Google Scholar: https://scholar.google.com/citations?user=OJtZt_YAAAAJ&hl=en
ResearchGate: https://www.researchgate.net/profile/Duck_Bong_Kim2
Journals
67.
67. Duck Bong Kim, Mahdi Sadeqi Bajestani, Ju Yeon Lee, Seung-Jun Shin, Goo-Young Kim, Seyed Mohammad Mehdi Sajadieh, Sangdo Noh, “Human-in-the-Loop in Smart Manufacturing (H-SM): A Review and Perspective,” Journal of Manufacturing Systems (accepted)
66.
66. Bajestani, M.S., Mahdi, M.M., Mun, D. and Kim, D.B., 2025. Human and Humanoid In-the-Loop (HHitL) Ecosystem: An Industry 5.0 Perspective. Machines (accepted).
65.
65. Karim, M.A., Tanvir, G., Jadhav, S., Islam, S., Kim, Y.M., Villarraga-Gomez, H., Lee, H.J., Jeon, Y. and Kim, D.B., 2025. Tailoring porosity and mechanical properties of wire-based directed energy deposited molybdenum alloys through hot isostatic pressing. Applied Materials Today, 42, p.102618.
64.
64. Tanvir, G., Karim, M.A., Kim, N., Jeon, Y. and Kim, D.B., 2025. High-cycle tensile-tensile fatigue performance of niobium alloy: Conventional vs wire-arc additive manufacturing. Journal of Materials Research and Technology, 35, pp.98-109.
63.
63. Kvvssn, V., Butt, M.M., Laieghi, H., Uddin, Z., Salamci, E., Kim, D.B. and Kizil, H., 2025. Recent progress in additive manufacturing of 7XXX aluminum alloys. The International Journal of Advanced Manufacturing Technology, pp.1-47.
62.
62. Kim, C.J., Han, S.B., Seo, B.W., Bae, I., Kim, D., Kim, S. and Cho, Y.T., 2025. Architecture Development of Digital Twin-Based Wire Arc Directed Energy Deposition. International Journal of Precision Engineering and Manufacturing-Green Technology, 12(3), pp.885-904.
61.
61. Islam, S., Karim, M.A., Jadhav, S., Payzant, E.A., Bunn, J.R., Lee, Y., Ahn, D.G. and Kim, D.B., 2025. Investigation of residual stress distribution in wire-arc directed energy deposited refractory molybdenum alloy utilizing numerical thermo-mechanical analysis and neutron diffraction method. International Journal of Refractory Metals and Hard Materials, 130, p.107149.
60.
60. Mohammad Mahruf Mahdi, Mahdi Sadeqi Bajestani, Sang Do Noh, Duck Bong Kim, 2025. “Digital Twin-based Architecture for Wire Arc Additive Manufacturing using OPC UA,” Robotics and Computer-integrated Manufacturing 94: 102944.
59.
59. Md Abdul Karim, Saiful Islam, Gazi Tanvir, Sainand Jadhav, Young-Min Kim, Yongho Jeon, Duck Bong Kim, 2025. “Wire-arc directed energy deposition of steel onto tungsten substrate: fabricability and mechanical performance of synergistic structures,” Virtual and Physical Prototyping 20(1): e2443478.
58.
58. Min-Su Kang, Dong-Hee Lee, Mahdi Sadeqi Bajestani, Duck Bong Kim,
Sang Do Noh, 2024. Edge-Computing-Based Digital Twin Framework Based on ISO 23247, Machines 13(1): 19.
57.
57. Duck Bong Kim · Mahdi Sadeqi Bajestani · Ju Yeon Lee · Seung-Jun Shin · Sang Do Noh, 2024, Introduction of Human-in-the-Loop in Smart Manufacturing (H-SM), International Journal of Precision Engineering and Manufacturing-Smart Technology;2(2):209-214. DOI: https://doi.org/10.57062/ijpem-st.2024.00115
56.
56. So, M.S., Mahdi, M.M., Kim, D.B. and Shin, J.H., 2024. Prediction of Metal Additively Manufactured Bead Geometry Using Deep Neural Network. Sensors (Basel, Switzerland), 24(19), p.6250.
55.
55. Ahsan, M.R., Hmeidat, N.S., Islam, S., Fan, X., Poplawsky, J.D., Liaw, P.K., Lee, Y., Compton, B.G., Jeon, Y. and Kim, D.B., 2024. Strength-ductility synergy through microstructural and compositional heterogeneity in directed energy deposition additive manufacturing of face-centered cubic materials. Journal of Materials Research and Technology.
