[1] 张秀萍,梁杰.3D打印技术及应用趋势[J].现代制造技术与装备,2015(03):85-87.ZHANG xiuping,LIANG jie. 3D Printing technology and Its Application Trend.Modern Manufacturing Technology and Equipment, 2015(03):85-87.
[2] Ashbrook D, Guo S S, Lambie A. Towards Augmented Fabrication: Combining Fabricated and Existing Objects[C]. Proceedings of the 2016 CHI Conference Extended Abstracts on Human Factors in Computing Systems. ACM. 2016: 1510-1518.
[3] Anna Rykavishnikova, Anna Evseeva.Innovative 3D-printing technology in the fashion industry[J]. Koncept: Scientific and Methodological e-magazine. 2015(01):121-125.
[4] 张闪.浅析3D打印技术在服装中的应用[J].国际纺织导报.2014(02):59-60+62-64.ZHANG Shan. The 3D printing technology and its application in garments.International Textile Leader.2014(02):59-60+62-64.
[5] Alcock C, Hudson N, Chilana P K. Barriers to Using, Customizing, and Printing 3D Designs on Thingiverse[C]. Proceedings of the 19th International Conference on Supporting Group Work. ACM.2016:195-199.
[6] Rosenzweig D H, Carelli E, Steffen T, et al. 3D-printing ABS and PLA scaffolds for cartilage and nucleus pulposus tissue regeneration[J]. Int J Molecular sci, 2015,16(7):15118.
[7] Peciukaityte M, Balciunas E, Burinskij J, et al. Investigation of progenitor cell interactions with 3D printed pla scaffolds for tissue engineering applications[J]. J Tissue Eng Regenerative Med. 2014(8)(SI):337.
[8] Vasudevarao B, Natarajan D P, Henderson M, et al. Sensitivity of RP surface finish to process parameter variation[C]. Solid freeform fabrication proceedings. 2000:251-258.
[9] Chen X A, Coros S, Mankoff J, et al. Encore: 3D printed augmentation of everyday objects with printed-over, affixed and interlocked attachments[C]. Proceedings of the 28th Annual ACM Symposium on User Interface Software & Technology. ACM. 2015:73-82.
[10] 纪良波.熔融沉积成型有限元模拟与工艺优化研究[D].南昌大学, 2011.
[11] 王彦云. FDM成形工艺支撑自动生成技术研究[D].中北大学,2016.WANG yanyun. Research on The Automatic Support Generation of Fused Deposition Modeling[D].North University of China,2016.
[12] Mahdi Kaveh, Mohsen Badrossamay, Ehsan Foroozmehr, Ardeshir Hemasian Etefagh. Optimization of the printing parameters affecting dimensional accuracy and internal cavity for HIPS material used in fused deposition modeling processes[J]. Journal of Materials Processing Technology. 2015,Vol.226:280-286.
[13] 陈梅干.熔融挤压快速成型精度分析及加工[D].苏州大学,2011. CHEN meigan. Accuracy analysis and processing of melt extrusion rapid prototyping[D].2011.
[14] 朱景峰. 基于FDM技术的快速成型机设计及工艺参数优化[J].宁夏大学,2016.ZHU jingfeng. Design of Rapid Prototyping Machine Based on FDM Technology and the Optimal Inquiry of Molding Accuracy[J].Ning Xia University.
[15] Mohamed O A, Masood S H, Bhowmik J L. Optimization of fused deposition modeling process parameters for dimensional accuracy using I-optimality criterion[J]. Measurement. 2016,81:174-196.
, [1] 张秀萍,梁杰.3D打印技术及应用趋势[J].现代制造技术与装备,2015(03):85-87.ZHANG xiuping,LIANG jie. 3D Printing technology and Its Application Trend.Modern Manufacturing Technology and Equipment, 2015(03):85-87.
[2] Ashbrook D, Guo S S, Lambie A. Towards Augmented Fabrication: Combining Fabricated and Existing Objects[C]. Proceedings of the 2016 CHI Conference Extended Abstracts on Human Factors in Computing Systems. ACM. 2016: 1510-1518.
[3] Anna Rykavishnikova, Anna Evseeva.Innovative 3D-printing technology in the fashion industry[J]. Koncept: Scientific and Methodological e-magazine. 2015(01):121-125.
[4] 张闪.浅析3D打印技术在服装中的应用[J].国际纺织导报.2014(02):59-60+62-64.ZHANG Shan. The 3D printing technology and its application in garments.International Textile Leader.2014(02):59-60+62-64.
[5] Alcock C, Hudson N, Chilana P K. Barriers to Using, Customizing, and Printing 3D Designs on Thingiverse[C]. Proceedings of the 19th International Conference on Supporting Group Work. ACM.2016:195-199.
