选择性激光烧结快速成型制件精度的研究
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摘要
本文分析了国内外选择性激光烧结成型(SLS)技术的研究现状。首先从理论上分析了激光与材料相互作用原理和热塑性塑料的物理、化学性质,并且研究了粉末激光烧结机理。讨论了各工艺参数对激光烧结过程的影响。
针对影响烧结聚苯乙烯制件表面粗糙度和尺寸精度的工艺参数,以制件表面粗糙度和收缩为测量指标,设计并进行了三因素三水平正交试验。利用方差分析方法,获得了聚苯乙烯材料激光烧结的最佳工艺参数组合以及各工艺参数的影响规律。试验表明,激光烧结层厚度、制件摆放角度、激光烧结间距等对表面精度的影响大。激光烧结功率、制件的形状尺寸等对制件尺寸精度影响大。
本文基于新技术在新工艺中的作用,采用试验和理论分析的方法,研究激光烧结参数对聚苯乙烯材料加工精度的影响,通过对试验数据的分析研究,探讨了烧结制件中出现的几种缺陷的形成原因,得出了各参数对烧结制件精度的影响规律。并提出了减少烧结缺陷的措施和方法,这对激光烧结成型工艺在热塑性塑料中的应用有一定指导意义。
分析了由于成型原理所产生的制件表面阶梯效应,提出了制件表面粗糙度的计算方法,给出了CAD模型切片时,切片厚度的选取方法。为了兼顾成型效率和制件精度,本文提出了基于三角形面片外法线方向判别的定精度切片算法,并采用定精度方法进行切片。本方法有目的地控制成型制件的表面粗糙度,为开发变层厚烧结控制系统,提供了理论依据。
The SLS technology actuality in our country and abroad is analyzed. Firstly the interactional principle of laser and material, the physical and chemical properties of the thermoplastic plastic is studied in theory, and the laser sintering mechanism of powder is also studied. The influence of process parameter to laser sintering process is discussed.
In the view of the process parameter that influences the sintering surface roughness, dimension precision of PS part and the surface roughness and shrinkage being guideline, the 3-factor and 3- horizontal orthodoxy experiment is designed and processed. The best process parameter combination and the influence rule for PS material is got by the application of square error analysis method. The experiment indicates that the laser sintering power, the thickness of sintering layer, the placement angle influence the surface precision greatly, and scanning space influence the dimension precision of the part greatly.
Based on the new technology application in new process, this paper makes use of the method of experiment and theory analysis, studies the influence of laser sintering parameter to PS material machining precision, and the rule of the influence of each parameter to sintering part is got through the analysis and study of experiment data and discussion of the formation reason of several disfigurement in sintering part. The measure and method of minimize the sintering disfigurement is presented, which could be a guidance to the optimization of process parameter in the thermoplastic application of laser sintering prototyping.
The surface ladder effect produced by prototyping principle is analyzed, and the calculation method of the part surface roughness is presented. The selecting method of slice thickness and sintering layer thickness when slicing the CAD model and sintering is presented. To give attention to the prototyping efficiency and part
precision, the variational thickness slice algorithms is presented based on the distinguishing of triangle plane outer-normal direction. This method controls the surface roughness of prototyping part, which provides theory basis for the development of system of variational thickness control.
针对影响烧结聚苯乙烯制件表面粗糙度和尺寸精度的工艺参数,以制件表面粗糙度和收缩为测量指标,设计并进行了三因素三水平正交试验。利用方差分析方法,获得了聚苯乙烯材料激光烧结的最佳工艺参数组合以及各工艺参数的影响规律。试验表明,激光烧结层厚度、制件摆放角度、激光烧结间距等对表面精度的影响大。激光烧结功率、制件的形状尺寸等对制件尺寸精度影响大。
本文基于新技术在新工艺中的作用,采用试验和理论分析的方法,研究激光烧结参数对聚苯乙烯材料加工精度的影响,通过对试验数据的分析研究,探讨了烧结制件中出现的几种缺陷的形成原因,得出了各参数对烧结制件精度的影响规律。并提出了减少烧结缺陷的措施和方法,这对激光烧结成型工艺在热塑性塑料中的应用有一定指导意义。
分析了由于成型原理所产生的制件表面阶梯效应,提出了制件表面粗糙度的计算方法,给出了CAD模型切片时,切片厚度的选取方法。为了兼顾成型效率和制件精度,本文提出了基于三角形面片外法线方向判别的定精度切片算法,并采用定精度方法进行切片。本方法有目的地控制成型制件的表面粗糙度,为开发变层厚烧结控制系统,提供了理论依据。
The SLS technology actuality in our country and abroad is analyzed. Firstly the interactional principle of laser and material, the physical and chemical properties of the thermoplastic plastic is studied in theory, and the laser sintering mechanism of powder is also studied. The influence of process parameter to laser sintering process is discussed.
