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2018

  1. Agarwala S, Goh G.L., Yap Y.L., Goh G.D., Yu H., Yeong W.Y., Tuan T., "Development of bendable strain sensor with embedded microchannels using 3D printing", Sensors and Actuators A: Physical, 263, 593-599, 2018

  2. Agarwala S., Goh G. L., Yeong W. Y., "Aerosol jet printed strain sensor: simulation studies analyzing the effect of dimension and design on performance", IEEE Access, 6, 63080 - 63086, 2018

  3. Agarwala S., Goh G.L., Truong S. D. L., An J.N., Peh Z.K., Yeong W.Y., and Kim Y.J., "Wearable bandage based strain sensor for home healthcare: combining 3D aerosol jet printing and laser sintering", ACS Sensors, 2018

  4. Agarwala S., Goh G.L., Yeong W.Y., "Aerosol Jet Printed Strain Sensor: Simulation Studies Analyzing the Effect of Dimension and Design on Performance", IEEE Access 6, 63080 – 63086, 2018

  5. Agarwala S., Jia M.L., Wei L.N., Michael L., Wai Y.Y., Shlomo M., “A novel 3D bioprinted flexible and biocompatible hydrogel bioelectronic platform”, Biosensors and Bioelectronics, 102, 365-371, 2018

  6. Agarwala S., Lee J. M., Ng W. L., Layani M., Yeong W. Y., Magdassi S., "A novel 3D bioprinted flexible and biocompatible hydrogel bioelectronic platform", Biosensors and Bioelectronics, 102, 365-371, 2018

  7. Agarwala S., Lee J.M., Yeong W.Y., Layani M., Magdassi S., "3D printed bioelectronic platform with embedded electronics", MRS Advances 3, 3011-3017, 2018

  8. Agarwala S., Lee J.M., Yeong W.Y., Layani M., Magdassi S., “3D printed bioelectronic platform with embedded electronics”, MRS Advances, 3(50), 3011-3017, 2018

  9. Agarwala Shweta, Goh Guo Liang, Truong-Son Dinh Le, An Jianing, Peh Zhen Kai, Yeong Wai Yee and Kim Young-Jin, "Wearable Bandage based Strain Sensor for Home Healthcare: Combining 3D Aerosol Jet Printing and Laser Sintering", ACS Sensors, 2018

  10. Agarwala Shweta, Goh Guo Liang, Yeong Wai Yee, "Aerosol Jet Printed Strain Sensor: Simulation Studies Analyzing the Effect of Dimension and Design on Performance", IEEE Access 6, 63080 – 63086, 2018

  11. Agarwala Shweta, Lee Jia Min, Ng Wei Long, Michael Layani, Yeong Wai Yee, Shlomo Magdassi, "A novel 3D bioprinted flexible and biocompatible hydrogel bioelectronic platform", Biosensors and Bioelectronics, 102, 365-371, 2018

  12. Agarwala Shweta, Lee Jia Min, Yeong Wai Yee, Michael Layani, "3D Printed Bioelectronic Platform with Embedded Electronics", MRS Advances 3, 3011-3017, 2018

  13. Ahn IH, Moon S.K., Bi G.J., “Hole design quality identification in laser aided additive manufacturing”, Proceedings of the Institution of Mechanical Engineers Part B - Journal of Engineering Manufacture, 232(5), 909-917, 2018

  14. Anwar A.B., Pham Q.C., "Study of the spatter distribution on the powder bed during selective laser melting", Additive Manufacturing, Accepted, 2018

  15. Aphinyan S., Ang E.Y.M., Yeo J.J., Ng T.Y., Geethalakshmi K.R., “Numerical study of surface agglomeration of ultraviolet-polymeric ink and its control during 3D nano-inkjet printing process”, Journal of Polymer Science Part B-Polymer Physics, 56(24), 1615-1624, 2018

  16. B. Panda, Daniel T. Y. W., Suvash C. P., Tan M. J., "Current challenges and Future potential of 3D concrete printing", Materialwissenschaft und Werkstofftechnik, 2018

  17. C. Tang, J.l Tan, C.H. Wong "A numerical investigation on the physical mechanisms of single track defects in selective laser melting", International Journal of Heat and Mass Transfer, Volume 126, Part B, 957-968, 2018

  18. Chen B., Moon S.K., Yao X., Bi G., Shen J., Umeda J., Kondoh K., “Comparison study on additive manufacturing (AM) and powder metallurgy (PM) AlSi10Mg alloys”, JOM, 70(5), 644-649, 2018

