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    High-Strength and Highly Fatigue-Resistant Steel Rail and Production Method Thereof

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    Abstract The present invention relates to a high-strength, highly wear-resistant, and highly contact-fatigue-resistant steel rail and a production method thereof, and belongs to the field of black steel manufacturing technology. The present invention provides a high-strength 5 and highly fatigue-resistant steel rail, comprising the following chemical components by weight percentage: C: 0.76%-0.86%; Si: 0.6%-1%; Mn: 0.7%-1.5%, Cr: 0.1%-0.5%, and 0.8%sMn%+Cr%s1.6%; V: 0.05%-0.3%, Ni: 0.1%-0.35%, and 0.15%sV%+Ni%s0.4%; Mo: 50.03%; P: 50.02%; S: 50.015%; Fe and inevitable impurities: the remaining content, wherein, the metallurgical structure of the steel rail is fine pearlite + A, where, A is 10 proeutectoid ferrite or proeutectoid cementite, and As2%. The tensile strength of the obtained steel rail is 1,260MPa-1,42OMPa. | 72811961 (GHMatters) P101957.AU GARYC Drawings 5 Figure 1 | 72811961 (GHMatters) P101957.AU GARYC

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    High-Strength and Highly Fatigue-Resistant Steel Rail and Production Method Thereof

    New search for: DENG YONG
    New search for: GUO HUA
    New search for: ZOU MING
    New search for: JIA JIHAI
    New search for: WANG CHUNJIAN
    New search for: HAN ZHENYU
    New search for: YUAN JUN

    Abstract The present invention relates to a high-strength, highly wear-resistant, and highly contact-fatigue-resistant steel rail and a production method thereof, and belongs to the field of black steel manufacturing technology. The present invention provides a high-strength 5 and highly fatigue-resistant steel rail, comprising the following chemical components by weight percentage: C: 0.76%-0.86%; Si: 0.6%-1%; Mn: 0.7%-1.5%, Cr: 0.1%-0.5%, and 0.8%sMn%+Cr%s1.6%; V: 0.05%-0.3%, Ni: 0.1%-0.35%, and 0.15%sV%+Ni%s0.4%; Mo: 50.03%; P: 50.02%; S: 50.015%; Fe and inevitable impurities: the remaining content, wherein, the metallurgical structure of the steel rail is fine pearlite + A, where, A is 10 proeutectoid ferrite or proeutectoid cementite, and As2%. The tensile strength of the obtained steel rail is 1,260MPa-1,42OMPa. | 72811961 (GHMatters) P101957.AU GARYC Drawings 5 Figure 1 | 72811961 (GHMatters) P101957.AU GARYC

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    High-Strength and Highly Fatigue-Resistant Steel Rail and Production Method Thereof

    New search for: DENG YONG
    New search for: GUO HUA
    New search for: ZOU MING
    New search for: JIA JIHAI
    New search for: WANG CHUNJIAN
    New search for: HAN ZHENYU
    New search for: YUAN JUN

    Abstract The present invention relates to a high-strength, highly wear-resistant, and highly contact-fatigue-resistant steel rail and a production method thereof, and belongs to the field of black steel manufacturing technology. The present invention provides a high-strength 5 and highly fatigue-resistant steel rail, comprising the following chemical components by weight percentage: C: 0.76%-0.86%; Si: 0.6%-1%; Mn: 0.7%-1.5%, Cr: 0.1%-0.5%, and 0.8%sMn%+Cr%s1.6%; V: 0.05%-0.3%, Ni: 0.1%-0.35%, and 0.15%sV%+Ni%s0.4%; Mo: 50.03%; P: 50.02%; S: 50.015%; Fe and inevitable impurities: the remaining content, wherein, the metallurgical structure of the steel rail is fine pearlite + A, where, A is 10 proeutectoid ferrite or proeutectoid cementite, and As2%. The tensile strength of the obtained steel rail is 1,260MPa-1,42OMPa. | 72811961 (GHMatters) P101957.AU GARYC Drawings 5 Figure 1 | 72811961 (GHMatters) P101957.AU GARYC

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    Title:

    High-Strength and Highly Fatigue-Resistant Steel Rail and Production Method Thereof

    Contributors:

    DENG YONG (author) / GUO HUA (author) / ZOU MING (author) / JIA JIHAI (author) / WANG CHUNJIAN (author) / HAN ZHENYU (author) / YUAN JUN (author)

    Publication date:

    2017-06-15

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    English

    Classification:

    IPC:  C22C Legierungen , ALLOYS / B21B Walzen von Metall , ROLLING OF METAL / E01B PERMANENT WAY , Gleisoberbau

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