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张阿漫

Zhang A Man

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Duty： Secretary-General

Prof. Title： Professor

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Tel： 0451-82589032

Fax： 0451-82589031

E-Mail： zhangaman@hrbeu.edu.cn

Postcode： 150001

Add：哈尔滨市南岗区南通大街145号船海楼1002室

Profile

Zhang Aman, male, born in March 1981, is from Wuning, Jiangxi. He holds a doctoral degree and is a professor and doctoral supervisor at Harbin Engineering University. He is also the head of GF Technology Innovation Team. I graduated with a bachelor's degree from Dalian University of Technology in 2003, a doctoral degree from Harbin Engineering University in 2007, and a visiting scholar at University College London (UCL) in 2011. Main research directions: underwater explosion, bubble dynamics, fluid solid coupling dynamics, undertaking more than 40 scientific research projects such as national key research and development plans, national natural science foundation, and GF basic scientific research. 1) We have established a unified equation for bubbles, which describes the basic laws of bubble motion in nature in concise and beautiful mathematical language, and solves the theoretical prediction problem of bubble dynamic behavior under different sources, scales, and environments. 2) We have constructed a theoretical model and method for the fully coupled gas-liquid solid dynamics of underwater explosions, developed a fluid solid coupling FSLAB basic industrial software that can solve practical problems, explored the dynamic characteristics of the near boundary bubble series and the formation mechanism of impact loads, and mastered the law of strong nonlinear coupling of gas-liquid solid in underwater explosions. 3) We have created large-scale underwater special research and testing facilities, developed new technologies for efficient energy transfer and protection underwater, and developed a new low-frequency and high-pressure air gun array for deep-sea exploration. Our research results have been widely applied. The research results have been applied to the improvement, evaluation, and design of weak links in explosion and impact resistance of more than 10 newly developed large ships in China, such as HM, HQT, and the fourth generation QZJ, as well as the evaluation and design of underwater explosion damage power of underwater weapons, the hydrodynamic demonstration and design of cross medium vehicles, the evaluation and design of explosion separation of aerospace vehicles, and the design and development of high-pressure air gun arrays for deep-sea exploration. It has been applied to the fields of HM, HQT, and strategic submarine launched DD in China The development tasks of multiple strategic models such as China's manned space station have provided important theoretical and technical support. Academic achievements have been published in top journals in the fields of JFM, JMPS, PRF, JCP, etc., with over 10000 citations and an H-index of 50. 45 invention patents, 3 published books, and 1 HJ standard. Received multiple awards, including the National Innovation Excellence Award, Scientific Exploration Award, Global Top 2% Scientists List, Chinese Highly Cited Scholar, 1 Second Prize of National Technology Invention Award, 1 Second Prize of National Science and Technology Progress Award, 1 Second Prize of National Teaching Achievement Award, and 4 First Prizes at the provincial and ministerial levels. Served as a member of the 14th National Committee of the Chinese People's Political Consultative Conference, head of the GF Science and Technology Innovation Team, deputy director of the China Shipbuilding Mechanics Academic Committee, member of the Advanced HS and Evaluation Professional Group for Basic Research of the Central JW Science and Technology Committee, editor in chief of the academic journal JMSA, deputy editor in chief of CMES, and editorial board member of multiple academic journals such as "Journal of Mechanics", "Applied Mathematics and Mechanics", and APOR. Served as a member of multiple international academic organizations such as SPHRIC and ISOPE/TPC, Give over 40 important academic presentations.

