种铁基非晶态合金的制备方法,本发明制备方法通过将Fe:89.6-92.4kg,Cr:0.08-0.19kg,Cu:0.02-0.05kg,Si:3.8-5.2kg,B:2.1-3.2kg,C:0.05-0.16kg,Ti:0.33-0.82kg在真空炉中融化,终制得铁基非晶态合金材料。
一种铁基非晶合金的制备方法
[0001]本发明涉及一种材料科学领域,特别是涉及一种铁基非晶合金的制备方法。
[0002]一般的非晶合金材料由于电阻率高,并且无晶体的各向异性,具有高的导磁率,是优良的磁材料,可广泛应用于变压器、互感器、传感器等领域。非晶合金材料的制造方法一般采用电弧熔炼等,工艺步骤较多,能源消耗很大,成本高,不够环保。
PVL23-26-136-F-1R-UU-10 PVL23-33-136-F-1R-UU-10
PVL23-41-136-F-1R-UU-10 PVL23-47-136-F-1R-UU-10
PVL23-53-136-F-1R-UU-10 PVL23-59-136-F-1R-UU-10
PVL23-65-136-F-1R-UU-10 PVL23-75-136-F-1R-UU-10
PVL23-26-153-F-1R-UU-10 PVL23-33-153-F-1R-UU-10
PVL23-41-153-F-1R-UU-10 PVL23-47-153-F-1R-UU-10
PVL23-53-153-F-1R-UU-10 PVL23-59-153-F-1R-UU-10
PVL23-65-153-F-1R-UU-10 PVL23-75-153-F-1R-UU-10
台湾HIGH-TECH海特克叶片泵
PVL1-6-F-1R-U-10 PVL1-8-F-1R-U-10
PVL1-10-F-1R-U-10 PVL1-12-F-1R-U-10
PVL1-14-F-1R-U-10 PVL1-17-F-1R-U-10
PVL1-19-F-1R-U-10 PVL1-23-F-1R-U-10
PVL1-25-F-1R-U-10 PVL1-28-F-1R-U-10
PVL1-31-F-1R-U-10
PVL2-26-F-1R-U-10 PVL2-33-F-1R-U-10
PVL2-41-F-1R-U-10 PVL2-47-F-1R-U-10
PVL2-53-F-1R-U-10 PVL2-59-F-1R-U-10
PVL2-65-F-1R-U-10 PVL2-75-F-1R-U-10
PVL3-52-F-1R-U-10 PVL3-60-F-1R-U-10
PVL2-66-F-1R-U-10 PVL2-76-F-1R-U-10
PVL2-85-F-1R-U-10 PVL2-94-F-1R-U-10
PVL2-116-F-1R-U-10 PVL2-125-F-1R-U-10
PVL2-136-F-1R-U-10 PVL2-153-F-1R-U-10
PVL1-6-FS-1R-U-10 PVL1-8-FS-1R-U-10
PVL1-10-FS-1R-U-10 PVL1-12-FS-1R-U-10
PVL1-14-FS-1R-U-10 PVL1-17-FS-1R-U-10
PVL1-19-FS-1R-U-10 PVL1-23-FS-1R-U-10
PVL1-25-FS-1R-U-10 PVL1-28-FS-1R-U-10
PVL1-31-FS-1R-U-10
PVL2-26-FS-1R-U-10 PVL2-33-FS-1R-U-10
PVL2-41-FS-1R-U-10 PVL2-47-FS-1R-U-10
PVL2-53-FS-1R-U-10 PVL2-59-FS-1R-U-10
PVL2-65-FS-1R-U-10 PVL2-75-FS-1R-U-10
PVL3-52-FS-1R-U-10 PVL3-60-FS-1R-U-10
PVL2-66-FS-1R-U-10 PVL2-76-FS-1R-U-10
PVL2-85-FS-1R-U-10 PVL2-94-FS-1R-U-10
PVL2-116-FS-1R-U-10 PVL2-125-FS-1R-U-10
PVL2-136-FS-1R-U-10 PVL2-153-FS-1R-U-10
[0003]非晶合金材料的主要原材料为铁、硅、硼等,通常采用使母合金从熔融状态急冷凝固的急冷技术制取非晶态合金薄带,通过使之急速地凝固而铸造成薄带,薄带的厚度不及人头发丝四分之一,后得到了原子排列组合上呈现出短程有序、长程无序特点的非晶态合金薄带