  19. Chua C.K., Yeong W.Y., An J., “Special issue: nextgen materials for 3D printing”, Materials, 11(4), 555, 2018

  20. Du Z., Tan M.J., Chen H., Bi G., Chua C.K., “Joining of 3D-printed AlSi10Mg by friction stir welding”, Welding in the World, 62(3), 675-682, 2018

  21. Du Zheng Lin, Tan Ming Jen, H. Chen, Bi Gui Jun, Chua Chee Kai, “Joining of 3D-printed AlSi10Mg by friction stir welding”, Welding in the World, 137, 79-89, 2018

  22. F. Shen, S. Yuan, C. K. Chua and K. Zhou, "Development of process efficiency maps for selective laser sintering of polymeric composite powders: modeling and experimental testing", Journal of Materials Processing Technology, 254, 52-59, 2018

  23. Gan M.X., Wong C.H., “Experimental studies on the properties of selectively laser melted aluminaspodumene composite”, Ceramics International, 44(15), 19008-19015, 2018

  24. Goh G. L., Agarwala S., Tan Y. J., Yeong W. Y, "A low cost and flexible carbon nanotube pH sensor fabricated using aerosol jet technology for live cell applications", Sensors and Actuators B: Chemical, 260, 227-235, 2018

  25. Goh G. L., Agarwala S., Tan Y.J., Yeong W.Y., "A low cost and flexible carbon nanotube pH sensor fabricated using aerosol jet technology for live cell applications", Sensors and Actuators B: Chemical, 260, 227-235, 2018

  26. Goh G.D., Vishwesh D., Nagalingam A.P., Goh G.L., Agarwala S., Sing S.L., Jun W. & Yeong W.Y., "Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics", Materials & Design, 137, 79-89, 2018

  27. Goh G.D., Yap Y.L., Agarwala S. and Yeong W.Y., "Recent progress in additive manufacturing of fiber reinforced polymer composite", Advanced Materials Technologies, 2018

  28. Goh G.L., Agarwala S., Tan Y.J., Yeong W.Y., "A low cost and flexible carbon nanotube pH sensor fabricated using aerosol jet technology for live cell applications", Sensors and Actuators B: Chemical 260, 227-235, 2018

  29. Goh G.L., Agarwala S., Yeong W.Y., "Directed and on-demand alignment of carbon nanotube: A review towards 3D printing of electronics", Advanced Materials Interfaces, Accepted

  30. Goh Guo Dong, Vishwesh Dikshit, A.P.Nagalingam, Goh Guo Liang, Shweta Agarwala, Sing Swee Leong, Jun Wei, Yeong Wai Yee, "Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics", Materials & Design, 137, 79-89, 2018

  31. Goh Guo Dong, Yap Yee Ling, Shweta Agarwala, Yeong Wai Yee, "Recent Progress in Additive Manufacturing of Fiber Reinforced Polymer Composite", Advanced Materials Technologies, 2018

  32. Goh Guo Liang, Shweta Agarwala, Tan Yu Jun, Yeong Wai Yee, "A low cost and flexible carbon nanotube pH sensor fabricated using aerosol jet technology for live cell applications", Sensors and Actuators B: Chemical, 260, 227-235, 2018

  33. Ho E.H.Z., Ambrosi A., Pumera M, “Additive manufacturing of electrochemical interfaces: simultaneous detection of biomarkers”, Applied Materials Today, 12, 43-50, 2018

  34. Jiao L.S., Chua Z.Y., Moon S.K, Song J., Bi G.J., Zheng H.Y., “Femtosecond laser produced hydrophobic hierarchical structures on additive manufacturing parts”, Nanomaterials, 8(8), 601, 2018

  35. Khoo Z.X., Liu Y., An J., Chua C.K., Shen Y.F., Kuo C.N., "A review of selective laser melted NiTi shape memory alloy", Materials, 11(4), art. no. 519, 2018

  36. Khun N.W., Toh W.Q., Tan X.P., Liu E., Tor S.B., “Tribological properties of three-dimensionally printed Ti-6Al-4V material via electron beam melting process tested against 100Cr6 steel without and with Hank’s solution”, Journal of Tribology - Transactions of the ASME, 140(6), 061606, 2018

  37. Khun N.W., Toh W.Q., Tan X.P., Liu E.J., Tor S.B., “Tribological properties of three dimensionally printed Ti-6Al-4V material via electron beam melting process tested against steel material without and with Hank's solution”, Journal of Tribology - Transactions of the ASME, Accepted, 2018

  38. Le K.Q., Tang C., and Wong C.H., "A Study on the Influence of Scanning Strategies on the Levelness of the Melt Track in Selective Laser Melting Process of Stainless Steel Powder", JOM (2018), Volume 70, Issue 10, pp 2082–2087, 2018

