The characteristic of the bond zone between Ni-based alloy light beam surfacing layer(SL)and base metal(BM)was investigated by scanning electron microscope,energy dispersive spectrometer and X-ray diffraction.The resu...The characteristic of the bond zone between Ni-based alloy light beam surfacing layer(SL)and base metal(BM)was investigated by scanning electron microscope,energy dispersive spectrometer and X-ray diffraction.The results show that the bond zone,which consists ofγ-Ni orγ-(Fe,Ni)planar crystal band close to SL andα-Fe bright band close to heat affected zone(HAZ),is actually the transition zone of composition and microstructure between SL and HAZ,and the metallurgical bond interface lies between theα-Fe bright band and HAZ.With the increase of light beam heat input from 2kJ/mm to 4kJ/mm,the width of the bond zone increases from 4μm to 15μm,and the morphology of bond interface changes from zigzag to straight.The formation of bond interface indicates the formation of reliable metallurgical bond between SL and BM.展开更多
The characteristic of the bond zone between Ni-based alloy light beam surfacing layer (SL) and base metal (BM) was investigated by scanning electron microscope, energy dispersive spectrometer and X-ray diffraction. Th...The characteristic of the bond zone between Ni-based alloy light beam surfacing layer (SL) and base metal (BM) was investigated by scanning electron microscope, energy dispersive spectrometer and X-ray diffraction. The results show that the bond zone, which consists of γ-Ni or γ-(Fe, Ni) planar crystal band close to SL and α-Fe bright band close to heat affected zone (HAZ), is actually the transition zone of composition and microstructure between SL and HAZ, and the metallurgical bond interface lies between the α-Fe bright band and HAZ. With the increase of light beam heat input from 2 kJ/mm to 4 kJ/mm, the width of the bond zone increases from 4 μm to 15 μm, and the morphology of bond interface changes from zigzag to straight. The formation of bond interface indicates the formation of reliable metallurgical bond between SL and BM.展开更多
基金Item Sponsored by National Natural Science Foundation of China(59905017)
文摘The characteristic of the bond zone between Ni-based alloy light beam surfacing layer(SL)and base metal(BM)was investigated by scanning electron microscope,energy dispersive spectrometer and X-ray diffraction.The results show that the bond zone,which consists ofγ-Ni orγ-(Fe,Ni)planar crystal band close to SL andα-Fe bright band close to heat affected zone(HAZ),is actually the transition zone of composition and microstructure between SL and HAZ,and the metallurgical bond interface lies between theα-Fe bright band and HAZ.With the increase of light beam heat input from 2kJ/mm to 4kJ/mm,the width of the bond zone increases from 4μm to 15μm,and the morphology of bond interface changes from zigzag to straight.The formation of bond interface indicates the formation of reliable metallurgical bond between SL and BM.
基金Item Sponsored by Scientific and Technological Brainstorm Project for Eighth Five-Year Plan of China(85-10-03-06-01)Provincial Science and Technology Development Foundation of Hubei of China(932P0302)
文摘The characteristic of the bond zone between Ni-based alloy light beam surfacing layer (SL) and base metal (BM) was investigated by scanning electron microscope, energy dispersive spectrometer and X-ray diffraction. The results show that the bond zone, which consists of γ-Ni or γ-(Fe, Ni) planar crystal band close to SL and α-Fe bright band close to heat affected zone (HAZ), is actually the transition zone of composition and microstructure between SL and HAZ, and the metallurgical bond interface lies between the α-Fe bright band and HAZ. With the increase of light beam heat input from 2 kJ/mm to 4 kJ/mm, the width of the bond zone increases from 4 μm to 15 μm, and the morphology of bond interface changes from zigzag to straight. The formation of bond interface indicates the formation of reliable metallurgical bond between SL and BM.
