超音速激光沉积技术:研究现状及发展趋势

姚建华; 吴丽娟; 李波; 张群莉

doi:doi:10.3788/CJL201946.0300001

中国激光, 2019, 46 (3): 0300001, 网络出版: 2019-05-09

超音速激光沉积技术:研究现状及发展趋势下载： 1905次封面文章

Research States and Development Tendency of Supersonic Laser Deposition Technology

姚建华 ^1,2,*吴丽娟 ^1,2李波 ^1,2张群莉 ^1,2

作者单位

¹ 浙江工业大学激光先进制造研究院, 浙江杭州 310014

² 浙江省高端激光制造装备协同创新中心, 浙江杭州 310014

图 & 表

图 1. SLD原理示意图[5]

Fig. 1. Schematic of SLD principle[5]

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图 2. SLD与LC制备的Diamond/Ni60沉积层的拉曼光谱[22]

Fig. 2. Raman spectra of Diamond/Ni60 coatings prepared by SLD and LC[22]

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图 3. SLD制备的Stellite-6沉积层的微观组织[16]

Fig. 3. Microstructure of Stellite-6 coating prepared by SLD[16]

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图 4. 不同方法制备得到的Diamond/Ni60复合沉积层的微观组织[22]。(a) SLD;(b) LC

Fig. 4. Microstructure of Diamond/Ni60 composite coatings by different preparation methods[22]. (a) SLD; (b) LC

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图 5. 不同方法制备得到的钛沉积层的孔隙率[6]。(a) SLD;(b) HVOF

Fig. 5. Porosity of Ti coatings prepared by different methods[6]. (a) SLD; (b) HVOF

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图 6. SLD制备的Ni60沉积层/基体界面的结合特征[18]。(a)沉积层/基体界面结合区;(b)区域1的放大图;(c)区域2的放大图

Fig. 6. Coating/substrate interfacial bonding characteristics of Ni60 coating prepared by SLD[18].(a) Coating/substrate bonding zone; (b) amplification of area 1 in Fig.6(a); (c) amplification of area 2 in Fig.6(a)

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图 7. SLD与LC制备的沉积层的显微硬度。(a) Stellite-6[16]; (b) Ni60[17]

Fig. 7. Microhardness of the coatings prepared by SLD and LC. (a) Stellite-6[16]; (b) Ni60[17]

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图 8. SLD和LC制备的 WC/Stellite-6沉积层的磨痕[24]。(a) SLD,磨痕的低倍形貌; (b) LC,磨痕的低倍形貌;(c) SLD,磨痕的三维形貌;(d) LC,磨痕的三维形貌

Fig. 8. Worn surface of WC/Stellite-6 coatings prepared by SLD and LC[24]. (a) SLD, worn surface at low magnification; (b) LC, worn surface at low magnification; (c) SLD, three-dimensional morphology; (d) LC, three-dimensional morphology

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图 9. SLD与LC制备的Ni60沉积层的极化曲线[27]

Fig. 9. Polarization curves of Ni60 coatings prepared by SLD and LC[27]

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表 1SLD制备的沉积层的概况

Table1. Summary of coatings prepared by supersonic laser deposition

Coating material	Substrate material	Reference
Ti	Steel tube	[6,8]
W	Mo	[9]
Ni60	Carbon steel	[17-18]
Diamond/Ni60	Carbon steel	[20-22]
WC/Stellite-6	Carbon steel	[23-24]
WC/SS316L	Steel	[25-28]
Al-Cu alloy	Ceramic	[35]
Ti-6Al-4V	Ti-6Al-4V	[36]
SS316L	Carbon steel	[37]
Al	304L stainless steel	[38]
Cu	Carbon steel	[39]
Stellite-6	Carbon steel	[7,10-16,40-41]
Cu/Ni+Al₂O₃	Carbon steel	[42]
Al-12%Si	Stainless steel	[43]
Ti+HAP	Ti-6Al-4V	[44]
Ni/Ni60	Carbon steel	[45]
WC/Ni60	Steel	[46]

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姚建华, 吴丽娟, 李波, 张群莉. 超音速激光沉积技术:研究现状及发展趋势[J]. 中国激光, 2019, 46(3): 0300001. Jianhua Yao, Lijuan Wu, Bo Li, Qunli Zhang. Research States and Development Tendency of Supersonic Laser Deposition Technology[J]. Chinese Journal of Lasers, 2019, 46(3): 0300001.

