This paper presents an effective method for designing three dimensional (3D) cellular materials containing complex internal cellular microstructures. The volumetric distance field (VDF) strategy is developed to eliminate voxelization and interpolation processes required in the conventional voxel based DF method. By introducing a hybrid method based on the VDF and triply periodic minimal surface (TPMS) cellular topology, we can design a variety of 3D cellular materials with intricate internal microstructures and arbitrarily-shaped external surfaces with unprecedented efficiency and accuracy. Experimental results show that the proposed design method has the capability to combine the perfectly interconnected channel networks based on the TPMS microstructures and the given object geometries in a consistent framework irrespective of the complexity of objects. In addition, in order to show the generality and versatility of the proposed method, a set of valuable applications are also illustrated through the innovative heat sink, heat exchanger, and enhanced lightweight cellular structure designs. Our findings suggest that the proposed design principles offered by TPMS-based cellular topology and VDF can be applied to create a wide range of advanced 3D cellular materials.

1 유동진, "Three-dimensional Human Body Model Reconstruction and Manufacturing from CT Medical Image Data Using a Heterogeneous Implicit Solid Based Approach" 한국정밀공학회 12 (12): 293-301, 2011

2 Yoo, D. J., "Three-Dimensional Surface Reconstruction of Human Bone using a B-Spline based Interpolation Approach" 43 (43): 934-947, 2011

3 Ryu, J. H., "Three-Dimensional Numerical Optimization of a Manifold Microchannel Heat Sink" 46 (46): 1553-1562, 2003

4 Fedorov, A. G., "Three-Dimensional Conjugate Heat Transfer in the Microchannel Heat Sink for Electronic Packaging" 43 (43): 399-415, 2000

5 Evans, A. G., "The Topological Design of Multifunctional Cellular Metals" 46 (46): 309-327, 2001

6 Hetsroni, G., "Sintered Porous Medium Heat Sink for Cooling of High-Power Mini-Devices" 27 (27): 259-266, 2006

7 Dong-Jin Yoo, "Shape Reconstruction, Shape Manipulation, and Direct Generation of Input Data from Point Clouds for Rapid Prototyping" 한국정밀공학회 10 (10): 103-113, 2009

8 Rajagopalan, S., "Schwarz Meets Schwann: Design and Fabrication of Biomorphic and Durataxic Tissue Engineering Scaffolds" 10 (10): 693-712, 2006

9 유동진, "Recent Trends and Challenges in Computer-Aided Design of Additive Manufacturing-based Biomimetic Scaffolds and Bioartificial Organs" 한국정밀공학회 15 (15): 2205-2217, 2014

10 Valdevit, L., "Protocols for the Optimal Design of Multi-Functional Cellular Structures: From Hypersonics to Micro-Architected Materials" 94 (94): s15-s34, 2011

11 Cansizoglu, O., "Properties of Ti-6Al-4V Non-Stochastic Lattice Structures Fabricated Via Electron Beam Melting" 492 (492): 468-474, 2008

12 Pasko, A., "Procedural Function-based Modelling of Volumetric Microstructures" 73 (73): 165-181, 2011

13 Yoo, D. J., "Porous Scaffold Design using the Distance Field and Triply Periodic Minimal Surface Models" 32 (32): 7741-7754, 2011

14 Wicks, N., "Optimal Truss Plates" 38 (38): 5165-5183, 2001

15 Torquato, S., "Optimal Design of Manufacturable Three-Dimensional Composites with Multifunctional Characteristics" 94 (94): 5748-5755, 2003

16 정진우, "Octahedron Pore Architecture to Enhance Flexibility of Nasal Implant-Shaped Scaffold for Rhinoplasty" 한국정밀공학회 15 (15): 2611-2616, 2014

17 Yoo, D. J., "New Paradigms in Internal Architecture Design and Freeform Fabrication of Tissue Engineering Porous Scaffolds" 34 (34): 762-776, 2012

18 Yoo, D. J., "New Paradigms in Hierarchical Porous Scaffold Design for Tissue Engineering" 33 (33): 1759-1772, 2013

19 Fryazinov, O., "Multi-Scale Space-Variant FRep Cellular Structures" 45 (45): 26-34, 2013

20 Yang, N., "Multi-Morphology Transition Hybridization CAD Design of Minimal Surface Porous Structures for Use in Tissue Engineering" 56 : 11-21, 2014

21 Kapfer, S. C., "Minimal Surface Scaffold Designs for Tissue Engineering" 32 (32): 6875-6882, 2011

22 Bhattacharya, A., "Metal Foam and Finned Metal Foam Heat Sinks for Electronics Cooling in Buoyancy-Induced Convection" 128 (128): 259-266, 2006

23 김충수, "Mechanical Behavior of Microscale Carbon Pillar Fabricated by Focused Ion Beam Induced Deposition" 한국정밀공학회 15 (15): 1485-1488, 2014

24 Bart-Smith, H., "Measurement and Analysis of the Structural Performance of Cellular Metal Sandwich Construction" 43 (43): 1945-1963, 2001

25 Melchels, F. P. W., "Mathematically Defined Tissue Engineering Scaffold Architectures Prepared by Stereolithography" 31 (31): 6909-6916, 2010

26 Lakes, R., "Materials with Structural Hierarchy" 361 (361): 511-515, 1993

27 김홍석, "Material Pixel-based Process Planning for Layered Manufacturing of Heterogeneous Objects" 한국정밀공학회 15 (15): 2421-2427, 2014

