王志凯

Zhikai Wang, male, from Yantai, Shandong Province, Ph.D., is a pre-appointed professor/doctoral Tutor, and master's Tutor of the College of Shipbuilding Engineering, Harbin Engineering University.

The recipient of the "Young Talent Support Project" in the field of science and technology, recipient of the Heilongjiang Provincial Youth Science and Technology Award, recipient of the Heilongjiang Provincial Outstanding Youth Fund.

Main research directions: damage and protection of ship, structural dynamics, explosive impact dynamics, transient fluid-solid coupling dynamics, etc., presided over/participated in more than 30 national and provincial scientific research projects.

His research results have been published in the Journal of Computational Physics, Computers & Fluids, Journal of Physics, Journal of Mechanics, and other core journals at home and abroad, totaling more than 40 academic papers, of which more than 20 are SCI searches. He has applied for more than 50 national invention patents and software copyrights.

He is also an editorial board member of the academic journal "Shipbuilding Engineering", a senior member of the China Society of Shipbuilding Engineering, a senior member of the China Society of Mechanics, and a member of the China Computer Society. He also serves as a reviewer for the International Journal of Heat and Mass Transfer, Computers and Fluids, International Journal of Modern Physics B, American Journal of Mechanical and Industrial Engineering, and Journal of Military Equipment Engineering.

Jan. 2016 - Oct. 2018, Postdoctoral fellow, Naval Architecture and Ocean Engineering, Harbin Engineering University, Co-Supervisor: Prof. Xiongliang Yao
Sept. 2011 - Dec. 2015, received a Ph.D. in Mechanical Design and Theory from Harbin Engineering University
Sept. 2007 - July 2011, received Bachelor‘s degree in Mechanical Design, Manufacturing, and Automation from Harbin Engineering University

Jun. 2022 - Present, Doctoral Tutor, College of Shipbuilding Engineering, Harbin Engineering University,
Jan. 2022 - Present, Pre-appointed Professor, College of Shipbuilding Engineering, Harbin Engineering University
Apr. 2021- Present, Party Branch Publicity Member, Party Branch of Institute of Structural Mechanics, Harbin Engineering University
Mar. 2021- Present, Deputy Director, Institute of Naval Architecture and Ocean Engineering Structural Mechanics, Harbin Engineering University
May 2020 - Present, Deputy Director, Ship Structure Wallop Dynamics Laboratory, Harbin Engineering University,
Jun. 2019 - Present, Associate Professor, College of Shipbuilding Engineering, Harbin Engineering University
Jun. 2019 - Present, M.S. Tutor, College of Shipbuilding Engineering, Harbin Engineering University
Jan. 2016 - June 2019, Lecturer, College of Shipbuilding Engineering, Harbin Engineering University

Ship  Damage and Protection, Cross-Scale Damage Dynamics, Impact Nonlinear and Intelligent Control Dynamics, Transient Fluid-Solid Coupling Dynamics

1) 2015, Aug. 9-12, 44th International Congress and Exposition on Noise Control Engineering, San Francisco, paper presentation.
2) 2014, Nov. 16-19, 43rd International Congress on Noise Control Engineering, Melbourne, paper presentation.
3) 2014, Oct. 18-21, International Symposium of Cavitation and Multiphase Flow, Beijing, paper presentation.
4) 2014, July 25-26, The 3rd Symposium on CFD for Ship and Ocean Engineering, Dalian, China.
5) 2013, July 24-25, The 16th China Ocean (Onshore) Engineering Symposium, Dalian, China.

Each year, 3-5 master's degree students and 3 doctoral students are enrolled.

Structural Dynamics of Ships and Marine Engineering

Structural Dynamics
Wave Dynamics of Hull Structures
Topics in Ship and Ocean Engineering Disciplines

1) In 2022, received support from the Ministry of Education's industry-university cooperation collaborative education program
2) In 2020, obtained the Harbin Engineering University postgraduate program of political thinking course project

1) 2021- Present, Marine Field Specialist, Marine Division, Department of Science and Technology, Shandong Province, China
2) 2021 - Present, Qingdao Science and Technology Expert
3) 2020 - Present, JD Test Specialty Equipment Review Specialist
4) 2020 - Present, HJ Equipment Procurement Bid Evaluation Specialist
5) 2020 - Present, Editorial Board Member, Ship Engineering
6) 2019 - Present, Senior Member, The Chinese Society of Naval Architecture and Marine Engineering
7) 2018 - Present, Senior Member, The Chinese Society of Theoretical and Applied Mechanics
8) Reviewer for Computers and Fluids, American Journal of Mechanical and Industrial Engineering, International Journal of Modern Physics B, International Journal of Applied Science, International Journal of Heat and Mass Transfer, as well as domestic journals such as Chinese Journal of High Pressure Physics and Journal of Ordnance Equipment Engineering.