In the view of the process parameter that influences the sintering surface roughness, dimension precision of PS part and the surface roughness and shrinkage being guideline, the 3-factor and 3- horizontal orthodoxy experiment is designed and processed. The best process parameter combination and the influence rule for PS material is got by the application of square error analysis method. The experiment indicates that the laser sintering power, the thickness of sintering layer, the placement angle influence the surface precision greatly, and scanning space influence the dimension precision of the part greatly.
Based on the new technology application in new process, this paper makes use of the method of experiment and theory analysis, studies the influence of laser sintering parameter to PS material machining precision, and the rule of the influence of each parameter to sintering part is got through the analysis and study of experiment data and discussion of the formation reason of several disfigurement in sintering part. The measure and method of minimize the sintering disfigurement is presented, which could be a guidance to the optimization of process parameter in the thermoplastic application of laser sintering prototyping.
The surface ladder effect produced by prototyping principle is analyzed, and the calculation method of the part surface roughness is presented. The selecting method of slice thickness and sintering layer thickness when slicing the CAD model and sintering is presented. To give attention to the prototyping efficiency and part
precision, the variational thickness slice algorithms is presented based on the distinguishing of triangle plane outer-normal direction. This method controls the surface roughness of prototyping part, which provides theory basis for the development of system of variational thickness control.
引文
1. 卢清萍. 快速原型制造技术.高等教育出版社,2001:1~11
2. 虞钢,虞和济. 集成化激光智能加工工程. 冶金工业出版社,2001:1~15
3. 腾功勇,王从军,陈学彬,黄树槐. 影响SLS技术发展的因素及改进措施.湖北汽车工业学院学报, 2001,(6):12~15
4. 王秀峰,罗宏杰. 快速原型制造技术. 中国轻工业出版社,2001:1~29
5. 王运赣. 快速成型技术. 华中理工大学出版社,1999:1~7
6. 樊自田,黄乃瑜,陈宗孟. 基于选择性激光烧结技术的快速铸造. 特种铸造及有色合金,1999,(5):7~9
7. 黄树槐,张祥林,马黎. 快速原型制造技术的进展. 中国机械工程,1997,8(5):8~12
8. Rapid Prototyping Reports. USA:CAD/CAM Publishing Inc.,1993~1996
9. Asheley S. From CAD Art to Rapid Metal Tools. Mechanical Engineering,1997,199(3):82~87
10. 王广春,赵国群,杨艳. 快速成型与快速模具制造技术. 新工艺新技术,2000,(9):30~32
11. J.H.Bohn,The Rapid Prototyping Resource Center. http//cadserv.cadlab.vt.edu/ bohn/RP.html,1997
12. S. Ashley,Rapid Prototyping Coming to Age. Mechanical Engineering,1995:63
13. 金涤尘,宋放之. 现代摸具制造技术. 机械工业出版社,2001
14. Charles W Hull. Apparatus for Production of Three-Dimensional Objects by Stereolithography. 美国专利,4575330.1986.3.11
15. Royden C Sanders.3-D Model Maker. 美国专利,5506607.1996.4.9
16. 史玉升,黄树槐等. 低成本选择性激光烧结快速成形设备的设计和研制. 中国机械工程,2000,(10):1123~1125