超音速激光沉积技术:研究现状及发展趋势下载： 1905次封面文章

图 1. SLD原理示意图[5]

Fig. 1. Schematic of SLD principle[5]

图 2. SLD与LC制备的Diamond/Ni60沉积层的拉曼光谱[22]

Fig. 2. Raman spectra of Diamond/Ni60 coatings prepared by SLD and LC[22]

图 3. SLD制备的Stellite-6沉积层的微观组织[16]

Fig. 3. Microstructure of Stellite-6 coating prepared by SLD[16]

图 4. 不同方法制备得到的Diamond/Ni60复合沉积层的微观组织[22]。(a) SLD;(b) LC

Fig. 4. Microstructure of Diamond/Ni60 composite coatings by different preparation methods[22]. (a) SLD; (b) LC

图 5. 不同方法制备得到的钛沉积层的孔隙率[6]。(a) SLD;(b) HVOF

Fig. 5. Porosity of Ti coatings prepared by different methods[6]. (a) SLD; (b) HVOF

图 6. SLD制备的Ni60沉积层/基体界面的结合特征[18]。(a)沉积层/基体界面结合区;(b)区域1的放大图;(c)区域2的放大图

Fig. 6. Coating/substrate interfacial bonding characteristics of Ni60 coating prepared by SLD[18].(a) Coating/substrate bonding zone; (b) amplification of area 1 in Fig.6(a); (c) amplification of area 2 in Fig.6(a)

图 7. SLD与LC制备的沉积层的显微硬度。(a) Stellite-6[16]; (b) Ni60[17]

Fig. 7. Microhardness of the coatings prepared by SLD and LC. (a) Stellite-6[16]; (b) Ni60[17]

图 8. SLD和LC制备的 WC/Stellite-6沉积层的磨痕[24]。(a) SLD,磨痕的低倍形貌; (b) LC,磨痕的低倍形貌;(c) SLD,磨痕的三维形貌;(d) LC,磨痕的三维形貌

Fig. 8. Worn surface of WC/Stellite-6 coatings prepared by SLD and LC[24]. (a) SLD, worn surface at low magnification; (b) LC, worn surface at low magnification; (c) SLD, three-dimensional morphology; (d) LC, three-dimensional morphology

图 9. SLD与LC制备的Ni60沉积层的极化曲线[27]

Fig. 9. Polarization curves of Ni60 coatings prepared by SLD and LC[27]

表 1SLD制备的沉积层的概况

Table1. Summary of coatings prepared by supersonic laser deposition

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图 1. SLD原理示意图[5]

Fig. 1. Schematic of SLD principle[5]

图 2. SLD与LC制备的Diamond/Ni60沉积层的拉曼光谱[22]

Fig. 2. Raman spectra of Diamond/Ni60 coatings prepared by SLD and LC[22]

图 3. SLD制备的Stellite-6沉积层的微观组织[16]

Fig. 3. Microstructure of Stellite-6 coating prepared by SLD[16]

图 4. 不同方法制备得到的Diamond/Ni60复合沉积层的微观组织[22]。(a) SLD;(b) LC

Fig. 4. Microstructure of Diamond/Ni60 composite coatings by different preparation methods[22]. (a) SLD; (b) LC

图 5. 不同方法制备得到的钛沉积层的孔隙率[6]。(a) SLD;(b) HVOF

Fig. 5. Porosity of Ti coatings prepared by different methods[6]. (a) SLD; (b) HVOF

图 6. SLD制备的Ni60沉积层/基体界面的结合特征[18]。(a)沉积层/基体界面结合区;(b)区域1的放大图;(c)区域2的放大图

Fig. 6. Coating/substrate interfacial bonding characteristics of Ni60 coating prepared by SLD[18].(a) Coating/substrate bonding zone; (b) amplification of area 1 in Fig.6(a); (c) amplification of area 2 in Fig.6(a)

图 7. SLD与LC制备的沉积层的显微硬度。(a) Stellite-6[16]; (b) Ni60[17]

Fig. 7. Microhardness of the coatings prepared by SLD and LC. (a) Stellite-6[16]; (b) Ni60[17]

图 8. SLD和LC制备的 WC/Stellite-6沉积层的磨痕[24]。(a) SLD,磨痕的低倍形貌; (b) LC,磨痕的低倍形貌;(c) SLD,磨痕的三维形貌;(d) LC,磨痕的三维形貌

Fig. 8. Worn surface of WC/Stellite-6 coatings prepared by SLD and LC[24]. (a) SLD, worn surface at low magnification; (b) LC, worn surface at low magnification; (c) SLD, three-dimensional morphology; (d) LC, three-dimensional morphology

图 9. SLD与LC制备的Ni60沉积层的极化曲线[27]

Fig. 9. Polarization curves of Ni60 coatings prepared by SLD and LC[27]

表 1SLD制备的沉积层的概况

Table1. Summary of coatings prepared by supersonic laser deposition

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