1) A semi-submersible large-scale ** experimental tank installation foundation design method, 2021.08.05, invention patent, Patent No.: 202110894604.5, ranked 1st
2) An underwater bubble jet velocity measurement device and method, 2021.08.05, Patent of Invention, Patent No.: 202110894482.X, Rank 1
3) Comprehensive Experiment System and Method for High-speed Vehicle Final Segment Based on Fixed-wing Unmanned Aerial Vehicle, 2021.08.13, Patent of Invention, Patent No. 202110932249.6, Ranked No. 6
4) A Repeatable and Quantitative Experimental Method for Coated Hull Streamlines, 2020.20.29, Patent for Invention, Patent No. 202011183072.6, ranked 7th (valid)
5) An experimental device for underwater shear flow field EDM bubble research, 2021.05.17, Patent of Invention, Patent No. 202110534563.9, Rank 8
6) A kind of strong impact large pulse width impact load simulation device and its control method, 2021.04.08, invention patent, Patent No.: 202110377340.6, ranked No. 4
7) An experimental system for simulating the bubble transport environment on the bottom of a ship by artificial ventilation method, 2020.09.25, Patent for invention, Patent No. 202011022868.3, ranked No. 6 (valid)
8) A method of testing the cross-section flow field or bubble field of a ship model, 2020.09.25, Patent for invention, Patent No.: 202011022876.8, ranked 7th (valid)
9) A bubble tracer particle PIV experimental device, 2020.11.18, invention patent, Patent No.: 202011292758.9, ranked 7th
10) A hinge-connected rigid body motion control device applied to underwater large pulse width** experiments, 2020.09.23, Patent of Invention, Patent No. 202011004905.8, ranked No. 12
11) Segmented Shipboard Equipment Impact Resistance Assessment Test Platform, 2019.11.26, Patent for Invention, Patent No. 201911170091.2, Rank 2 (Valid)
12) Experimental method for total longitudinal bending strength of diagonal cable bridge type cabin and special device, 2019.12.19, Patent for invention, Patent No.: 201911314486.5, ranked No. 6 (valid)
13) A kind of underwater ** large target model experimental device, 2020.08.30, invention patent, Patent No.: 202010891351.1, ranked 5th
14) A kind of deceleration braking device for underwater sports platform, 2020.07.16, invention patent, Patent No.: 202010684075.1, ranked No. 6
15) A simulation test system and method for underwater **shock wave loading, 2020.05.19, Patent for invention, Patent No.: 202010426187.7, ranked No. 1
16) A method of determining the problem of plastic destruction mode of small deformation of ship's cabin**, 2020.05.09, Patent of invention, Patent No. 202010387695.9, ranked No. 4
17) A method of calculating the residual speed and angle of rotation of a hull plate frame beam of a rotating body impacting a ship, 2020.04.20, Patent of invention, Patent No. 202010313602.8, ranked No. 3
18) A kind of steel fracture strain testing device under ** load and its testing method, 2020.04.20, Patent of invention, Patent No.: 202010313610.2, ranked No. 4