28 Kadkhodapour, J., "Investigating Internal Architecture Effect in Plastic Deformation and Failure for TPMS-based Scaffolds using Simulation Methods and Experimental Procedure" 43 : 587-597, 2014

29 유동진, "Heterogeneous Porous Scaffold Design for Tissue Engineering Using Triply Periodic Minimal Surfaces" 한국정밀공학회 13 (13): 527-537, 2012

30 유동진, "Heterogeneous Porous Scaffold Design Using the Continuous Transformations of Triply Periodic Minimal Surface Models" 한국정밀공학회 14 (14): 1743-1753, 2013

31 유동진, "Heterogeneous Object Modeling Using the Radial Basis Functions" 한국정밀공학회 14 (14): 1133-1140, 2013

32 Yoo, D. J., "Heterogeneous Minimal Surface Porous Scaffold Design using the Distance Field and Radial Basis Functions" 34 (34): 625-639, 2012

33 Zhang, H. Y., "Heat Transfer Studies of a Porous Heat Sink Characterized by Straight Circular Ducts" 44 (44): 1593-1603, 2001

34 유동진, "General 3D Offsetting of a Triangular Net Using an Implicit Function and the Distance Fields" 한국정밀공학회 10 (10): 131-142, 2009

35 Naing, M. W., "Fabrication of Customised Scaffolds using Computer-Aided Design and Rapid Prototyping Techniques" 11 (11): 249-259, 2005

36 Wadley, H. N., "Fabrication and Structural Performance of Periodic Cellular Metal Sandwich Structures" 63 (63): 2331-2343, 2003

37 Jang, D., "Fabrication and Deformation of Three-Dimensional Hollow Ceramic Nanostructures" 12 (12): 893-898, 2013

38 Bastawros, A. F., "Experimental Analysis of Deformation Mechanisms in a Closed-Cell Aluminum Alloy Foam" 48 (48): 301-322, 2000

39 Melchels, F. P. W., "Effects of the Architecture of Tissue Engineering Scaffolds on Cell Seeding and Culturing" 6 (6): 4208-4217, 2010

40 Yang, N., "Effective Method for Multi-Scale Gradient Porous Scaffold Design and Fabrication" 43 : 502-505, 2014

41 사민우, "Effect of Various Blending Ratios on the Cell Characteristics of PCL and PLGA Scaffolds Fabricated by Polymer Deposition System" 한국정밀공학회 14 (14): 649-655, 2013

42 Agarwala, M., "Direct Selective Laser Sintering of Metals" 1 (1): 26-36, 1995

43 Kulish, V. V., "Diffusion within a Porous Medium with Randomly Distributed Heat Sinks" 43 (43): 3481-3496, 2000

44 Almeida, H. A., "Design of Tissue Engineering Scaffolds based on Hyperbolic Surfaces: Structural Numerical Evaluation" 36 (36): 1033-1040, 2014

45 Guest, J. K., "Design of Maximum Permeability Material Structures" 196 (196): 1006-1017, 2007

46 Chu, C., "Design for Additive Manufacturing of Cellular Structures" 5 (5): 686-696, 2008

47 Tian, J., "Cross Flow Heat Exchange of Textile Cellular Metal Core Sandwich Panels" 50 (50): 2521-2536, 2007

48 유동진, "Computer-aided Porous Scaffold Design for Tissue Engineering Using Triply Periodic Minimal Surfaces" 한국정밀공학회 12 (12): 61-71, 2011

49 Schroeder, C., "Computer-Aided Design of Porous Artifacts" 37 (37): 339-353, 2005

50 Rosen, D. W., "Computer-Aided Design for Additive Manufacturing of Cellular Structures" 4 (4): 585-594, 2007

51 Bart-Smith, H., "Compressive Deformation and Yielding Mechanisms in Cellular Al Alloys Determined using X-ray Tomography and Surface Strain Mapping" 46 (46): 3583-3592, 1998

52 Wang, L., "Co-Continuous Composite Materials for Stiffness, Strength, and Energy Dissipation" 23 (23): 1524-1529, 2011

53 Wadley, H. N. G., "Cellular Metals Manufacturing" 4 (4): 726-733, 2002

54 Sypeck, D. J., "Cellular Metal Truss Core Sandwich Structures" 4 (4): 759-764, 2002

55 Sun, W., "Bio-CAD Modeling and Its Applications in Computer-Aided Tissue Engineering" 37 (37): 1097-1114, 2005

56 Zhao, C. Y., "Analysis of Microchannel Heat Sinks for Electronics Cooling" 45 (45): 4857-4869, 2002

57 유동진, "Advanced Projection Image Generation Algorithm for Fabrication of a Tissue Scaffold using Volumetric Distance Field" 한국정밀공학회 15 (15): 2117-2126, 2014

58 유동진, "Advanced Porous Scaffold Design using Multi-Void Triply Periodic Minimal Surface Models with High Surface Area to Volume Ratios" 한국정밀공학회 15 (15): 1657-1666, 2014

59 Williams, C. B., "Additive Manufacturing of Metallic Cellular Materials Via Three-Dimensional Printing" 53 (53): 231-239, 2011

60 Compton, B. G., "3D-Printing of Lightweight Cellular Composites" 26 (26): 5930-5935, 2014