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首页> 外文期刊>Materials Science and Engineering >Hall-Petch strengthening of the constrained metallic binder in WC-Co cemented carbides: Experimental assessment by means of massive nanoindentation and statistical analysis
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Hall-Petch strengthening of the constrained metallic binder in WC-Co cemented carbides: Experimental assessment by means of massive nanoindentation and statistical analysis

机译:WC-Co硬质合金中受限金属粘结剂的霍尔-帕奇强化:通过大量纳米压痕和统计分析的实验评估

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摘要

WC-Co cemented carbides are geometrically complex composites constituted for two interpenetrating networks of the constitutive ceramic and metal phases. Accordingly, assessment of microstructural effects on the local mechanical properties of each phase is a challenging task, especially for the metallic binder. In this work, it is attempted by combining massive nanoindentation, statistical analysis, and implementation of a thin film model for deconvolution of the intrinsic hardness and flow stress of the metallic phase. Plotting of yield stress values as a function of the binder mean free path results in a Hall-Petch strengthening relationship with a slope (k_y) of 0.98 MPa m~(1/2). This value points out the effectiveness of WC-Co phase boundaries as strong obstacles to slip propagation; and thus, for toughening of the brittle phase (WC) by means of crack-bridging ductile (Co) reinforcement.
机译:WC-Co硬质合金是几何复杂的复合材料,由本构陶瓷和金属相的两个互穿网络组成。因此,评估微结构对每个相的局部机械性能的影响是一项艰巨的任务,特别是对于金属粘结剂而言。在这项工作中,它是通过将大量的纳米压痕,统计分析和用于反演金属相的固有硬度和流动应力的卷积模型相结合来尝试的。将屈服应力值作为粘结剂平均自由程的函数作图,得出霍尔-帕奇强化关系,其斜率(k_y)为0.98 MPa m〜(1/2)。该值指出了WC-Co相边界作为滑动传播的强大障碍的有效性。因此,为了通过脆性延展性(Co)增强来使脆性相(WC)增韧。

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  • 来源
    《Materials Science and Engineering》 |2016年第31期|487-491|共5页
  • 作者

    J.J. Roa; E. Jimenez-Pique; J.M. Tarrago; D.A. Sandoval; A. Mateo; J. Fair; L. Llanes;

  • 作者单位

    CIEFMA-Departament de Ciencia del Materials i Enginyeria Metal.lurgica, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain,CRnE, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain;

    CIEFMA-Departament de Ciencia del Materials i Enginyeria Metal.lurgica, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain,CRnE, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain;

    CIEFMA-Departament de Ciencia del Materials i Enginyeria Metal.lurgica, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain,CRnE, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain;

    CIEFMA-Departament de Ciencia del Materials i Enginyeria Metal.lurgica, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain,CRnE, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain;

    CIEFMA-Departament de Ciencia del Materials i Enginyeria Metal.lurgica, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain,CRnE, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain;

    Sandvik Hyperion, Coventry CV4 0XG, United Kingdom;

    CIEFMA-Departament de Ciencia del Materials i Enginyeria Metal.lurgica, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain,CRnE, Universitat Politecnica de Catalunya, EEBE - Campus Diagonal Besos, 08019 Barcelona, Spain;

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  • 正文语种 eng
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  • 关键词

    Nanoindentation; Composites; Hall-Petch relationship; Phase boundary strengthening;

    机译:纳米压痕复合材料;Hall-Petch关系;相界强化;

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