54.
54. Tanvir, Gazi, Md Abdul Karim, Sainand Jadhav, Saiful Islam, Young-Min Kim, Ho Jin Ryu, and Duck Bong Kim. "Effect of hot isostatic pressing on porosity of wire-arc directed energy deposited TZM/NbZr1 bimetallic structure." Virtual and Physical Prototyping 19, no. 1 (2024): e2404989.
53.
53. Jadhav, S., Tanvir, G., Karim, M.A., Islam, S., Noh, S.D. and Kim, D.B., 2024. Microstructures and mechanical behaviour of bimetallic structures of tungsten alloy (90WNiFe) and nickel alloy (In625) fabricated by wire-arc directed energy deposition. Virtual and Physical Prototyping, 19(1), p.e2370957.
52.
52. Karim, M.A., Jeon, Y. and Kim, D.B., 2024. Trailblazing multi-material structure: Niobium alloy to tungsten–copper composite using wire-arc additive manufacturing. Materials Letters, 375, p.137246.
51.
51. Islam, S., Jadhav, S., Park, T., Pourboghrat, F., Fan, X., Liaw, P.K. and Kim, D.B., 2024. Crystal Plasticity Approach for Predicting Mechanical Responses in Wire-Arc Directed Energy Deposition of NbZr1 Refractory Alloy. Additive Manufacturing, p.104107.
50.
50. Jadhav, S., Jeong, G.H., Bajestani, M.S., Islam, S., Lee, H.J., Cho, Y.T. and Kim, D.B., 2024. Investigation of surface roughness, microstructure, and mechanical properties of overhead structures fabricated by wire+ arc additive manufacturing. The International Journal of Advanced Manufacturing Technology, pp.1-21.
49.
49. Kim, D.B., Chong, H., Mahdi, M.M. and Shin, S.J., 2024. Data-fused and concatenated-ensemble learning for in-situ anomaly detection in wire and arc-based direct energy deposition. Journal of Manufacturing Processes, 112, pp.273-289.
48.
48. Kannan, R., Pierce, D., Nayir, S., Ahsan, R.U., Kim, D., Unocic, K., Lee, Y., Jadhav, S., Karim, M.A. and Nandwana, P., 2024. Wire directed energy deposition of steel-aluminum structures using cold metal transfer process. Journal of Materials Research and Technology.
47.
47. Karim, M.A., Jadhav, S., Kannan, R., Pierce, D., Lee, Y., Nandwana, P. and Kim, D.B., 2024. Investigating stainless steel/aluminum bimetallic structures fabricated by cold metal transfer (CMT)-based wire-arc directed energy deposition. Additive Manufacturing, 81, p.104015.
46.
46. Kim, C.J., Seo, B.W., Son, H.J., Kim, S., Kim, D. and Cho, Y.T., 2024. Slag inclusion-free flux cored wire arc directed energy deposition process. Materials & Design, 238, p.112669.
45.
45. Jadhav, S., Karim, M.A. and Kim, D.B., 2024. Bimetallic structure of TZM and NbZr1 fabricated by wire-based directed energy deposition. Materials Letters, 356, p.135605.
44.
44. Shin, S.J., Lee, J.H., Jadhav, S. and Kim, D.B., 2024. Material-Adaptive Anomaly Detection Using Property-Concatenated Transfer Learning in Wire Arc Additive Manufacturing. International Journal of Precision Engineering and Manufacturing, pp.1-26.
43.
43. Jadhav, S., Bajestani, M.S., Islam, S., Karim, M.A., Kim, C.J., Lee, H.J., Cho, Y.T. and Kim, D.B., 2023. Materials characterization of Ti6Al4V to NbZr1 bimetallic structure fabricated by wire arc additive manufacturing. Materials Today Communications, 36, p.106934.
42.
42. Shin, S.J., Hong, S.H., Jadhav, S. and Kim, D.B., 2023. Detecting balling defects using multisource transfer learning in wire arc additive manufacturing. Journal of Computational Design and Engineering, 10(4), pp.1423-1442.
41.
41. Karim, M.A., Manladan, S.M., Afroz, H.M., Jin, W., Krishna, T., Ji, C., Kim, D.B. and Park, Y.D., 2023. Critical effect of heat input on joint quality in resistance element welding of Al and steel. Journal of Manufacturing Processes, 95, pp.91-104.
40.