  39. Li H.J., Tan C., Li L., “Review of 3D printable hydrogels and constructs”, Materials and Design, 159, 20-38, 2018

  40. Li H.J., Tan Y.J., Li L., “A strategy for strong interface bonding by 3D bioprinting of oppositely charged kappa-carrageenan and gelatin hydrogels”, Carbohydrate Polymers,198, 261-269, 2018

  41. Liyarita B.R., Ambrosi A., Pumera M., “3D-printed electrodes for sensing of biologically active molecules”, Electroanalysis, 30(7), 1319-1326, 2018

  42. Lu Q.Y., Wong C.H., “Additive manufacturing process monitoring and control by non-destructive testing techniques: challenges and in-process monitoring”, Virtual and Physical Prototyping, 13(2), 39-48, 2018

  43. Ng W. L., Goh M. H., Yeong W. Y., & Naing M. W., "Applying Macromolecular Crowding to 3D Bioprinting: Fabrication of 3D Hierarchical Porous Collagen-based Hydrogel Constructs”, Biomaterials Science, Accepted  (DOI: 10.1039/C7BM01015J)

  44. Ng W.L., Tan J. Z. Q., Yeong W. Y., & Naing M. W., "Proof-of-Concept: 3D Bioprinting of Pigmented Human Skin Constructs” Biofabrication 10 (2), 025005 Accepted and Selected for Press Release: Jan 2018 (DOI: 10.1088/1758-5090/aa9e1e)

  45. Nguyen K. W. L., Aprilia A., Khairyanto A., Pang W. C., Seet G. G. L. & Tor S. B., "Edge detection from point cloud of worn parts", Proceedings of the 3rd International Conference on Progress in Additive Manufacturing (Pro-AM 2018), 2018

  46. Nguyen W. L. K., Aprilia A., Khairyanto A., Pang W. C., Seet G. G. L. and Tor S. B., "Morphological Box Classification Framework for supporting 3D scanner selection", Virtual and Physical Prototyping, 13:3, 211-221, 2018

  47. Panda B., Paul S.C., Nisar A. N. M., Tay Y.W.D. & Tan M.J., “Measurement of tensile bond strength of 3D printed geopolymer mortar”, Measurement, 113, 108–116, 2018

  48. Panda B., Tan M.J., “Experimental study on mix proportion and fresh properties of fly ash based geopolymer for 3D concrete printing”, Ceramics International, 44(9), 10258-10265, 2018

  49. Panda B., Unluer C., Tan M.J., “Investigation of the rheology and strength of geopolymer mixtures for extrusion-based 3D printing”, Cement and Concrete Composites, 94, 307-314, 2018

  50. Paul S.C., Panda B., Garg A., "A novel approach in modelling of concrete made with recycled aggregates", Measurement, 115, 64–72, 2018

  51. Paul S.C., Tay Y.W.D., Panda B. & Tan M.J., “Fresh and hardened properties of 3D printable cementitious materials for building and construction”, Archives of Civil and Mechanical Engineering, 18(1), 311-319, 2018

  52. Paul S.C., van Zijl, G.P.A.G., Tan M.J., Gibson I, “A review of 3D concrete printing systems and materials properties: current status and future research prospects”, Rapid Prototyping Journal, 24(4), 784-798, 2018

  53. Pham Q.C., Lim J.H. and Panda B."Improving flexural characteristics of 3D printed geopolymer composites with in-process steel cable reinforcement", Construction and Building Materials, 2018

  54. Rinoj G., Idapalapati S. & Fieh S., "Printing and characterisation of Kagome lattice structures by fused deposition modelling", Materials & Design, 137, 266-275, 2018.

  55. Sing S.L., Wiria F.E., Yeong W.Y., "Selective laser melting of lattice structures: A statistical approach to manufacturability and mechanical behavior", Robotics and Computer-Integrated Manufacturing, 49, 170-180, 2018

  56. Sing S.L., Wiria F.E., Yeong W.Y., “Selective laser melting of titanium alloy with 50 wt% tantalum: Effect of laser process parameters on part quality”, International Journal of Refractory Metals and Hard Materials, 77, 120-127, 2018

  57. Sun Z.J., Tan X.P., Tor S.B. and Chua C. K., “Simultaneously enhanced strength and ductility for 3D-printed stainless steel 316L by selective laser melting”, NPG Asia Materials, Open Access 10 April 2018, Pages 1-10, doi:10.1038/s41427-0180018-5

  58. Suraj R., Yunus G., Wong Z.W., Erdal K., "Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process", Journal of Manufacturing Processes, 34 (A), 659-666, 2018