[6] Rosenzweig D H, Carelli E, Steffen T, et al. 3D-printing ABS and PLA scaffolds for cartilage and nucleus pulposus tissue regeneration[J]. Int J Molecular sci, 2015,16(7):15118.
[7] Peciukaityte M, Balciunas E, Burinskij J, et al. Investigation of progenitor cell interactions with 3D printed pla scaffolds for tissue engineering applications[J]. J Tissue Eng Regenerative Med. 2014(8)(SI):337.
[8] Vasudevarao B, Natarajan D P, Henderson M, et al. Sensitivity of RP surface finish to process parameter variation[C]. Solid freeform fabrication proceedings. 2000:251-258.
[9] Chen X A, Coros S, Mankoff J, et al. Encore: 3D printed augmentation of everyday objects with printed-over, affixed and interlocked attachments[C]. Proceedings of the 28th Annual ACM Symposium on User Interface Software & Technology. ACM. 2015:73-82.
[10] 纪良波.熔融沉积成型有限元模拟与工艺优化研究[D].南昌大学, 2011.
[11] 王彦云. FDM成形工艺支撑自动生成技术研究[D].中北大学,2016.WANG yanyun. Research on The Automatic Support Generation of Fused Deposition Modeling[D].North University of China,2016.
[12] Mahdi Kaveh, Mohsen Badrossamay, Ehsan Foroozmehr, Ardeshir Hemasian Etefagh. Optimization of the printing parameters affecting dimensional accuracy and internal cavity for HIPS material used in fused deposition modeling processes[J]. Journal of Materials Processing Technology. 2015,Vol.226:280-286.
[13] 陈梅干.熔融挤压快速成型精度分析及加工[D].苏州大学,2011. CHEN meigan. Accuracy analysis and processing of melt extrusion rapid prototyping[D].2011.
[14] 朱景峰. 基于FDM技术的快速成型机设计及工艺参数优化[J].宁夏大学,2016.ZHU jingfeng. Design of Rapid Prototyping Machine Based on FDM Technology and the Optimal Inquiry of Molding Accuracy[J].Ning Xia University.
[15] Mohamed O A, Masood S H, Bhowmik J L. Optimization of fused deposition modeling process parameters for dimensional accuracy using I-optimality criterion[J]. Measurement. 2016,81:174-196.
, [1] 张秀萍,梁杰.3D打印技术及应用趋势[J].现代制造技术与装备,2015(03):85-87.ZHANG xiuping,LIANG jie. 3D Printing technology and Its Application Trend.Modern Manufacturing Technology and Equipment, 2015(03):85-87.
[2] Ashbrook D, Guo S S, Lambie A. Towards Augmented Fabrication: Combining Fabricated and Existing Objects[C]. Proceedings of the 2016 CHI Conference Extended Abstracts on Human Factors in Computing Systems. ACM. 2016: 1510-1518.
[3] Anna Rykavishnikova, Anna Evseeva.Innovative 3D-printing technology in the fashion industry[J]. Koncept: Scientific and Methodological e-magazine. 2015(01):121-125.
[4] 张闪.浅析3D打印技术在服装中的应用[J].国际纺织导报.2014(02):59-60+62-64.ZHANG Shan. The 3D printing technology and its application in garments.International Textile Leader.2014(02):59-60+62-64.
[5] Alcock C, Hudson N, Chilana P K. Barriers to Using, Customizing, and Printing 3D Designs on Thingiverse[C]. Proceedings of the 19th International Conference on Supporting Group Work. ACM.2016:195-199.
[6] Rosenzweig D H, Carelli E, Steffen T, et al. 3D-printing ABS and PLA scaffolds for cartilage and nucleus pulposus tissue regeneration[J]. Int J Molecular sci, 2015,16(7):15118.
[7] Peciukaityte M, Balciunas E, Burinskij J, et al. Investigation of progenitor cell interactions with 3D printed pla scaffolds for tissue engineering applications[J]. J Tissue Eng Regenerative Med. 2014(8)(SI):337.
[8] Vasudevarao B, Natarajan D P, Henderson M, et al. Sensitivity of RP surface finish to process parameter variation[C]. Solid freeform fabrication proceedings. 2000:251-258.
[9] Chen X A, Coros S, Mankoff J, et al. Encore: 3D printed augmentation of everyday objects with printed-over, affixed and interlocked attachments[C]. Proceedings of the 28th Annual ACM Symposium on User Interface Software & Technology. ACM. 2015:73-82.
[10] 纪良波.熔融沉积成型有限元模拟与工艺优化研究[D].南昌大学, 2011.