19) Composite Laminate Structure** Characterization Test Device, 2019.12.30, Patent for Invention, Patent No. 201911396087.8, Rank 6
20) A ship real-scale composite superstructure testing device and method, 2019.12.13, Patent for Invention, Patent No. 201911282980.8, Rank 4
21) A shear flow generation device with adjustable shear force, 2019.04.18, Patent for invention, Patent No. 201910314500.5, Rank 3 (valid)
22) A Ship Land Multi-Layer Target for High-Speed Intrusion Evaluation Efficacy Tests, 2018.06.26, Patent for Invention, Patent No. 201810669730.9, Ranked 4th (Valid)
23) A test method for the influence of water surface** on the storm-resistant performance of submarine tunnels, 2019.03.12, Patent for invention, Patent No.: 201910185324.X, ranked No. 1 (valid)
24) A tin-metal rapid prototyping print head based on FDM method, 2018.12.10, Patent for invention, Patent No. 201811504332.8, Rank 2 (valid)
25) A Destruction Equivalent Real-Scale Compartment Model for Ship Compartment** Tests, 2018.08.2, Patent for Invention, Patent No. 201810869831.0, ranked 4th (valid)
26) A kind of **experimental tank quick-opening head, 2020.02.07, invention patent, Patent No.: 201910930561.4, ranked No. 1
27) A method for equivalent design of metal plate frame structure based on similarity of invasion and destruction, 2019.08.20, Patent for invention, Patent No. 201910766792.6, Rank 4
28) A deep-water explosive pressure cylinder equipped with a pressure relief device, 2017.09.28, Patent for invention, Patent No. 201710894118.7, Rank 1 (valid)
29) A kind of shock-resistant winch, 2019.03.12, Patent for invention, Patent No. 201910185328.8, Rank 1 (valid)
30) A data protection device for shock-resistant offshore test system, 2017.10.11, Patent for invention, Patent No. 201710939627.7, ranked 4th (valid)
31) A vibration isolation and noise reduction device for shipboard fans, 2017.09.28, Patent for invention, Patent No.: 201710894119.1, Rank 1 (valid)
32) A multi-point ** shockwave wavefront pressure inhomogeneity measurement device, 2017.09.28, Patent for invention, Patent No.: 201710894399.6, Rank 1 (valid)
33) A high-precision **positioning device for offshore platform test, 2017.05.02, Patent for invention, Patent No.: 201710301843.9, Rank 1 (valid)
34) A bending test jig for building L-shaped thin plates on shipboard composites, 2017.09.20, Patent for invention, Patent No. 201710851879.4, ranked 4th (effective)
35) U-shaped cabin transversely reinforced impact resistance test platform, 2017.09.28, invention patent, Patent No.: 201710894413.2, ranked 1st (effective)
36) Experimental device for measuring wall pressure loads of underwater polar near-field EDM bubbles, 2017.03.21, Patent for invention, Patent No.: 201720280556.X, ranked 5th (valid)
37) Side Pressure Test Fixture for Marine Composite Panel Structures, 2017.03.22, Patent for Invention, Patent No. 201710173218.0, Rank 7