  59. Taesik, J., Matthew, P., Allan H.W.T., & Sheng Y. C., "3D printing of hydrogel composite systems: recent advances in technology for tissue engineering", 4(1), 1-28, International Journal of Bioprinting, 2018

  60. Tan C., Toh W.Y., Wong G., Li L., “Extrusion-based 3D food printing - materials and machines”, International Journal of Bioprinting, 4(2), UNSP 143, 2018

  61. Tan X.P., Sun Z.J., Tor S.B., Chua C.K., "Simultaneously enhanced strength and ductility for 3D printed stainless steel 316L by selective laser melting", NPG Asia Materials, 10, 127–136, 2018

  62. Tan X.P., Wang P., Kok Y., Toh W.Q., Sun Z., Nai S.M.L., Descoins M., Mangelinck D., Liu E.J., Tor S.B., "Carbide precipitation characteristics in additive manufacturing of Co-Cr-Mo alloy via selective election beam melting", Scripta Materialia, 143, 117-121, 2018

  63. Tan X.P., Wang P., Kok Y.H., Toh W.Q., Sun Z.J., Nai M.L.S., Descoins M., Mangelinck D., Liu E.J., Tor S.B., "Carbide precipitation characteristics in additive manufacturing of Co-Cr-Mo alloy via selective electron beam melting", Scripta Materialia, 143, 117-121, 2018

  64. Tay Yi Wei Daniel, Ting Guan Heng Andrew, Qian Ye, Biranchi Panda, Lewei He & Tan Ming Jen “Time gap effect on bond strength of 3D-printed concrete”, Virtual and Physical Prototyping, 14:1, 104-113, 2018, DOI: 10.1080/17452759.2018.1500420

  65. Teoh J.E.M., An J., Feng X., Zhao Y., Chua C.K., Liu Y., "Design and 4D printing of cross-folded origami structures: A preliminary investigation", Materials, 11(3), art. no. 376, 2018

  66. Vishwesh D., Nagalingam A.P., Yap Y. L., Sing S. L., Yeong W.Y. & Jun W., "Crack monitoring and failure investigation on inkjet printed sandwich structures under quasi-static indentation test", Materials & Design, 137, 140-151, 2018

  67. W.Q. Toh, X.P. Tan, A. Bhowmik, E. Liu, S.B. Tor, "Tribochemical Characterization and Tribocorrosive Behavior of CoCrMo Alloys: A Review", Materials, 11 (2018), 30

  68. Wang C.C., Tan X.P., Tor S.B. and Liu E.J., “Process parameter optimization and mechanical properties for additively manufactured stainless steel 316L parts by selective electron beam melting”, Materials & Design, Accepted, 2018

  69. Wang P., Tan X.P., He C.Y., Nai M.L.S., Huang R.X., Tor S.B., Wei J., "Scanning optical microscopy for porosity quantification of additively manufactured components", Additive Manufacturing, Article in press, 2018

  70. Weng Y.W., Lu B., Li M.Y., Liu Z.X., Tan M.J., Qian S.Z., “Empirical models to predict rheological properties of fiber reinforced cementitious composites for 3D printing”, Construction and Building Materials, 189, 676-685, 2018

  71. Weng, Y., Li, M., Liu, Z., Lao, W., Lu, B., Zhang, D., & Tan, M. J. “Printability and fire performance of a developed 3D printable fibre reinforced cementitious composites under elevated temperatures”, Virtual and Physical Prototyping, 1-9. 2018

  72. Y. Kok, X.P. Tan, P. Wang, M.L.S. Nai, N.H. Loh, E. Liu, S.B. Tor, "Anisotropy and heterogeneity of microstructure and mechanical properties in metal additive manufacturing: A critical review", Materials & Design, 139, 565-586, 2018

  73. Y. Li, K. Zhou, P. Tan, S. B., Tor, C. K. Chua and K. F. Leong, "Modelling temperature and residual stress fields in selective laser melting", International Journal of Mechanical Sciences, 136 (2018): 24-35.

  74. Yuan S., Zheng Y., Chua C. K., Yan Q. and Zhou K., "Electrical and thermal conductivities of MWCNT/polymer composites fabricated by selective laser sintering", Composites Part A, 105, 203-213, 2018

  75. Zhang X., Li M.Y., Lim J.H., Weng Y.W., Tay Y.W.D., Pham H., Pham Q.C., “Large-scale 3D printing by a team of mobile robots”, Automation in Construction, 95, 98-106, 2018

  76. Zhuang P., Sun X.Y., An J., Chua C.K., Chew S.Y., “3D neural tissue models: From spheroids to bioprinting”, Biomaterials, 154, 113-133, 2018