40. Saiful Islam, Md. Rumman Ul Ahsan, Gi-Jeong Seo, Ho-Jin Lee, Taejoon Park, Farhang Pourboghrat, Duck Bong Kim. “Investigations of Microstructure and Mechanical Properties in Wire + Arc Additively Manufactured Niobium–Zirconium Alloy.” Advanced Engineering Materials (2023). https://doi.org/10.1002/adem.202201633.
39.
39. Kim, Eun-Su, Dong-Hee Lee*, Gi-Jeong Seo, Duck Bong Kim, and Seung-Jun Shin. "Development of a CNN-based real-time monitoring algorithm for additively manufactured molybdenum." Sensors and Actuators A: Physical 352 (2023): 114205. (IF: 4.291, ISSN: 0924-4247).
38.
38. Lee, J., Jadhav, S., Kim, D.B. and Ko, K.*, 2023. Preliminary results for a data-driven uncertainty quantification framework in wire+ arc additive manufacturing using bead-on-plate studies. The International Journal of Advanced Manufacturing Technology, pp.1-22. (IF: 3.563, ISSN: 0268-3768).
37.
37. Islam, S., Seo, G.J., Ahsan, M.R., Villarraga-Gómez, H., Lee, H.J. and Kim, D.B.*, 2023. Investigation of microstructures, defects, and mechanical properties of titanium-zirconium-molybdenum alloy manufactured by wire arc additive manufacturing. International Journal of Refractory Metals and Hard Materials, 110, p.106042. (IF: 4.804, ISSN: 0263-4368).
36.
36. So, M.S., Seo, G.J., Kim, D.B. and Shin, J.H.*, 2022. Prediction of Metal Additively Manufactured Surface Roughness Using Deep Neural Network. Sensors, 22(20), p.7955. (IF: 3.847, ISSN: 1424-8220).
35.
35. Kim, D.B.*, Shao, G. and Jo, G., 2022. A digital twin implementation architecture for wire+ arc additive manufacturing based on ISO 23247. Manufacturing Letters, 34, pp.1-5. IF: 5.533, ISSN: 2213-8463).
34.
34. YS Kim, DH Yun, JH Han, Md. R. U. Ahsan, E‑W Huang, J Jain, CW Ji, DB Kim*, SY Lee*, Bimetallic additively manufactured structure (BAMS) of Inconel 625 and austenitic stainless steel: effect of heat‑treatment on microstructure and mechanical properties, The International Journal of Advanced Manufacturing Technology 121(11-12), 7539-7549 (2022). (IF: 3.563, ISSN: 0268-3768).
33.
33. Cho, J., D. Lee*, G. Seo, D. Kim, and S. Shin. "Optimizing the Mean and Variance of Bead Geometry in the Wire+ Arc Additive Manufacturing Using a Desirability Function Method," The International Journal of Advanced Manufacturing Technology 120: 7771–7783 (2022). (IF: 3.563, ISSN: 0268-3768).
32.
32. HW Cho, SJ Shin*, GJ Seo, DB Kim, DH Lee (2022) “Real-time anomaly detection using convolutional neural network in wire arc additive manufacturing: molybdenum material,” Journal of Materials Processing Technology, 117495. (IF: 6.162, ISSN: 0924-0136).
31.
31. C Lee, G Seo, DB Kim, M Kim, JH Shin* (2021), “Development of Defect Detection AI Model for Wire+ Arc Additive Manufacturing Using High Dynamic Range Images,” Applied Sciences 11(16): 7541. (IF: 2.838, ISSN: 2076-3417).
30.
30. MRU Ahsan, GJ Seo, X Fan, PK Liaw, S Motaman, C Haase, DB Kim* (2021), “Effects of process parameters on bead shape, microstructure, and mechanical properties in wire+arc additive manufacturing of Al0. 1CoCrFeNi high-entropy alloy,” Journal of Manufacturing Processes 68: 1314-1327. (IF: 5.684, ISSN: 1526-6125).
29.
29. Gijeong Seo, Rumman Ahsan, Yousub Lee, Jongho Shin, Hyungjun Park, Yousub Lee, Duck Bong Kim* (2021), “A study on quality assurance plan for additive manufacturing using functional design models,” Journal of Rapid Prototyping 27(2): 288-303. (IF: 4.043, ISSN: 1355-2546).
28.
28. Md. R. U. Ahsan, Xuesong Fan, Gi-Jeong Seo, Changwook Ji, Mark Noakes, Andrzej Nycz, P. K. Liaw, and Duck Bong Kim* (2021), Microstructure and mechanical properties of the bimetallic additively-manufactured structure (BAMS) of austenitic stainless steel and Inconel 625, Journal of Material Science and Technology 74: 176-188. (IF: 10.32, ISSN: 1005-0302).
