采用铜箔/90W-10Ni(质量分数)混合粉末/镍箔多中间层,在加压5 MPa、连接温度1150°C、保温60 min的工艺条件下,对纯钨(W)和0Cr13Al铁素体不锈钢进行真空扩散连接。利用SEM、EDS、电子万能试验机及水淬热震实验等手段研究接头的微观组织、成分分布、断口特征、力学性能及抗热震性能。结果表明,连接接头由钨母材/Cu-Ni合金层/W-Ni复合材料层/镍层/钢母材五部分组成。接头中的W-Ni复合材料层由90W-10Ni混合粉末固相烧结而生成,其组织均匀、致密。W-Ni复合材料层与钨母材以瞬间液相扩散连接机制来实现良好结合。接头剪切强度达到256 MPa,断裂均发生在W-Ni复合材料层与镍层的结合区域,断口形貌呈现为韧性断裂。经过60次700°C至室温的水淬热震测试,接头无裂纹出现。%Diffusion bonding between tungsten and 0Cr13Al stainless steel using a Cu/90W-10Ni powder mixtures/Ni multi-interlayer was carried out in vacuum at 1150 °C with a pressure of 5 MPa for 60 min. The microstructures, composition distribution and fracture characteristics of the joint were studied by SEM and EDS. Joint properties were evaluated by shear experiments and thermal shock tests. The results showed that the joints comprised tungsten/Cu-Ni sub-layer/W-Ni composites sub-layer/Ni sub-layer/0Cr13Al stainless steel. The W-Ni composites sub-layer with a homogeneous and dense microstructure was formed by solid phase sintering of 90W-10Ni powder mixtures. Sound bonding between tungsten base material and W-Ni composites sub-layer was realized based on transient liquid phase (TLP) diffusion bonding mechanism. Joints fractured at bonding zone of W-Ni composites sub-layer and Ni sub-layer during shear testing, and the average strength was 256 MPa. Thermal shock tests showed that joints could withstood 60 thermal cycles quenching from 700 °C to room temperature.
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