Education

From February 2011 to February 2012, Visiting Scholar, majoring in Ship Engineering, University College London, UK

From July 2007 to October 2010, postdoctoral fellow, majoring in Ship and Ocean Engineering, China Shipbuilding Research Institute

From September 2004 to March 2007, obtained a doctoral degree in Ship and Marine Structure Design and Manufacturing from Harbin Engineering University

From September 2003 to March 2006, obtained a master's degree in Ship and Marine Structure Design and Manufacturing from Harbin Engineering University

From September 1999 to July 2003, obtained a bachelor's degree in Ship and Ocean Engineering from Dalian University of Technology

Experience

From December 2022 to present, Secretary General of the Science and Technology Association, Harbin Engineering University

From February 2021 to present, Head of GF Technology Innovation Team, School of Shipbuilding Engineering, Harbin Engineering University

From July 2015 to present, the head of the fluid structure coupling technology team at Harbin Engineering University, School of Shipbuilding Engineering

From July 2010 to present, PhD supervisor, School of Shipbuilding Engineering, Harbin Engineering University

From September 2009 to present, Professor, School of Shipbuilding Engineering, Harbin Engineering University

From July 2009 to July 2010, Associate Doctoral Supervisor, School of Shipbuilding Engineering, Harbin Engineering University

From July 2008 to present, Master's Supervisor, School of Shipbuilding Engineering, Harbin Engineering University

From September 2007 to September 2009, Associate Professor, School of Shipbuilding Engineering, Harbin Engineering University

From March 2007 to September 2007, lecturer, School of Shipbuilding Engineering, Harbin Engineering University

Research Fields

Underwater explosion mechanics, bubble dynamics, fluid solid coupling dynamics

Projects

1) From January 2023 to December 2026, the National Key R&D Program, led by the development and application of a new low-frequency and high-pressure air gun for deep-sea exploration.

2) From January 2021 to December 2025, led by the National Natural Science Foundation of China Basic Science Center Branch Center Project, Transient Impact Load and Failure Mode of Marine Structures.

3) From October 2021 to December 2024, JWZFXXX Special Project, Research on the Development and Software Implementation of Meshless Numerical Solvers, presided over.

4) From January 2021 to December 2024, hosted by the National Science Foundation for Distinguished Young Scholars project on underwater explosions and ship damage.

5) 2020.01-2022.12173 Key Project of the Technical Field Fund of the Program, Research on the Full Time Domain Calculation Method for the Damage of XX Structure Caused by Near Field Underwater Explosion under Complex Sea Conditions, presided over.

6) From November 2018 to December 2022, led by the GF Science and Technology Outstanding Youth Science Fund project, Research on the Mechanism of Structural Damage Caused by * * * Underwater Near Field Explosion.

7) 2018.09-2021.12, National Key R&D Program, Development of Shipborne High Pressure Air Guns Suitable for Active Source Earthquakes, Hosted.

8) April 2018 to December 2020, hosted by the National High Level Talent Special Support Program.

9) 2018.01-2022.12, Key Basic Research Project of the Basic Strengthening Program, * * Research on Fluid Solid Coupling and Transient Impact Mechanism in Cross Water and Space Media, presided over.

10) From January 2018 to December 2020, GF conducted basic research on the damage characteristics of underwater explosion shock waves and bubbles to * * structures under wave conditions, and led the research.

11) 2017.01-2020.12, GF Science and Technology Innovation Zone, Research on Underwater Efficient * * Methods, Hosted.

12) 2017.01-2020.12, National Natural Science Foundation of China, Research on the Dynamic Characteristics of Bubbles in Submarine Resource Detection Air Guns, presided over.

13) 2015.01-2018.12, GF973 Special Topic, The Impact of Transient External Pressure Load Time Characteristics on Structural Dynamic Failure, Hosted.

14) From January 2015 to December 2018, National Natural Science Foundation of China (key project), participated in the study of underwater explosion fluid structure coupling of ship structures.

15) From January 2014 to December 2017, hosted by the National Natural Science Foundation of China, Research on the Coupling Effect of Near Field Explosion Bubbles and Incomplete Boundaries.

16) From January 2013 to December 2015, hosted by the National Natural Science Foundation of China, Fundamentals of Mechanics for Underwater Explosion and Ship Damage.

