Studies of invar alloys sintered from powders mixtures

E. Abdulmenova, V. Kashirina, S. Kulkov
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引用次数: 2

Abstract

In this work studies of the alloys sintered by powder metallurgy method are presented. Samples were obtained from mixtures of powders Fe and Ni (30–40 wt % Ni) after ball-mill treatment, cold pressing and sintered in a vacuum furnace. It has been shown that the face centered cubic and body centered cubic (no more than 5%) alloys are formed at sintering of powders mixture. The lattice parameter of the γ-phase depends on content of Ni and increases from 3.585×10−10 to 3.596−10 m, these lattice parameters correspond to well-known invar alloys. The hardness of sintered samples changes from 0.8 to 1.5 GPa, the Young’s modulus changes from 83 to 126 GPa that correspond to values obtained for invar alloy in literature. The coefficient of thermal expansion is 1.1×10−6°С−1 for interval 0–150°С and is 15.8 × 10−6°С–1 for interval 300–500°С and this change corresponds to magnetic transformation at 225°С. So, alloys obtained by sintering of powders Fe and Ni are formed as invar alloy and its properties are typical of cast alloys.In this work studies of the alloys sintered by powder metallurgy method are presented. Samples were obtained from mixtures of powders Fe and Ni (30–40 wt % Ni) after ball-mill treatment, cold pressing and sintered in a vacuum furnace. It has been shown that the face centered cubic and body centered cubic (no more than 5%) alloys are formed at sintering of powders mixture. The lattice parameter of the γ-phase depends on content of Ni and increases from 3.585×10−10 to 3.596−10 m, these lattice parameters correspond to well-known invar alloys. The hardness of sintered samples changes from 0.8 to 1.5 GPa, the Young’s modulus changes from 83 to 126 GPa that correspond to values obtained for invar alloy in literature. The coefficient of thermal expansion is 1.1×10−6°С−1 for interval 0–150°С and is 15.8 × 10−6°С–1 for interval 300–500°С and this change corresponds to magnetic transformation at 225°С. So, alloys obtained by sintering of powders Fe and Ni are formed as invar alloy and its properties are typical of...
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粉末混合物烧结英瓦尔合金的研究
本文介绍了粉末冶金法烧结合金的研究情况。样品由铁和Ni粉末(30-40 wt % Ni)的混合物,经过球磨机处理,冷压和真空炉烧结得到。结果表明,粉末混合物在烧结时形成面心立方合金和体心立方合金(不超过5%)。γ相的晶格参数随Ni含量的增加而增大,从3.585×10−10到3.596−10 m,这些晶格参数对应于众所周知的因瓦尔合金。烧结试样的硬度变化范围为0.8 ~ 1.5 GPa,杨氏模量变化范围为83 ~ 126 GPa,与文献中英瓦尔合金的数值一致。0-150°С区间的热膨胀系数为1.1×10−6°С−1,300-500°С区间的热膨胀系数为15.8 ×10−6°С-1,这一变化对应于225°С的磁转变。因此,由铁和镍粉末烧结而成的合金是不可合金,其性能是典型的铸造合金。本文介绍了粉末冶金法烧结合金的研究情况。样品由铁和Ni粉末(30-40 wt % Ni)的混合物,经过球磨机处理,冷压和真空炉烧结得到。结果表明,粉末混合物在烧结时形成面心立方合金和体心立方合金(不超过5%)。γ相的晶格参数随Ni含量的增加而增大,从3.585×10−10到3.596−10 m,这些晶格参数对应于众所周知的因瓦尔合金。烧结试样的硬度变化范围为0.8 ~ 1.5 GPa,杨氏模量变化范围为83 ~ 126 GPa,与文献中英瓦尔合金的数值一致。0-150°С区间的热膨胀系数为1.1×10−6°С−1,300-500°С区间的热膨胀系数为15.8 ×10−6°С-1,这一变化对应于225°С的磁转变。因此,由Fe和Ni粉末烧结而成的合金为invar合金,其性能具有典型的…
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