Experimental study about polystyrene powder based on selective laser sintering
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摘要: 为了探寻选区激光烧结工艺参量对聚苯乙烯粉烧结质量影响的规律,并通过工艺参量的优化来提高其烧结精度与强度,采用对聚苯乙烯粉进行热重/差示扫描量热法实验分析、利用SLS300快速成型机对聚苯乙烯粉烧结等方法,进行了理论分析和实验验证,发现烧结温度在150℃~260℃之间时,试样烧结尺寸精度较高。结果表明,聚苯乙烯粉烧结件的x向和y向尺寸精度受工艺参量影响较小,而z向尺寸精度受工艺参量影响较大;弯曲强度表现为随激光功率、扫描间隔、分层厚度的增大而减小的变化趋势。这对于工艺参量优化选择来提高聚苯乙烯粉的烧结质量提供了实验依据。Abstract: In order to explore effects of process parameters of selective laser sintering on polystyrene powder and improve the strength and accuracy of polystyrene (PS) powder by the improved process parameters, thermal gravity/differential scanning calorimetry analysis was made to study thermal properties of PS powder. Sintering experiment of powder was carried out by SLS300 rapid molding machine. After theoretical analysis and experimental verification, the samples had high precision when sintering temperature was between 150℃ and 260℃. The results show that the effects of process parameters on dimensional precision of x axis and y axis are small, the effect on dimensional precision of z axis is great. Bending strength decreases with the increase of laser power, scanning interval and layer thickness. The study provides experimental basis to improve sintering quality of PS by the optimization of process parameters.
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Keywords:
- laser technique /
- material /
- rapid prototyping /
- selective laser sintering /
- polystyrene
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[1] SHI Y Sh,LIU J H,YAN Ch Z,et al.Powder material selective laser rapid prototyping technology and its application[M].Beijing:Science Press,2012:37-39(in Chinese).
[2] SUN Sh W,ZHANG J,ZHENG H Zh.The precision research of PS parts based on SLS[J].Modern Plastics Processing and Applications,2007,19(1):26-28(in Chinese).
[3] DU Y Y,SHI Y Sh,WEI Q S.Technology and simulation of cold isostatic pressing of selective laser sintered parts[J].Laser Technology,2014,38(1):96-100(in Chinese).
[4] LI D Ch,TIAN X Y,WANG Y X,et al.Development of additive manufacturing technology[J].ElectromachiningMould,2012,32(s1):20-22(in Chinese).
[5] DONG Q,WANG Ch Y,QIAN Q B.The research of the influential factors on polystyrene parts size accuracy base on Selective laser sintering[J].Plastics Industry,2010,38(4):93-95(in Chinese).
[6] YANG L X,HONG H X,YAO X S,et al.Experimental study on sucrose of selective laser sintering[J].Laser Technology,2015,39(1):114-118(in Chinese).
[7] YAO X Sh.Study on the laser sintering process of carbohydrate-based material[D].Xi'an:Xi'an University of Science and Technology,2014:17-20(in Chinese).
[8] REN N F,LUO Y,XU M L.Effect of laser energy density on the dimension12/HDPE product[J].Laser Technology,2010,34(4):561-564(in Chinese).
[9] XIE X L,XIAO H P.The research of reduce sintering shrinkage on polystyrene powder[J].Journal of Nanchang Institute of Aviation Industry (Natural Science Edition),2004,18(3):69-71(in Chinese).
[10] ZHANG J,XU Zh F,ZHENG H Zh,et al.Study on the selective laser sintering process of polystyrene/Al2O3 nano-composites[J].Mechanical Science and Technology,2006,25(1):15-17(in Chinese).
[11] DECKERS J,SHAHZAD K,VLEUGELS J,et al.Isostatic pressing assisted indirect selective laser sintering of alumia components[J].Rapid Prototyping Journal,2012,18(5):409-419.
[12] RATNDEEP P,SAM A.Process energy analysis and optimization in selective laser sintering[J].Journal of Manufacturing Systems,2012,31(4):429-437.
[13] WANG Ch Y,CHEN Y.The coupling research of selective laser sintering polystyrene'process parameters[J].Applied Laser,2014,34(4):305-309(in Chinese).
[14] YAN C Z,SHI Y S,YANG J S,et al.Preparation and selective laser sintering of nylon-coated metal powder for the indirect SLS process[J].Rapid Prototyping Journal,2009,15(5):355-360.
[15] ZHU P L,XU Zh F,YU H,et al. Effects of process parameters on the forming of coated sand by selective laser sintering[J].Journal of Nanchang Hangkong University (Natural Sciences Edition),2012,26(1):104-108(in Chinese).
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