Effect of Fiber Laserprocess Parameters on Texture Dimensions Fabricated on Cast Iron Piston Ring Segments

A. Patil, V. Wakchaure, Uddhav M. Shirsat
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Abstract

This study investigates the effect of various fiber laser process parameters on texture diameter, depth and surface roughness of circular shaped textures fabricated on the commercially cast iron piston ring segments. Piston ring segments with hardness 410 HV, Young’s Modulus of 250 Gpa and surface roughness of 0.482 µm were used for the experimentation. The fiber laser system (Marko Laser, Germany), was used for the fabrication of textures on the cast iron segments having specifications like power of 20W, wavelength of 1062nm, maximum frequency 200KHz, maximum speed range of 15000 mm/s. The laser frequency, power, speed and number of loops are the input parameters which were varied to find its effect on the texture dimensions. The approximate target values to be achieved for circular texture dimensions are texture diameter of 100µm (bilateral tolerance of 10µm), texture depth of 20µm (bilateral tolerance of 3µm) and texture surface roughness of 3µm (bilateral tolerance of 0.5µm) respectively. A confocal microscope with three dimensional surface profiler was used to measure the surface topography of the textured surfaces. It has been observed that with increase in laser power initially texture diameter has been reduced but found to be increased for the maximum power condition, while dimple depth and surface roughness of the textures found to be increased gradually. Also with increase in frequency has not a significant effect on the texture diameter but the texture depth and surface roughness has been enhanced drastically. In the similar way with increase in the laser speed and number of loops, initially there was decrease in the texture dimensions but as the speed and number of loops increased the texture dimensions also has a slight enhancement on it. It may be concluded that laser power and laser frequency has a significant impact on the texture dimensions as compared to laser speed and number of loops. Also it can be summarized that for achieving the targeted values of the texture dimensions like texture diameter, texture depth and texture surface roughness on the piston ring surface the laser power of 12W, 8W and 8W, laser frequency of 25 KHz, 25 KHz and 20 KHz, laser scan speed of 170 mm/sec, 140 mm/sec and 110 mm/sec and number of laser loops of 5, 4 and 2 may be used respectively. KEYWORDS: Confocal Microscope; Fiber Laser; Laser Power; Laser Texturing; Texture Dimensions
光纤激光工艺参数对铸铁活塞环管片织构尺寸的影响
研究了不同的光纤激光工艺参数对工业铸铁活塞环管片上织构直径、织构深度和表面粗糙度的影响。实验采用硬度为410 HV、杨氏模量为250 Gpa、表面粗糙度为0.482µm的活塞环管片。光纤激光系统(Marko laser,德国)用于在铸铁段上制造纹理,其规格为功率为20W,波长为1062nm,最大频率为200KHz,最大速度范围为15000 mm/s。以激光频率、功率、速度和循环数作为输入参数,研究其对织构尺寸的影响。圆形纹理尺寸要达到的近似目标值分别为纹理直径100µm(双边公差10µm)、纹理深度20µm(双边公差3µm)和纹理表面粗糙度3µm(双边公差0.5µm)。采用带三维表面轮廓仪的共聚焦显微镜对织构表面形貌进行了测量。随着激光功率的增大,织构直径减小,但在最大功率条件下织构直径增大,而织构的韧窝深度和表面粗糙度逐渐增大。频率的增加对纹理直径的影响不显著,但纹理深度和表面粗糙度明显增强。同样,随着激光速度和循环次数的增加,纹理尺寸在初始阶段有所减小,但随着激光速度和循环次数的增加,纹理尺寸也有轻微的增强。结果表明,激光功率和激光频率对织构尺寸的影响比激光速度和环数的影响更大。可以得出,为了在活塞环表面获得纹理直径、纹理深度和纹理表面粗糙度等纹理尺寸的目标值,激光功率分别为12W、8W和8W,激光频率分别为25 KHz、25 KHz和20 KHz,激光扫描速度分别为170 mm/sec、140 mm/sec和110 mm/sec,激光环路数分别为5、4和2。关键词:共聚焦显微镜;光纤激光器;激光功率;激光纹理;结构维度
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