The vacuum electronic device is the key components widely used in the fields of radar,navigation,electronic warfare and so on.Multi-brazing process is adopted in the manufacturing,and the leakage is easy to happen at ...The vacuum electronic device is the key components widely used in the fields of radar,navigation,electronic warfare and so on.Multi-brazing process is adopted in the manufacturing,and the leakage is easy to happen at many parts,such as brazed seams and base materials of tube shell,leading breakage of the devices.But now the brazing filler metal used in the stockage of vacuum electronic devices is very seldom.For the safe of vacuum electronic devices,stockage temperature must be lower than the brazing temperature.Gallium is liquid at room temperature,and has a lower vapor pressure.The Ga-based alloy can diffuse with the high melting point metal,and then form heat-resistance and a good sealing performance of solid-state alloys.In this study three kinds of Ga-based alloys used for the stockage were developed.The diffusion brazing for the stockage on three materials with defect,such as OFHC,kovar and Ag-Cu brazed seams was carried out.The influence factors such as parent materials,brazing filler metal and brazing temperature on the stockage quality were discussed.The results indicated that parent materials,brazing filler metals and brazing temperature had obvious influences on stockage.For OFHC and Ag-Cu filler with defects,the stockage effects were better than kovar.The effect of Ga-In-Cu alloy was the best because the compact diffusion layer was formed between the stockage brazing materials and base materials.As the brazing temperature went up,the diffusion layer formed between stockage material and OFHC,kovar became obviously thicker,the stockage effect got better.For Ag-Cu brazing seams,the stockage effect was satisfactory at 500℃,erosion will happen at the higher temperature.展开更多
One of the challenges for bimetal manufacturing is the joining process.Hence,transient liquid phase(TLP)bonding was performed between 304L stainless steel and Cp-Ti using an Ag-Cu interlayer with a thickness of 75μm ...One of the challenges for bimetal manufacturing is the joining process.Hence,transient liquid phase(TLP)bonding was performed between 304L stainless steel and Cp-Ti using an Ag-Cu interlayer with a thickness of 75μm for bonding time of 20,40,60,and 90 min.The bonding temperature of 860℃ was considered,which is under the β transus temperature of Cp-Ti.During TLP bonding,various intermetallic compounds(IMCs),including Ti_(5)Cr_(7)Fe_(17),(Cr,Fe)_(2)Ti,Ti(Cu,Fe),Ti_(2)(Cu,Ag),and Ti_(2)Cu from 304L toward Cp-Ti formed in the joint.Also,on the one side,with the increase in time,further diffusion of elements decreases the blocky IMCs such as Ti_(5)Cr_(7)Fe_(17),(Cr,Fe)_(2)Ti,Ti(Cu,Fe)in the 304L diffusion-affected zone(DAZ)and reaction zone,and on the other side,Ti_(2)(Cu,Ag)IMC transformed into fine morphology toward Cp-Ti DAZ.The microhardness test also demonstrated that the(Cr,Fe)_(2)Ti+Ti_(5)Cr_(7)Fe_(17) IMCs in the DAZ on the side of 304L have a hardness value of HV 564,making it the hardest phase.The maximum and minimum shear strength values are equal to 78.84 and 29.0 MPa,respectively.The cleavage pattern dominated fracture surfaces due to the formation of brittle phases in dissimilar joints.展开更多
基金National Nature Science Foundation of China(51033026)
文摘The vacuum electronic device is the key components widely used in the fields of radar,navigation,electronic warfare and so on.Multi-brazing process is adopted in the manufacturing,and the leakage is easy to happen at many parts,such as brazed seams and base materials of tube shell,leading breakage of the devices.But now the brazing filler metal used in the stockage of vacuum electronic devices is very seldom.For the safe of vacuum electronic devices,stockage temperature must be lower than the brazing temperature.Gallium is liquid at room temperature,and has a lower vapor pressure.The Ga-based alloy can diffuse with the high melting point metal,and then form heat-resistance and a good sealing performance of solid-state alloys.In this study three kinds of Ga-based alloys used for the stockage were developed.The diffusion brazing for the stockage on three materials with defect,such as OFHC,kovar and Ag-Cu brazed seams was carried out.The influence factors such as parent materials,brazing filler metal and brazing temperature on the stockage quality were discussed.The results indicated that parent materials,brazing filler metals and brazing temperature had obvious influences on stockage.For OFHC and Ag-Cu filler with defects,the stockage effects were better than kovar.The effect of Ga-In-Cu alloy was the best because the compact diffusion layer was formed between the stockage brazing materials and base materials.As the brazing temperature went up,the diffusion layer formed between stockage material and OFHC,kovar became obviously thicker,the stockage effect got better.For Ag-Cu brazing seams,the stockage effect was satisfactory at 500℃,erosion will happen at the higher temperature.
文摘One of the challenges for bimetal manufacturing is the joining process.Hence,transient liquid phase(TLP)bonding was performed between 304L stainless steel and Cp-Ti using an Ag-Cu interlayer with a thickness of 75μm for bonding time of 20,40,60,and 90 min.The bonding temperature of 860℃ was considered,which is under the β transus temperature of Cp-Ti.During TLP bonding,various intermetallic compounds(IMCs),including Ti_(5)Cr_(7)Fe_(17),(Cr,Fe)_(2)Ti,Ti(Cu,Fe),Ti_(2)(Cu,Ag),and Ti_(2)Cu from 304L toward Cp-Ti formed in the joint.Also,on the one side,with the increase in time,further diffusion of elements decreases the blocky IMCs such as Ti_(5)Cr_(7)Fe_(17),(Cr,Fe)_(2)Ti,Ti(Cu,Fe)in the 304L diffusion-affected zone(DAZ)and reaction zone,and on the other side,Ti_(2)(Cu,Ag)IMC transformed into fine morphology toward Cp-Ti DAZ.The microhardness test also demonstrated that the(Cr,Fe)_(2)Ti+Ti_(5)Cr_(7)Fe_(17) IMCs in the DAZ on the side of 304L have a hardness value of HV 564,making it the hardest phase.The maximum and minimum shear strength values are equal to 78.84 and 29.0 MPa,respectively.The cleavage pattern dominated fracture surfaces due to the formation of brittle phases in dissimilar joints.