1) Participated in the preparation of A Concise Course on the Theory of Vibration and Fluctuation of Ship Hull Structure
2) Participated in the preparation of Mechanics of Composite Materials and Applications in Marine Engineering

He has published and accepted more than 50 papers in Journal of Computational Physics, Ocean Engineering, Mathematics and Computers in Simulation, Computers & Fluids, Acta Mechanica Sinica, Acta Physica Sinica, and other academic journals at home and abroad, including more than 20 SCI papers.
[1] G.L. Li, D.Y. Shi, Y.Y. Chen, X.L. Yao, Z.K. Wang, Wasim M.K. Helal. A study on damage characteristics of double-layer cylindrical shells subjected to underwater contact explosion. International Journal of Impact Engineering, 2023, 172, 104428.
[2] W.Q. Zhang, X.L. Yao, Z.K. Wang*. Research on shock resistance of shipborne equipment based on multibody system discrete-time transfer matrix method. Ships and Offshore Structures, 2022, 17, 1522-1531.
[2] X.W. Cui, Z.K. Wang*. A coupled Two-relaxation-time Lattice Boltzmann-Volume penalization method for flows past obstacles. Mathematics and Computers in Simulation, 2022, 198, 85-105.
[3] X.L. Yao, B.H. Xiong, Z.K. Wang. Characteristics of Underwater Explosion of the Shock Wave Loads Transfer in the Gas Turbine Structure. Acta Armamentarii, 2022
[4] Y. Wan, Y.Z. Qin, Z.K. Wang*. Damage characteristics of ice layer during underwater blasting of different types of explosives. Journal of Vibration and Shock, 2022
[5] Y.Z. Qin, Y. Wang, Z.K. Wang*. The Influence of Various Structure Surface Boundary Conditions on Pressure Characteristics of Underwater Explosion, CMES-COMPUTER MODELING IN ENGINEERING & SCIENCES, 2021
[6] Y. Wang, Y.Z. Qin, Z.K. Wang*. Numerical study on ice damage characteristics under single explosive and combination explosives.  OCEAN ENGINEERING, 2021
[7] Z.K. Wan, J. Chen. Structural Reconstruction Method for Large Ships Based on Gray Theory. Journal of Shanghai Jiaotong University, 2021
[8] W.Q. Zhang, X.L. Yao, Z.K. Wang*. Method of positioning an explosion source for a floating shock platform sea trail. Journal of Harbin Engineering University, 2021
[9] X.L. YAO, Z. WANG*, S.J. YE, Z.K. WANG. Material equivalence method in the ship target design. Journal of Harbin Engineering University, 2021
[10] Y.Z. QIN, Y. WANG, Z.K. WANG*. Damage characteristics of fixed single-layer squaresteel plate under near-field underwater explosion of small equivalent column charge. Journal of Vibration and Shock, 2021
[11] Y.N. Wang, N.N. Yang, W.Q. Zhang, X.L. Yao, Z.K. Wang*. Material point method and its application in different failure modes of grillage structure under penetration. Ships and Offshore Structure, 2019
[12] W.Q. Zhang, X.L. Yao, Y.N. Wang, Z.K. Wang*. Experimental study and numerical model adequacy assessment of hull structure dynamic response subject to underwater explosion. Ships and Offshore Structure, 2019
[13] X.L. Yao, Z.Y. Qu, L. Zhan, Z.K. Wang, Tian Xuanxin. Analysis of the underwater shock wave diffraction characteristics of cylindrical shell. Journal of Harbin Engineering University, 2019
[14] Z.K. Wan, Z.P. Chen, N.N. Yang. Damage Analysis and Experimental Study of Composite Structures with Initial Delamination. Journal of Northwestern Polytechnical University, 2019
[15] Z.K. Wang, P. Zhou, B. Sun, X.L. Yao, N.N. Yan. Influence of shape structure for floating shock platform on transverse shock spectrum. Explosion and Shock Waves, 2019
[16] Z.K. Wan, Y.N. Wang, B.S. Su, X.L. Yao, N.N. Yang. Influence of shape structure for floating shock platform on transverse shock spectrum. Explosion and Shock Waves, 2019
[17] G.M. Wu, Y.D. Xu, Z.G. Li, Z.K. Wang, X.L. Yao. Numerical simulation on anti-explosion performance of cabin composite structure. Chinese Journal of Ship Research, 2019
[18] L. Sun, L. Cheng, L. Cheng, Z.K. Wang, S. Dai, G. Fu. Optimization study of Multi-Block interface structure based on Lattice Boltzmann Method. Chinese Journal of Computational Mechanics, 2019
[19] Z.K. Wang*, X.L. Yao, N.N. yang, Z.H. Xu. Simulation of Fluid and Structure Interface with Immersed Boundary-Lattice Boltzmann Method Involving Turbulence Models. Mathematical Problems in Engineering, 2018
[20] X.W. Cui*, X.L. Yao, Z.K. Wang. A Coupled Volume Penalization-Thermal Lattice Boltzmann method for thermal flows. International Journal of Heat and Mass Transfer, 2018
[21] Z.K. Wang*, X.L. Yao. Immersed boundary-lattice Boltzmann simulation of a rotating flat plate interacting with laminar flows. International Journal of Modern Physics B, 2018