17) From January 2013 to December 2015, led by the Special Research Fund for Doctoral Subjects in Higher Education Institutions of the Ministry of Education, conducting research on structural dynamic behavior under explosive bubble pressure and jet action.

18) From January 2013 to December 2014, GF conducted basic research on the damage and failure mechanism of * * structures caused by underwater explosion bubble jets.

19) From January 2012 to December 2014, GF conducted a preliminary study on the standardization of prediction methods for the impact response characteristics of * * * structures under the action of underwater far field non-contact explosions.

20) From January 2011 to December 2014, GF973 special topic, overall impact damage mechanical behavior of shell structures under underwater explosion bubbles, presided over.

21) From January 2011 to December 2013, the Ministry of Education's New Century Excellent Talent Support Program conducted research on the damage mechanism of the overall and local structures of ships under bubble loads.

22) From January 2011 to December 2012, participated in GF basic scientific research, * * * basic mechanical research on load characteristics of water surface crossing processes.

23) From January 2010 to December 2013, National Natural Science Foundation of China (key project), participated in the study on the mechanism and laws of underwater explosion damage to ship structures.

24) From January 2010 to December 2013, the 12th Huo Yingdong Education Fund led the research on the coupling dynamic characteristics of underwater explosion bubbles and ship structures.

25) From January 2010 to December 2012, hosted by the National Natural Science Foundation of China, Numerical Simulation of the Interaction between Underwater Explosion Bubbles and Elastic Boundaries.

From January 2009 to December 2011, hosted by the National Natural Science Foundation of China, Research on the Mechanism of the Interaction between Near Free Surface Underwater Explosion Bubbles and Water Mound Phenomenon.

27) From January 2008 to December 2010, participated in the International Cooperation Project of the Ministry of Science and Technology, Research on Ship Impact Protection Structures.

Academic Communication

1) 2023.05, The 29th International Conference on Computational & Experimental Engineering and Sciences, Semi-Plenary lecture, Symposium Chair, Shenzhen, China.
2) 2023.05, Forum on Technology Assisting Marine Power, Conference Report (Online), Nanjing, China

3) 2023.04, National Conference on Experimental Fluid Mechanics, Conference Report, Hefei, China

4) 2023.04, 2023, Youth Science and Technology Scholars Forum for the Construction of a Community with a Shared Future in the Ocean, host of the conference invitation report, Yantai, China

5) October 2022, Maritime Forum, Invitation Report (Online), Zhuhai, China

6) On August 2022, a series of activities commemorating the 120th anniversary of Mr. Zhou Peiyuan's birth - Continuing the Past and Opening up the Future - Symposium on Fluid Mechanics, invited report, Beijing, China

7) 2022.08, 2022, Jiangsu Province Graduate School of Computational Mechanics and Engineering, Invitation Report (online), Nanjing, China

8) 2022.01, The 5th Symposium on Computational Marine Hydrodynamics Keynote capture, Virtual Conference

9) On December 12, 2021, International Symposium on Ocean Engineering Structure and Mechanical Equipment Keynote capture, Co Vice Chair, Harbin, China

10) 2021.10, Fourth Jiangnan Shipbuilding Technology Innovation Conference, Invitation Report (Online), Shanghai, China

11) 2021.04, invited report from the 7th "Outstanding Youth Forum" Mechanics Sub Forum of Northwest University of Technology, Xi'an, China

12) 2020.12, 6th National Conference on Ship and Ocean Engineering CFD, Conference Report, Guangzhou, China

13) 2020.12, Annual Academic Conference of the State Key Laboratory of Explosion Science and Technology and the 11th National Academic Conference on Strong Dynamic Load Effects and Protection, invited report, Beijing, China

14) 2020.11, 2020 Symposium on Fundamental Issues Related to Numerical Wind Tunnels, Invitation Report, Zhuhai, China

15) 2020.10, Double Clear Forum on the Positioning of Basic Research in Engineering Science and the Mechanism for Concreting Scientific Issues, Invitation Report, Beijing, China

16) October 2020, 31st National Hydrodynamics Symposium, Conference Report, Xiamen, China
17) 2020.08, The 11th International Conference on Computational Methods. Invited lecture,Virtual Conference.
18) 2020.05, Tsinghua Machinery Forum, Invitation Report (Online), Beijing, China
19) 2020.01, SPHERIC Harbin International Workshop. Chair, Harbin, China.

