INGOT CONSISTING OF ALLOY OF HIGH MELTING POINT ACTIVE METAL AND MANUFACTURING METHOD THEREFOR
PROBLEM TO BE SOLVED: To provide an ingot consisting of alloy of a high melting point active metal less in deviation of alloy contents, and a manufacturing method therefor.SOLUTION: A maximum value θ with sharp angle by growth direction of columnar crystal structure CO formed outer side of the cente...
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| Format | Patent |
| Language | English Japanese |
| Published |
29.11.2018
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| Abstract | PROBLEM TO BE SOLVED: To provide an ingot consisting of alloy of a high melting point active metal less in deviation of alloy contents, and a manufacturing method therefor.SOLUTION: A maximum value θ with sharp angle by growth direction of columnar crystal structure CO formed outer side of the center of an ingot 16 and inside of the ingot, and a central axis O of the ingot 16 is threshold θsatisfying following formulae (1) to (4) or less, wherein permissible value of segregation degree of an alloy element in a radial direction of the ingot 16 is γ[%], equilibration partition coefficient of the alloy element to a high melting point active metal is k[-], material constant of the alloy element is α [sec./m], casting speed of the ingot 16 is V[m/sec.], dissolution rate of a raw material is M [kg/sec.], density of alloy of the high melting point active metal is ρ [kg/m], cross section area of the ingot 16 is A [m], diameter of the ingot 16 is d [m]. γ=abs(1-β)×100 [%] Formula (1), β={k+(1-k)exp(-αV)}/{k+(1-k)exp(-αVcosθ)} Formula (2), V=M/ρA Formula (3), A=πd/4 Formula (4).SELECTED DRAWING: Figure 6
【課題】合金成分の偏りが少ない高融点活性金属の合金からなる鋳塊、および、その製造方法を提供する。【解決手段】鋳塊16の半径方向における合金元素の偏析度の許容値をγcr[%]、高融点活性金属に対する合金元素の平衡分配係数をk0[−]、合金元素の材料定数をα[秒/m]、鋳塊16の鋳造速度をVc[m/秒]、原料の溶解速度をM[kg/秒]、高融点活性金属の合金の密度をρ[kg/m3]、鋳塊16の断面積をA[m2]、鋳塊16の直径をd[m]とすると、鋳塊16の内部であって、前記鋳塊の中央よりも外側に形成された柱状晶組織COの成長方向と、鋳塊16の中心軸Oとがなす鋭角の最大値θが、以下の式(1)〜(4)を満たす閾値θcr以下にされている。γcr=abs(1−βcr)×100[%] ・・・式(1)、βcr={k0+(1−k0)exp(−αVc)}/{k0+(1−k0)exp(−αVccosθcr)} ・・・式(2)、Vc=M/ρA ・・・式(3)、A=πd2/4 ・・・式(4)【選択図】図6 |
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| AbstractList | PROBLEM TO BE SOLVED: To provide an ingot consisting of alloy of a high melting point active metal less in deviation of alloy contents, and a manufacturing method therefor.SOLUTION: A maximum value θ with sharp angle by growth direction of columnar crystal structure CO formed outer side of the center of an ingot 16 and inside of the ingot, and a central axis O of the ingot 16 is threshold θsatisfying following formulae (1) to (4) or less, wherein permissible value of segregation degree of an alloy element in a radial direction of the ingot 16 is γ[%], equilibration partition coefficient of the alloy element to a high melting point active metal is k[-], material constant of the alloy element is α [sec./m], casting speed of the ingot 16 is V[m/sec.], dissolution rate of a raw material is M [kg/sec.], density of alloy of the high melting point active metal is ρ [kg/m], cross section area of the ingot 16 is A [m], diameter of the ingot 16 is d [m]. γ=abs(1-β)×100 [%] Formula (1), β={k+(1-k)exp(-αV)}/{k+(1-k)exp(-αVcosθ)} Formula (2), V=M/ρA Formula (3), A=πd/4 Formula (4).SELECTED DRAWING: Figure 6
【課題】合金成分の偏りが少ない高融点活性金属の合金からなる鋳塊、および、その製造方法を提供する。【解決手段】鋳塊16の半径方向における合金元素の偏析度の許容値をγcr[%]、高融点活性金属に対する合金元素の平衡分配係数をk0[−]、合金元素の材料定数をα[秒/m]、鋳塊16の鋳造速度をVc[m/秒]、原料の溶解速度をM[kg/秒]、高融点活性金属の合金の密度をρ[kg/m3]、鋳塊16の断面積をA[m2]、鋳塊16の直径をd[m]とすると、鋳塊16の内部であって、前記鋳塊の中央よりも外側に形成された柱状晶組織COの成長方向と、鋳塊16の中心軸Oとがなす鋭角の最大値θが、以下の式(1)〜(4)を満たす閾値θcr以下にされている。γcr=abs(1−βcr)×100[%] ・・・式(1)、βcr={k0+(1−k0)exp(−αVc)}/{k0+(1−k0)exp(−αVccosθcr)} ・・・式(2)、Vc=M/ρA ・・・式(3)、A=πd2/4 ・・・式(4)【選択図】図6 |
| Author | KUROSAWA EISUKE KANEHASHI HIDEKATSU NAKAOKA TAKEHIRO |
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| Snippet | PROBLEM TO BE SOLVED: To provide an ingot consisting of alloy of a high melting point active metal less in deviation of alloy contents, and a manufacturing... |
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| SubjectTerms | ALLOYS BLASTING CASTING CASTING OF METALS CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES CHEMISTRY DETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS,IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KINDOF FURNACE FERROUS OR NON-FERROUS ALLOYS FURNACES HEATING KILNS LIGHTING MECHANICAL ENGINEERING METALLURGY OVENS PERFORMING OPERATIONS POWDER METALLURGY PRETREATMENT OF RAW MATERIALS PRODUCTION AND REFINING OF METALS RETORTS TRANSPORTING TREATMENT OF ALLOYS OR NON-FERROUS METALS WEAPONS |
| Title | INGOT CONSISTING OF ALLOY OF HIGH MELTING POINT ACTIVE METAL AND MANUFACTURING METHOD THEREFOR |
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