27.
27. A. N. M. Tanvir, Md. R. U. Ahsan, Gijeong Seo, Jae-duk Kim, Changwook Ji, Brian Bates, Yousub Lee, Duck Bong Kim* (2020), “Heat Treatment Effects on Microstructural Evolution of Inconel 625 Components Fabricated by Wire + Arc Additive Manufacturing (WAAM)-Part 2: Mechanical Properties,” International Journal of Advanced Manufacturing and Technology 110(7): 1709-1721. (IF: 3.563, ISSN: 0268-3768).
26. Md. R. U. Ahsan, A. N. M. Tanvir, Gi-Jeong Seo, Brian Bates, Wayne Hawkins, Chanho Lee, Peter. K. Liaw, Mark Noakes, Andrzej Nycz, and Duck Bong Kim*, “Heat-treatment effects on a bimetallic additively-manufactured structure (BAMS) of the low-carbon steel and austenitic-stainless steel, Additive Manufacturing 32: 101036 (2020). (Impact factor: 7.173)
25. A. N. M. Tanvir, Md. R. U. Ahsan, Gijeong Seo, Brian Bates, Chanho Lee, Peter K. Liaw, Mark Noakes, Andrzej Nycz, Changwook Ji, and Duck Bong Kim*, “Microstructural stability and mechanical properties of wire + arc additively manufactured H13 tool steel at elevated temperatures, Journal of Material Science and Technology (accepted on April 24th, 2020). (Impact factor: 5.040)
24. Md. R. U. Ahsan, A. N. M. Tanvir, Taylor Ross, Ahmed H. Elsawy, Min-Suk Oh, Duck Bong Kim*, “Fabrication of bimetallic additively manufactured structure (BAMS) of Low Carbon Steel and 316L Austenitic Stainless Steel,” Journal of Rapid Prototyping 26(3): 519-530 (4 Dec., 2019). (Impact factor: 3.170)
23. Qais Y. Hatim, Christopher Saldana, Guodong Shao, Duck Bong Kim, KC Morris, Paul Witherell, Sudarsan Rachuri, Soundar Kumara,” A decision support methodology for integrated machining process and operation plans for sustainability and productivity assessment,” International Journal of Advanced Manufacturing and Technology 107: 3207-3230 (12 April, 2020) (Impact factor: 2.496)
22. A. N. M. Tanvir, Md. R. U. Ahsan, Changwook Ji, Wayne Hawkins, Brian Bates, Duck Bong Kim* (Aug., 2019), “Heat Treatment Effects on Microstructural Evolution of Inconel 625 Components Fabricated by Wire + Arc Additive Manufacturing (WAAM)-Part 1: Microstructural Characterization,” International Journal of Advanced Manufacturing and Technology 103(9-12):3785-3798. (Impact factor: 2.496)
21. Md. R. U. Ahsan, Taehoon Kim, Duck Bong Kim, Changwook Ji, and Yeong-Do Park, “A study on the effect of wire composition on welding with gap and offset in cold metal transfer (CMT) GMAW,” Journal of Welding and Joining 2018: 36(5): 12-18.
20. Duck Bong Kim*, “An approach for composing predictive models from disparate knowledge sources in smart manufacturing environments”, Journal of Intelligent Manufacturing 30(4): 1999-2012 (2019). (Impact factor: 3.535)
19. Shin, Seung-Jun, Duck Bong Kim*, Guodong Shao, Alexander Brodsky, and David Lechevalier, "Developing a decision support system for improving sustainability performance of manufacturing processes," Journal of Intelligent Manufacturing: 28(6), 1421-1440. (August 1, 2017). (Impact factor: 3.535)
18. Shao, Guodong, Alexander Brodsky, Seung-Jun Shin*, and Duck Bong Kim (Feb., 2017) "Decision guidance methodology for sustainable manufacturing using process analytics formalism," Journal of Intelligent Manufacturing: 28(2): 455-472. (Impact factor: 3.535)
17. Shaw C. Feng, Paul Witherell, Gaurav Ameta, Duck Bong Kim, (2017) "Activity model for homogenization of data sets in laser-based powder bed fusion", Rapid Prototyping Journal, Vol. 23 Issue: 1, pp.137-148, https://doi.org/10.1108/RPJ-11-2015-0160. (Impact factor: 3.170)
16. Kim, Duck Bong, Witherell, P., Lu, Y., and Feng, S. "Toward a Digital Thread and Data Package for Metals-Additive Manufacturing," ASTM Smart and Sustainable Manufacturing Systems, Vol. 1, No. 1, 2017, pp. 75-99