20) October 2019, Third Working Group Meeting on Meshless and Particle like Methods, Invitation Report, Nanchang, China

21) October 2019, 13th National Youth Academic Conference in the Field of Transportation. Conference Invitation Report, Harbin, China

22) On August 2019, the 7th Committee of the Rocket and Missile Professional Committee of the Chinese Society of Ordnance Technology and the 2019 Academic Exchange Conference Conference Invitation Report, Harbin, China

23) On May 2019, the 11th National Youth Symposium on Fluid Mechanics Invitation Report, Branch Chairman, Hefei, China

24) 2018.12,The China-Singapore symposium on advances in computational mechanics. Invited lecture, Session Chair, Wuhan, China.

25) 2018.05,The chinese-Russian-Ukrainian Conference on Ship Shock and Vibration-noise. Co-Chair, Harbin, China.

26) 2017.10, SPHERIC Beijing International Workshop. Co-Chair, Beijing, China.

27) May 2017, 10th National Youth Symposium on Fluid Mechanics. Invitation Report, Tianjin, China

28) 2017.05, 2017 Forum of Young Scientists in the Field of Marine Engineering Research Conference Report, Co Chairman of the Conference, Shanghai, China

29) 2017.01, International Workshop on Fluid-Structure Interaction 2017. Plenary lecture, Chair, Harbin, China.

30) 2016.12, 2016 International Workshop on Intensive Loading and Its Effects. Invited lecture, BeiJing, China.

31) 2016.10, International Cavitation Forum 2016. keynote lecture, Session Chair, BeiJing, China.

32) 2016.06, Proceedings of the ASME 2016 35th International Conference on Ocean, Offshore and Arctic Engineering. Session Presentation, Busan, Korea.

33) 2015.07, The Sixth International Symposium on Physics of Fluids (ISFP6). Session Presentation, Session Chair, XiNing, China.

34) 2015.01, The 9th International Conference on Computational Physics (ICCP9). Invited lecture, Singapore.
35) 2015.01, the "New Energy Science and Technology" Youth Scholar Forum and the Second Engineering Thermophysics Youth Academic Forum Invitation Report, Branch Chairman, Harbin, China

36) 2014.10, The International Symposium of Cavitation and Multiphase Flow (ISCM2014). Plenary lecture, Session Chair, BeiJing, China.

37) 2014.07, 11th World Congress on Computational Mechanics (WCCM 11). Session Presentation, Barcelona,Spain.

38) 2013.09, III International Conference on Particle-Based Methods. Fundamentals and Applications. Invited lecture, Stuttgart, Germany.

39) 2013.08, 2013 National Forum of Young Scientists in Ocean Engineering Branch report, General Assembly Secretary, Harbin, China

40) 2013.05, the 8th National Youth Symposium on Fluid Mechanics Invitation Report, Shanghai, China

41) 2009.09, the second National Ship Impact Resistance Technology Exchange Conference Conference Secretary, Harbin, China
42) 2006.07, The 6th Word Congress on Computational Mechanics (WCCM6). Session Presentation, Los Angeles, USA.

Admissions

It enrolls 4 doctoral students and 3 master students each year.

Course For Undergraduate

Fluid-solid coupling dynamics.
Vitality of warship.

Course For Postgraduate

Fluid-solid coupling analysis.
Bubble dynamics.
Progress in ship and Ocean Engineering.
A series of special topics on ship and marine engineering technology

Practical Teaching

Vitality of warship, experimental course.