[22] D.Y. Shi, H. Li, Z.K. Wang. Study on load fluctuation and vibration characteristics on structure caused by Dam Breaking Structure. 47rd International Congress and Exposition on Noise Control Engineering: Impact of noise control engineering, 2018
[23] X.W. Cui, X.L. Yao*, Z.K. Wang. A hybrid wavelet-based adaptive immersed boundary finite-difference lattice Boltzmann method for two-dimensional fluid-structure interaction. Journal of Computational Physics, 2017
[24] D.Y. Shi*, Z.K. Wang, Wasim M.K. Helal. Lattice Boltzmann simulation research on characteristics of flow over different walls. Chinese Journal of Computational Mechanics, 2017
[25] T. Liu, D.Y. Shi, Z.K. Wang. Flow and aeroacoustic simulations for a cylinder using Lattice Boltzmann and Acoustic Analogy Methods. 46rd International Congress and Exposition on Noise Control Engineering: Taming Noise and Moving Quiet, 2017
[26] D.Y. Shi*, Y.X. Gou, Z.K. Wang. Double cylinder coupling characteristics of the flow field around based on Lattice Boltzmann method. 46rd International Congress and Exposition on Noise Control Engineering: Taming Noise and Moving Quiet, 2017
[27] P.F. Guo, D.Y. Shi, Y.K. Li, Z.K. Wang. Investigation and optimization for blast resistant performaces of a graded aluminum foam sandwich structure. 46rd International Congress and Exposition on Noise Control Engineering: Taming Noise and Moving Quiet, 2017
[28] X.Y. Xue, D.Y. Shi, Z.K. Wang. Research on the characteristics of dynamic response and absorbing energy of honeycomb sandwich panel under blast load. 45rd International Congress and Exposition on Noise Control Engineering: Towards a Quieter Future, 2016
[29] Z.K. Wang, D.Y. Shi, A.M. Zhang. Three-dimensional lattice Boltzmann simulation of bubble behavior in a flap-induced shear flow. Computers & Fluids, 2015
[30] D.Y. Shi, Z.K. Wang, A.M. Zhang. Parallel lattice Boltzmann simulation of bubble rising and coalescence in viscous flows. International Journal of Modern Physics B, 2015
[31] D.Y. Shi, Z.K. Wang, A.M. Zhang. Multi-relaxation time (MRT) lattice Boltzmann model for plane wave disseminating process simulation. 44rd International Congress and Exposition on Noise Control Engineering, 2015
[32] D.Y. Shi, H.Q. Li, Z.K. Wang. Investigation of streamwise oscillating characteristics of a near-wall circular cylinder. 44rd International Congress and Exposition on Noise Control Engineering, 2015
[33] D.Y. Shi, H.X. Ai, Z.K. Wang. The analysis on the dynamic response and acoustic radiation of bionic venation layout stiffened plate under impact load. 44rd International Congress and Exposition on Noise Control Engineering, 2015
[34] D.Y. Shi, Z.K. Wang, A.M. Zhang. A novel lattice Boltzmann method for dealing with arbitrarily complex fluid-solid boundaries. Acta Physica Sinica, 2014
[35] D.Y. Shi, Z.K. Wang, A.M. Zhang. Study on coupling characteristics between bubble and complex walls on the same scale. Acta Physica Sinica, 2014
[36] D.Y. Shi, Z.K. Wang, A.M. Zhang. A novel lattice Boltzmann model simulating gas-liquid two-phase flow. Chinese Journal of Theoretical and Applied Mechanics,2014
[37] D.Y. Shi, H.Q. Li, Z.K. Wang. Lattice-Boltzmann simulation of circular column coupled with square column in cross flow. 43rd International Congress on Noise Control Engineering, 2014
[38] H. Jiao, D.Y. Shi, Z.K. Wang. Interaction of a pair of horizontally aligned bubbles in gravity field. 43rd International Congress on Noise Control Engineering, 2014
[39] D.Y. Shi, Z.K. Wang, A.M. Zhang. Application of lattice Boltzmann method to research bubble interacting with spherical particle. 43rd International Congress on Noise Control Engineering, 2014
[40] D.Y. Shi, Z.K. Wang, A.M. Zhang. Three-dimensional simulation of bubble dynamics in a narrow pipe using lattice Boltzmann method. International Symposium of Cavitation and Multiphase Flow, 2014

1) In 2022, obtained the 15th Heilongjiang Youth Science and Technology Prize
2) In 2022, obtained the second batch of model courses and teaching teams of course ideology and politics in higher education institutions in Heilongjiang Province
3) In 2021, obtained the "Young Talent Support Project" in the field of science and technology of the China Association for Science and Technology (CAST)
4) In 2021, obtained the "Excellent Youth Fund" of Heilongjiang Province
5) In 2021, obtained the honorary title of "Outstanding Class Teacher" from Harbin Engineering University
6) In 2021, obtained the Ministry of Education's Curriculum Civics Teaching Master Teachers and Teaching Teams
7) In 2015, obtained the honorary title of Outstanding Doctoral Graduate of Heilongjiang Province