15. Denno, Peter O. and Duck Bong Kim, (Sept., 2016), “Integrating views of properties in models of unit manufacturing processes,” International Journal of Computer Integrated Manufacturing. 29(9): 996-1006. (Impact factor: 2.090)
14. Seungjun Shin, Jungyub Woo*, Duck Bong Kim, FNU Kumaraguru, and Sudarsan Rachuri (Aug., 2016) “Developing a virtual machining model to generate MTConnect machine monitoring data from STEP-NC,” International Journal of Production Research 54(15): 4487-4505. (Impact factor: 3.199)
13. Kim, Duck Bong*, Inyeop Jang, Han Kyun Choi, and Kwan H. Lee (August 1, 2016) "Recovery and representation of spectral bidirectional reflectance distribution function from an image-based measurement system," Color Research and Application. 41(4): 358-371. (Impact factor: 1.027)
12. Kim, Duck Bong*, Peter O. Denno, and Albert T. Jones (December 17, 2015) “A model-based approach to refine process parameters in smart manufacturing,” Concurrent Engineering: Research and Applications. 23(4): 365-376. (Impact factor: 0.5)
11. Kim, Duck Bong, Seung-Jun Shin*, Guodong Shao, and Alexander Brodsky (June, 2015) "A decision-guidance framework for sustainability performance analysis of manufacturing processes," The International Journal of Advanced Manufacturing Technology 78(9): 1455-1471. (Impact factor: 2.496)
10. Kim, Duck Bong, Paul Witherell*, Robert Lipman, and Shaw C. Feng (Jan, 2015) "Streamlining the additive manufacturing digital spectrum: A systems approach," Additive Manufacturing 5: 20-30. (Impact factor: 7.173)
9. Kim, Duck Bong*, and Kwan H. Lee (Jul 23, 2014) "Characterization method for a multispectral high-dynamic-range imaging system," Optical Engineering 53(7): 074111-074111. (Impact factor: 1.082)
8. Kim, Duck Bong, Renato Pajarola, and Kwan H. Lee* (Jul, 2012) "Efficient reduction of point data sets for surface splatting using geometry and color attributes," The International Journal of Advanced Manufacturing Technology 61(5-8): 787-796. (Impact factor: 2.496)
7. Kim, Duck Bong, and Kwan H. Lee* (Sept., 2011) "Computer-aided appearance design based on BRDF measurements," Computer-Aided Design 43(9): 1181-1193. (Impact factor: 3.049)
6. Seo, Myoung Kook, Kang Yeon Kim, Duck Bong Kim, and Kwan H. Lee* (2011) "Efficient representation of bidirectional reflectance distribution functions for metallic paints considering manufacturing parameters," Optical Engineering 50(1): 013603-013603. (Impact factor: 1.082)
5. Kim, Duck Bong, Myoung Kook Seo, Kang Yeon Kim, and Kwan H. Lee* (2010) "Acquisition and representation of pearlescent paints using an image-based goniospectrophotometer," Optical engineering 49(4): 043604-043604. (Impact factor: 1.082)
4. Lee, Yong-Gu, Hyungjun Park, Woontaek Woo, Jeha Ryu, Hong Kook Kim, Sung Wook Baik, Kwang Hee Ko, Han Kyun Choi, Sun-Uk Hwang, Duck Bong Kim, HyunSoo Kim, and Kwan H. Lee* (2010) "Immersive modeling system (IMMS) for personal electronic products using a multi-modal interface," Computer-Aided Design 42(5): 387-401. (Impact factor: 3.049)
3. Kim, Duck Bong, Kang Su Park, Kang Yeon Kim, Myoung Kook Seo, and Kwan H. Lee* (2009) "High-dynamic-range camera-based bidirectional reflectance distribution function measurement system for isotropic materials," Optical Engineering 48(9): 093601-093601. (Impact factor: 1.082)
2. Kang, Eui-Chul, Duck Bong Kim, and Kwan H. Lee* (2008) "Balanced feature-sensitive point sampling for 3D model generation," The International Journal of Advanced Manufacturing Technology 38(1-2): 130-142. (Impact factor: 2.496)
1. Kim, Duck Bong, Eui Chul Kang, Kwan H. Lee*, and Renato B. Pajarola (2006) "Framework for adaptive sampling of point-based surfaces using geometry and color attributes," In Computational Science–ICCS: 371-374. (Impact factor: 1.17)
Conference Papers
Patents