Teaching Research

The research and exploration of the joint training of first-class ship and sea talents by schools and enterprises under the background of new engineering construction, Heilongjiang Province teaching reform project, to participate.

Social Position

1) 2023-so far, member of the 14th CPPCC National Committee.
2) 2023-to date, editor-in-chief of Journal of Marine Science and Application.
3) 2022-so far, he is a member of the eighth CFD Professional Committee of the Chinese Society of aerodynamics.
4) 2022-up to now, editorial board of Journal of aerodynamics.
5) 2021-to date, editorial board of Applied Mathematics and Mechanics.
6) 2020-up to now, editorial member of Journal of Mechanics.
7) 2020-to date, the editorial board of "explosion and shock".
8) 2020-up to now, member of the 11th Professional Committee of fluid Mechanics of Chinese Mechanical Society.
9) from 2019 to now, member of the basic Research Advanced HS and Evaluation Professional Group of the Science and Technology Commission of the Central military Commission.
10) from 2018 to now, Deputy Editor-in-Chief of Computer Modeling in Engineering & Sciences.
11) 2018-to date, editorial board of "Applied Ocean Research".
12) from 2018 to now, the editorial board of "Theoretical & Applied Mechanics Letters".
13) from 2018 to now, Deputy Director of the academic Committee of ship Mechanics of China Shipbuilding Engineering Society.
14) 2016-to date, editorial board of "Journal of Hydrodynamics".
15) from 2016 to now, there is no member of the professional group of grid and particle methods in the Committee of Computational Mechanics of the Chinese Society of Mechanics.
16) 2014-so far, the judging committee of the Department of Engineering and Materials of the National Natural Science Foundation of China.
17) 2014-2015, visiting professor, Institute of fluid Physics, Chinese Academy of Engineering Physics.
18) from 2011 to now, the editorial board of "Chinese warship Research".
19) from 2010 to now, member of HJ ship impact Research and Test Center.
20) from 2009 to now, member of ship Anti-impact Group of J ship academic Committee.

Patent

1) A long pulse width uniformly distributed transient impact external pressure loading device, 2021.12, invention patent, patent number: ZL201718007773.7, ranked third.
2) A compound-driven two-stage projectile acceleration device and experimental platform, 2021.09, invention patent, patent number: ZL202110267511.X, ranked first.
3) an apparatus and method for underwater explosion test on land, 2021.05, invention patent, patent number: ZL202011072692.2, ranked 1st.
4) a multi-bubble ice breaking device and method, 2021.05, invention patent, patent number: ZL202011072195.2, ranked 1st.
5) an underwater high-pressure air gun ice-breaking system, 2021.04, invention patent, patent number: ZL202011072711.1, ranked 1st.
6) A warship protection device and method against underwater explosion bubble load, 2021.01, invention patent, patent number: ZL202010295476.8, ranked second.
7) an equivalent method for dynamic buckling to static buckling of reticulated stiffened cylindrical shells, 2018.01, invention patent, patent number: ZL201810082444.2, ranked 2nd.
8) A bubble ice-breaking method, 2017.03, invention patent, patent number: ZL201710129035.9, ranked 1st.
9) A ship structure impact test system, 2016.05, invention patent, patent number: ZL201610293141.6, ranked fifth.
10) method and device for optimizing air gun array, 2015.05, invention patent, patent number: ZL201510257976.1, ranked 2nd.
11) A horizontal impact enhanced semi-submersible floating impact platform, 2015.03, invention patent, patent number: ZL201510107249.7, ranked fifth.
12) inclined baffle lateral impact enhanced floating impact platform, 2015.03, invention patent, patent number: ZL201510107182.7, ranked 5th.
13) Broadband multi-function floating impact platform deck simulator, 2015.02, invention patent, patent number: ZL201510084567.6, ranked 5th.
14) an adjustable high-voltage large-scale bubble generation device, 2013.11, invention patent, patent number: ZL201310563606.1, ranked first.
15) device for eliminating the influence of bubble jet in cabin underwater explosion experiment, 2011.06, invention patent, patent number: ZL201110161915.7, ranked third.
16) partial section model of ship anti-impact test, 2011.06, invention patent, patent number: ZL201110146390.X, ranked third.
17) rigid vibration isolation structure of ship bulkhead vibration isolation mass, 2009.11, invention patent, patent number: ZL200910073173.5, ranked 6th.
18) ship high transmission loss pedestal structure, 2009.11, invention patent, patent number: ZL200910073174.X, ranked 6th.
19) closed mast strength measuring method and special measuring device, 2009.04, invention patent, patent number: ZL 200910071710.2, ranked second.
20) Measurement method of inertia force response of mast, 2009.04, invention patent, patent number: ZL 200910071709.X, ranked 2nd.
21) Marine Magnetorheological Elastomer Intelligent Vibration Absorber, 2009.04, invention patent, patent number: ZL200910071707.0, ranked 4th.
22) Marine magnetorheological elastomer smart damper, 2009.04, invention patent, patent number: ZL200910071708.5, ranked fifth.