17. 朱力群,高立群,黄因慧,余承业. 激光选区烧结(SLS)的激光扫描控制.航空精密制造技术,1997,(2):10~13
18. 李湘生,莫健华,蔡道生,黄树槐. SLS成型机的粉末预热过程研究. 华中科技大学学报,2001,(2):102~104
19. 马岩. RPM理论及加工机理在木制品加工上的应用前景展望. 东北林业大学学报,1999,(7):79~81
20. 赵志文,程昌圻,韩秀坤. 快速原型制造技术应用. 北京理工大学学报, 1994,(10):57~61
21. 史玉生,叶春生,马黎等. 快速成型技术及其在石油领域中的应用. 石油机械,2000,(11):16~19
22. 冯涛,孙建民,宗贵升. 用选择性激光烧结实现快速精密铸造. 中国机械工程,1997,8(5):21~23
23. 李涤尘,李占利,赵万华. 分层制造中几何失真性的数学原理与评价. 中国机械工程,1997,8(5):52~53
24. Jacobs F. Stereolithography and Other RP﹠M Technology,From Rapid Prototyping to Rapid Tooling Dearbron:SME,1994
25. 李湘生,韩明等. SLS成形件的收缩模型和翘曲模型. 中国机械工程, 2001.8:887~889
26. 楼小平,顾熙棠,洪迈生. 提高成型精度和效率的SLS零件坐标选择. 磨床与磨削,2000,(2):28~30
27. 王从军,李湘生,黄树槐. SLS成型的精度分析. 华中科技大学学报,2001,(6):77~79
28. 朱林泉,程军. 变长线扫描选择性激光烧结快速成型工艺的质量和效率优化分析. 兵工学报,2002,(2):64~66
29. 赵剑峰,余承业. 影响SLS零件精度的几个因素. 电加工,1998,(6):34~37
30. 樊自田,黄乃瑜,肖跃加,韩伟. 基于选择性烧结制件的精度分析. 南昌大学学报(工科版),2000,(6):6~10
31. 段玉岗,王素琴,李涤尘. 激光快速成型中时间效应与零件翘曲性关系研究. 机械工程学报,2001,(6):10~14
Fan Zitian,Huang Naiyu. Accuracy Analysis of he Part made by Selected Laser Sintering(SLS). Proceeding of The First International Conference on Rapid
32. Prototyping & Manufacturing Beijing. 1998,Shanxi Science and Technology Press,1998:86~91
33. Fan Zitian,Huang Naiyu. Investigating on Casting Molds (Cores) Making with the Coated Sand by the Selected Laser Sintering. Proceeding of The First International Conference on Rapid Prototyping & Manufacturing Beijing. 1998, Shanxi Science and Technology Press,1998:412~417
34. Carey P R. Kerns K J. The European Direct Shell Sand Core and Mold Making Rapid Prototyping Process. AFS Transactions,1997:769~774
35. (德)M. Von奥尔曼. 激光束与材料相互作用的物原理及应用. 科学出版社,1994
36. 李力钧. 现代激光加工及其装备. 北京理工大学出版社,1993
37. 王家军. 激光加工技术. 中国计量出版社,1992
38. 俞宽新,江铁良,赵启大. 激光原理与激光技术. 北京工业出版社,1998
39. 邢宣. 非金属材料学. 重庆大学出版社,1994
40. 陈洪璆,徐之海. 精密塑料成型. 国防工业出版社,1999.8
41. 张文钺,金属熔焊原理及工艺. 机械工业出版社,1979
42. 周美玲,谢建新,朱宝泉. 材料工程基础. 北京工业大学出版社,2001.4
43. 张克惠,塑料材料学. 西北工业大学出版社,2000.5
44. 杨尚林,张宇. 材料物理导论. 哈尔滨工业大学出版社,1999.8
45. 朱燕堂. 应用概率统计方法. 西北工业大学出版社,1986.4
46. 刘斌,黄树槐. 快速原型制造技术中实切片算法的研究与实现. 计算机辅助设计与图形学学报,1997,11(6):489~492
47. Jacob G G K,Kai C C,Mei Tong,et al. Development of a new rapid prototyping interface. Computers in Industry,1999,39:6~70
48. Sintering Deformation in Functionally Graded Mat6erials. 日本机械学会论文集(A编),2001,7:1126~1131
49. 吴松青.表面粗糙度应用指南. 机械工业出版社,1990:60~70
2. 虞钢,虞和济. 集成化激光智能加工工程. 冶金工业出版社,2001:1~15
3. 腾功勇,王从军,陈学彬,黄树槐. 影响SLS技术发展的因素及改进措施.湖北汽车工业学院学报, 2001,(6):12~15
4. 王秀峰,罗宏杰. 快速原型制造技术. 中国轻工业出版社,2001:1~29
5. 王运赣. 快速成型技术. 华中理工大学出版社,1999:1~7
6. 樊自田,黄乃瑜,陈宗孟. 基于选择性激光烧结技术的快速铸造. 特种铸造及有色合金,1999,(5):7~9
7. 黄树槐,张祥林,马黎. 快速原型制造技术的进展. 中国机械工程,1997,8(5):8~12
8. Rapid Prototyping Reports. USA:CAD/CAM Publishing Inc.,1993~1996
9. Asheley S. From CAD Art to Rapid Metal Tools. Mechanical Engineering,1997,199(3):82~87
10. 王广春,赵国群,杨艳. 快速成型与快速模具制造技术. 新工艺新技术,2000,(9):30~32
