In the present study a new approach on strengthening of innovative high-temperature Me-Si-B (Me = Mo, V) materials by Y₂O₃ particles is presented. This approach combines the oxide dispersed strengthening (ODS) mechanism and additive processing of innovative intermetallic materials. To this end, gas atomized powder material, suitable for additive manufacturing, was doped with Y₂O₃ particles. Bulk materials were manufactured via direct energy deposition (DED), which is an efficient method to generate crack-free Me-Si-B alloys. The DED process further allows the homogeneous distribution of Y₂O₃ particles in the intermetallic matrix. Hardness measurements as well as uniaxial compression tests depict the potential of novel Y₂O₃ reinforced Me-Si-B alloys.

在本研究中加强创新高温ME-的Si-B的一种新的方法（ME =沫，V）材料由Y ₂ ö ₃颗粒被呈现。这种方法结合了氧化物弥散强化 (ODS) 机制和创新金属间材料的增材加工。为此，气体雾化粉末材料，适合的添加剂制造，掺杂有ý ₂ ö _3个颗粒。大块材料是通过直接能量沉积 (DED) 制造的，这是一种生成无裂纹 Me-Si-B 合金的有效方法。所述DED方法进一步允许Y的均匀分布₂ ö ₃金属间化合物基质中的颗粒。硬度测量以及单轴压缩试验描绘的新颖Y上的潜在₂ ö ₃增强ME-的Si-B合金。