Book

1) Zhang Amin, Zhang Shuai. Bubble dynamics of high pressure air gun. Science Press, 2020.
2) Zhang Amin, Dai Shaoshi. Fluid-solid coupling dynamics. National Defense Industry Press, 2010.

Article

[1] A.M. Zhang, S.M. Li, P. Cui, S. Li, Y.L. Liu. A unified theory for bubble dynamics. Physics of Fluids, 2023, 35, 033323.

[2] S.M. Li, A.M. Zhang, P. Cui, S. Li, Y.L. Liu. Vertically neutral collapse of a pulsating bubble at the corner of a free surface and a rigid wall. Journal of Fluid Mechanics, 2023, 962, A28.

[3] W.T. Liu, A.M. Zhang, X.H. Miao, M.F. Ming, Y.L. Liu. Investigation of hydrodynamics of water impact and tail slamming of high-speed water entry with a novel immersed boundary method. Journal of Fluid Mechanics, 2023, 958, A42.

[4] R. Han, A.M. Zhang, S. Tan, S.Li. Interaction of cavitation bubbles with the interface of two immiscible fluids on multiple time scales. Journal of Fluid Mechanics, 2022, 932, A8.

[5] E.A. Brujan, A.M. Zhang, Y.L. Liu. T.Ogasawara, H. Takahira. Jetting and migration of a laser-induced cavitation bubble in a rectangular channel. Journal of Fluid Mechanics, 2022, 948, A6.
[6] M. Gong, C. Xiong, X. Mao, L. Cheng, S.P. Wang, A.M. Zhang. Non-modal growth of finite-amplitude disturbances in oscillatory boundary layer, Journal of Fluid Mechanics, 2022, 943, A45.
[7] X. Lai, S. Li, J. Yan, L. Liu, A.M. Zhang. Multiphase large-eddy simulations of human cough jet development and expiratory droplet dispersion. Journal of Fluid Mechanics, 2022, 942, A12.

[8] J.Han, S.Li, H. Yu, A.M. Zhang. On nonlocal cohesive continuum mechanics and Cohesive Peridynamic Modeling (CPDM) of inelastic fracture. Journal of the Mechanics and Physics of Solids, 2022, 164, 104894.

[9] M.K. Li, A.M. Zhang, Y.X. Peng, F.R. Ming. An improved model for compressible multiphase flows based on Smoothed Particle Hydrodynamics with enhanced particle regeneration technique. Journal of Computational Physics, 2022, 458, 111106.

[10] S.B. Li, A.M. Zhang, J.P. Xiao, Y.X. Peng, M.K. Li. An algorithm for implementing a boundary viscous force with

single-layer wall particles based on WCSPH. Journal of Computational Physics, 2022, 464,111328.