11. J.H.Bohn,The Rapid Prototyping Resource Center. http//cadserv.cadlab.vt.edu/ bohn/RP.html,1997
12. S. Ashley,Rapid Prototyping Coming to Age. Mechanical Engineering,1995:63
13. 金涤尘,宋放之. 现代摸具制造技术. 机械工业出版社,2001
14. Charles W Hull. Apparatus for Production of Three-Dimensional Objects by Stereolithography. 美国专利,4575330.1986.3.11
15. Royden C Sanders.3-D Model Maker. 美国专利,5506607.1996.4.9
16. 史玉升,黄树槐等. 低成本选择性激光烧结快速成形设备的设计和研制. 中国机械工程,2000,(10):1123~1125
17. 朱力群,高立群,黄因慧,余承业. 激光选区烧结(SLS)的激光扫描控制.航空精密制造技术,1997,(2):10~13
18. 李湘生,莫健华,蔡道生,黄树槐. SLS成型机的粉末预热过程研究. 华中科技大学学报,2001,(2):102~104
19. 马岩. RPM理论及加工机理在木制品加工上的应用前景展望. 东北林业大学学报,1999,(7):79~81
20. 赵志文,程昌圻,韩秀坤. 快速原型制造技术应用. 北京理工大学学报, 1994,(10):57~61
21. 史玉生,叶春生,马黎等. 快速成型技术及其在石油领域中的应用. 石油机械,2000,(11):16~19
22. 冯涛,孙建民,宗贵升. 用选择性激光烧结实现快速精密铸造. 中国机械工程,1997,8(5):21~23
23. 李涤尘,李占利,赵万华. 分层制造中几何失真性的数学原理与评价. 中国机械工程,1997,8(5):52~53
24. Jacobs F. Stereolithography and Other RP﹠M Technology,From Rapid Prototyping to Rapid Tooling Dearbron:SME,1994
25. 李湘生,韩明等. SLS成形件的收缩模型和翘曲模型. 中国机械工程, 2001.8:887~889
26. 楼小平,顾熙棠,洪迈生. 提高成型精度和效率的SLS零件坐标选择. 磨床与磨削,2000,(2):28~30
27. 王从军,李湘生,黄树槐. SLS成型的精度分析. 华中科技大学学报,2001,(6):77~79
28. 朱林泉,程军. 变长线扫描选择性激光烧结快速成型工艺的质量和效率优化分析. 兵工学报,2002,(2):64~66
29. 赵剑峰,余承业. 影响SLS零件精度的几个因素. 电加工,1998,(6):34~37
30. 樊自田,黄乃瑜,肖跃加,韩伟. 基于选择性烧结制件的精度分析. 南昌大学学报(工科版),2000,(6):6~10
31. 段玉岗,王素琴,李涤尘. 激光快速成型中时间效应与零件翘曲性关系研究. 机械工程学报,2001,(6):10~14
Fan Zitian,Huang Naiyu. Accuracy Analysis of he Part made by Selected Laser Sintering(SLS). Proceeding of The First International Conference on Rapid
32. Prototyping & Manufacturing Beijing. 1998,Shanxi Science and Technology Press,1998:86~91
33. Fan Zitian,Huang Naiyu. Investigating on Casting Molds (Cores) Making with the Coated Sand by the Selected Laser Sintering. Proceeding of The First International Conference on Rapid Prototyping & Manufacturing Beijing. 1998, Shanxi Science and Technology Press,1998:412~417
34. Carey P R. Kerns K J. The European Direct Shell Sand Core and Mold Making Rapid Prototyping Process. AFS Transactions,1997:769~774
35. (德)M. Von奥尔曼. 激光束与材料相互作用的物原理及应用. 科学出版社,1994
36. 李力钧. 现代激光加工及其装备. 北京理工大学出版社,1993
37. 王家军. 激光加工技术. 中国计量出版社,1992
38. 俞宽新,江铁良,赵启大. 激光原理与激光技术. 北京工业出版社,1998
39. 邢宣. 非金属材料学. 重庆大学出版社,1994
40. 陈洪璆,徐之海. 精密塑料成型. 国防工业出版社,1999.8
41. 张文钺,金属熔焊原理及工艺. 机械工业出版社,1979
42. 周美玲,谢建新,朱宝泉. 材料工程基础. 北京工业大学出版社,2001.4
43. 张克惠,塑料材料学. 西北工业大学出版社,2000.5
44. 杨尚林,张宇. 材料物理导论. 哈尔滨工业大学出版社,1999.8
45. 朱燕堂. 应用概率统计方法. 西北工业大学出版社,1986.4
46. 刘斌,黄树槐. 快速原型制造技术中实切片算法的研究与实现. 计算机辅助设计与图形学学报,1997,11(6):489~492
47. Jacob G G K,Kai C C,Mei Tong,et al. Development of a new rapid prototyping interface. Computers in Industry,1999,39:6~70
48. Sintering Deformation in Functionally Graded Mat6erials. 日本机械学会论文集(A编),2001,7:1126~1131
49. 吴松青.表面粗糙度应用指南. 机械工业出版社,1990:60~70
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