[11] 王彦云. FDM成形工艺支撑自动生成技术研究[D].中北大学,2016.WANG yanyun. Research on The Automatic Support Generation of Fused Deposition Modeling[D].North University of China,2016.
[12] Mahdi Kaveh, Mohsen Badrossamay, Ehsan Foroozmehr, Ardeshir Hemasian Etefagh. Optimization of the printing parameters affecting dimensional accuracy and internal cavity for HIPS material used in fused deposition modeling processes[J]. Journal of Materials Processing Technology. 2015,Vol.226:280-286.
[13] 陈梅干.熔融挤压快速成型精度分析及加工[D].苏州大学,2011. CHEN meigan. Accuracy analysis and processing of melt extrusion rapid prototyping[D].2011.
[14] 朱景峰. 基于FDM技术的快速成型机设计及工艺参数优化[J].宁夏大学,2016.ZHU jingfeng. Design of Rapid Prototyping Machine Based on FDM Technology and the Optimal Inquiry of Molding Accuracy[J].Ning Xia University.
[15] Mohamed O A, Masood S H, Bhowmik J L. Optimization of fused deposition modeling process parameters for dimensional accuracy using I-optimality criterion[J]. Measurement. 2016,81:174-196.
, [1] 张秀萍,梁杰.3D打印技术及应用趋势[J].现代制造技术与装备,2015(03):85-87.ZHANG xiuping,LIANG jie. 3D Printing technology and Its Application Trend.Modern Manufacturing Technology and Equipment, 2015(03):85-87.
[2] Ashbrook D, Guo S S, Lambie A. Towards Augmented Fabrication: Combining Fabricated and Existing Objects[C]. Proceedings of the 2016 CHI Conference Extended Abstracts on Human Factors in Computing Systems. ACM. 2016: 1510-1518.
[3] Anna Rykavishnikova, Anna Evseeva.Innovative 3D-printing technology in the fashion industry[J]. Koncept: Scientific and Methodological e-magazine. 2015(01):121-125.
[4] 张闪.浅析3D打印技术在服装中的应用[J].国际纺织导报.2014(02):59-60+62-64.ZHANG Shan. The 3D printing technology and its application in garments.International Textile Leader.2014(02):59-60+62-64.
[5] Alcock C, Hudson N, Chilana P K. Barriers to Using, Customizing, and Printing 3D Designs on Thingiverse[C]. Proceedings of the 19th International Conference on Supporting Group Work. ACM.2016:195-199.
[6] Rosenzweig D H, Carelli E, Steffen T, et al. 3D-printing ABS and PLA scaffolds for cartilage and nucleus pulposus tissue regeneration[J]. Int J Molecular sci, 2015,16(7):15118.
[7] Peciukaityte M, Balciunas E, Burinskij J, et al. Investigation of progenitor cell interactions with 3D printed pla scaffolds for tissue engineering applications[J]. J Tissue Eng Regenerative Med. 2014(8)(SI):337.
[8] Vasudevarao B, Natarajan D P, Henderson M, et al. Sensitivity of RP surface finish to process parameter variation[C]. Solid freeform fabrication proceedings. 2000:251-258.
[9] Chen X A, Coros S, Mankoff J, et al. Encore: 3D printed augmentation of everyday objects with printed-over, affixed and interlocked attachments[C]. Proceedings of the 28th Annual ACM Symposium on User Interface Software & Technology. ACM. 2015:73-82.
[10] 纪良波.熔融沉积成型有限元模拟与工艺优化研究[D].南昌大学, 2011.
[11] 王彦云. FDM成形工艺支撑自动生成技术研究[D].中北大学,2016.WANG yanyun. Research on The Automatic Support Generation of Fused Deposition Modeling[D].North University of China,2016.
[12] Mahdi Kaveh, Mohsen Badrossamay, Ehsan Foroozmehr, Ardeshir Hemasian Etefagh. Optimization of the printing parameters affecting dimensional accuracy and internal cavity for HIPS material used in fused deposition modeling processes[J]. Journal of Materials Processing Technology. 2015,Vol.226:280-286.
[13] 陈梅干.熔融挤压快速成型精度分析及加工[D].苏州大学,2011. CHEN meigan. Accuracy analysis and processing of melt extrusion rapid prototyping[D].2011.
[14] 朱景峰. 基于FDM技术的快速成型机设计及工艺参数优化[J].宁夏大学,2016.ZHU jingfeng. Design of Rapid Prototyping Machine Based on FDM Technology and the Optimal Inquiry of Molding Accuracy[J].Ning Xia University.
[15] Mohamed O A, Masood S H, Bhowmik J L. Optimization of fused deposition modeling process parameters for dimensional accuracy using I-optimality criterion[J]. Measurement. 2016,81:174-196. |