[1] HAO J, FANG L, WILLIAMS R. An Efficient Curvature-based Partitioning of Large-scale Stl Models[J]. Rapid Prototyping Journal, 2011, 17(2): 116-127.
[2] LUO L, BARAN I, RUSINKIEWICZ S, et al. Chopper: Partitioning Models into 3D-printable Parts[J]. ACM Transactions on Graphics, 2012, 31(6): 129.
[3] HU R, LI H, ZHANG H, et al. Approximate Pyramidal Shape Decomposition[J]. ACM Transactions on Graphics, 2014, 33(6): 213.
[4] XIN S, LAI C F, FU C W, et al. Making Burr Puzzles from 3D Models[J]. ACM Transactions on Graphics, 2011, 30(4): 97.
[5] HUANG X, YE C, WU S, et al. Sloping Wall Structure Support Generation for Fused Deposition Modeling[J]. The International Journal of Advanced Manufacturing Technology, 2009, 42(11/12): 1074-1081.
[6] HEIDE E K. Method for Generating and Building Support Structures with Deposition-based Digital Manufacturing Systems: US Patent Application 12/687996[P]. 2010-01.
[7] WANG W, WANG T, YANG Z, et al. Cost-effective Printing of 3D Objects with Skin-frame Structures[J]. ACM Transactions on Graphics, 2013, 32(6): 177.
[8] DUMAS J, HERGEL J, LEFEBVRE S. Bridging the Gap: Automated Steady Scaffoldings for 3D Printing[J]. ACM Transactions on Graphics, 2014, 33(4): 98.
[9] KRITCHMAN E, GOTHAIT H, MILLER G. System and Method for Printing and Supporting Three Dimensional Objects: US Patent 7364686[P]. 2008-04.
[10] LU L, SHARF A, ZHAO H, et al. Build-to-last: Strength to Weight 3D Printed Objects[J]. ACM Transactions on Graphics, 2014, 33(4): 97.
[11] BACHER M, WHITING E, BICKEL B, et al. Spin-it: Optimizing Moment of Inertia for Spinnable Objects[J]. ACM Transactions on Graphics, 2014, 33(4): 96.
[12] ZHANG X, XIA Y, WANG J, et al. Medial Axis Tree-an Internal Supporting Structure for 3D Printing[J]. Computer Aided Geometric Design, 2015, 35(5): 149-162. |