Laser & Optoelectronics Progress, Volume. 58, Issue 21, 2114010(2021)
Influence of Laser Cladding Parameters on Turning Performance of Laser-Cladded 316 Stainless Steel Coating on 45 Steel Surface
Fig. 1. Experimental platform and processing drawing of laser cladding. (a) Laser cladding platform; (b) schematic
Fig. 2. Digital detection platform
Fig. 3. Chips morphologies of nine samples. (a) Macro morphology of chips; (b) ratio of the spring chips to all chips
Fig. 4. Macro morphologies of samples before and after turning. (a) Before turning; (b) after turning
Fig. 5. Surface roughness of each sample
Fig. 6. Measuring error bar for surface roughness of each sample
Fig. 7. Cylindricity of each sample
Fig. 8. Measuring error bar for cylindricity of each sample
Fig. 9. Rockwell hardness of cladding layer before and after turning
Fig. 10. Measuring error bar for Rockwell hardness of cladding layer before and after turning. (a) Before turning; (b) after turning
Fig. 11. Microstructures of laser cladding 316 stainless steel layer after turning. (a) A3 sample; (b) A1 sample
|
|
Get Citation
Copy Citation Text
Sheng Wang, Zhiyi Zheng, Ming'an Zhou, Wenjun Liu, Enming Zhang. Influence of Laser Cladding Parameters on Turning Performance of Laser-Cladded 316 Stainless Steel Coating on 45 Steel Surface[J]. Laser & Optoelectronics Progress, 2021, 58(21): 2114010
Category: Lasers and Laser Optics
Received: Nov. 14, 2020
Accepted: Dec. 27, 2020
Published Online: Nov. 1, 2021
The Author Email: Wang Sheng (158942287@qq.com)