions and Constituent Materials on the Production of Duo-castings

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      https://www.riss.kr/link?id=A105237530

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      다국어 초록 (Multilingual Abstract)

      In this study, the effects of the pouring temperature, preheating temperature, surface condition and fraction of the wear resistant part on the production of duo-castings were investigated using a high Cr white cast iron with excellent abrasion resist...

      In this study, the effects of the pouring temperature, preheating temperature, surface condition and fraction of the wear resistant part on the production of duo-castings were investigated using a high Cr white cast iron with excellent abrasion resistance and a low Cr alloy steel with good toughness. The constituent materials of the duo-castings were designed to have high hardness, fracture toughness and abrasive wear resistance for the replacement of high Mn alloy steels with low abrasive wear resistance. In particular, the amount of abrasive wear of 17% Cr white cast iron was about 1/20 of that of high Mn alloy steel. There was an intermediate area of about 3mm due to local melting at the bonding interface of the duo-castings. These intermediate regions were different from those of the constituent materials in chemical composition and microstructure. This region led to fracture within the wear resistant part rather than at the bonding interface in the bending strength test. The bending fracture strengths were 516-824 MPa, which were equivalent to the bending proof strength of high Mn steel. The effects of various casting conditions on the duo-cast behavior were studied by simple pouring of low Cr alloy steel melt, but the results proved practically impossible to manufacture duo-castings with a sound bonding interface. However, the external heating method was suitable for the production of duo-castings with a sound bonding interface.

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      참고문헌 (Reference)

      1 조현욱, "고크롬 백주철의 미세조직과 기계적 특성에 미치는 초기응고 조직의 영향" 한국주조공학회 35 (35): 178-184, 2015

      2 Valentina Cappello, "Ultrastructural Characterization of the Lower Motor System in a Mouse Model of Krabbe Disease" Springer Nature 6 (6): 2016

      3 Norbert Guerard, "U.S. Patent, No. 5,238,046A, Method of manufacturing a bimetal casting and wearing part produced by this method"

      4 H.Fredricksson, "Segregation phenomena in iron-base alloys" 5 : 27-32, 1976

      5 Karl-Heinz Zum Gahr, "Optimizing fracture toughness and abrasion resistance in white cast irons" Springer Nature 11 (11): 613-620, 1980

      6 D.E. Diesburg, "Optimizing abrasion resistance and toughness in steels and irons for the mining industry" Climax Molybdenum Company 15-41, 1974

      7 C. P. Tabrett, "Microstructure-property relationships in high chromium white iron alloys" Informa UK Limited 41 (41): 59-82, 2013

      8 S. Atamert, "Microstructure and stability of FeCrC hardfacing alloys" Elsevier BV 130 (130): 101-111, 1990

      9 "Metals Handbook, Vol 1, Alloy Cast Irons"

      10 T.E. Norman, "Martensitic white irons for abrasion resistant castings" 67 : 242-256, 1959

      1 조현욱, "고크롬 백주철의 미세조직과 기계적 특성에 미치는 초기응고 조직의 영향" 한국주조공학회 35 (35): 178-184, 2015

      2 Valentina Cappello, "Ultrastructural Characterization of the Lower Motor System in a Mouse Model of Krabbe Disease" Springer Nature 6 (6): 2016

      3 Norbert Guerard, "U.S. Patent, No. 5,238,046A, Method of manufacturing a bimetal casting and wearing part produced by this method"

      4 H.Fredricksson, "Segregation phenomena in iron-base alloys" 5 : 27-32, 1976

      5 Karl-Heinz Zum Gahr, "Optimizing fracture toughness and abrasion resistance in white cast irons" Springer Nature 11 (11): 613-620, 1980

      6 D.E. Diesburg, "Optimizing abrasion resistance and toughness in steels and irons for the mining industry" Climax Molybdenum Company 15-41, 1974

      7 C. P. Tabrett, "Microstructure-property relationships in high chromium white iron alloys" Informa UK Limited 41 (41): 59-82, 2013

      8 S. Atamert, "Microstructure and stability of FeCrC hardfacing alloys" Elsevier BV 130 (130): 101-111, 1990

      9 "Metals Handbook, Vol 1, Alloy Cast Irons"

      10 T.E. Norman, "Martensitic white irons for abrasion resistant castings" 67 : 242-256, 1959

      11 Robert O. Ritchie, "Further considerations on the inconsistency in toughness evaluation of AISI 4340 steel austenitized at increasing temperatures" Springer Nature 9 (9): 331-341, 1978

      12 Robert O. Ritchie, "Evaluation of toughness in AISI 4340 alloy steel austenitized at low and high temperatures" Springer Nature 7 (7): 831-838, 1976

      13 Yu SK, "Effects of mo on the microstructure and hardness in high chromium cast irons" 16 : 141-148, 1996

      14 Kim CK, "Effects of heat treatment on wear resistance and fracture toughness of duo-cast materials composed of high-chromium white cast iron and low-chromium steel" 37A : 633-643, 2006

      15 Oh H, "Correlation of microstructure with the wear resistance and fracture toughness of duocast materials composed of high-chromium white cast iron and low-chromium steel" 32A : 515-524, 2001

      16 Kaoru Horiuchi, "Composite material having wear- and impact-resisting surface and process for producing same"

      17 J.A. Begley, "ASTM STP 631, Flaw growth and fracture"

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