[11] Y.L. Liu, C.W. Shu, A.M. Zhang. Weighted ghost fluid discontinuous Galerkin method for two medium problems. Journal of Computational Physics, 2021, 426, 109956.

[12] P.N. Sun, D. Le Touzé, G. Oger, A.M. Zhang. An accurate SPH Volume Adaptive Scheme for modeling strongly compressible multiphase flows. Part 1. Numerical scheme and validations with basic 1D and 2D benchmarks. Journal of Computational Physics, 2021, 426, 109937.

[13] P.N. Sun, D. Le Touzé, G. Oger, A.M. Zhang. An accurate SPH Volume Adaptive Scheme for modeling strongly-compressible multiphase flows. Part 2. Extension of the scheme to cylindrical coordinates and simulations of 3D axisymmetric problems with experimental validations. Journal of Computational Physics, 2021, 426, 109936.

[14] W. Wu, M. Liu, A.M. Zhang, Y.L. Liu. Fully coupled model for simulating highly nonlinear dynamic behaviors of a bubble near an elastic-plastic thin-walled plate. Physical Review Fluids, 2021, 6, 013605.

[15] P. Cui, A.M. Zhang, S.P. Wang, Y.L. Liu. Experimental study on interaction, shock wave emission and ice breaking of two collapsing bubbles. Journal of Fluid Mechanics, 2020, 897, A25.

[16] L. Ge, A.M. Zhang, S.P. Wang. Investigation of underwater explosion near composite structures using a combined RKDG-FEM approach. Journal of Computational Physics, 2020, 404, 109113.

[17] S. Li, D. van der Meer, A.M. Zhang, A. Prosperetti, D. Lohse. Modelling large scale airgun-bubble dynamics with highly non-spherical features. International Journal of Multiphase Flow, 2020, 122, 103143.

[18] J. Yan, S. Li, A.M. Zhang, X. Kan, P.N. Sun. Updated Lagrangian Particle Hydrodynamics (ULPH) modeling and simulation of multiphase flows. Journal of Computational Physics, 2019, 393, 406-437.

[19] S. Li, A.M. Zhang, R. Han, Q. Ma. 3D full coupling model for strong interaction between a pulsating bubble and a movable sphere. Journal of Computational Physics, 2019, 392, 713-731.

[20] P.P. Wang, A.M. Zhang, F.R. Ming, P.N. Sun, H. Cheng. A novel non-reflecting boundary condition for fluid dynamics solved by smoothed particle hydrodynamics. Journal of Fluid Mechanics, 2019, 860, 81-114.

[21] P. Cui, A.M. Zhang, S.P. Wang, B.C. Khoo. Ice breaking by a collapsing bubble. Journal of Fluid Mechanics, 2018, 841, 287-309.

[22] A.M. Zhang, P. Cui, J. Cui, Q.X.Wang. Experimental study on bubble dynamics subject to buoyancy. Journal of Fluid Mechanics, 2015, 776, 137-160.

[23] A.M. Zhang, Y.L. Liu. Improved three-dimensional bubble dynamics model based on boundary element method. Journal of Computational Physics, 2015, 294, 208-223.

[24] A.M. Zhang, S. Li, J. Cui. Study on splitting of a toroidal bubble near a rigid boundary. Physics of Fluids, 2015, 27, 062102.

Honors

1) be on the list of the top 2% of the world's top scientists in 2022.
2) he was specially appointed professor of Changjiang Scholars in 2019.
3) won the National Science Foundation for Outstanding Youth in 2019.
4) obtain Chinese highly cited scholars in 2019.
5) won the Youth Science Foundation for GF Science and Technology Excellence in 2018.
6) in 2018, he won the leading talents in science and technology innovation of the National WR Program.
7) the Ministry of Science and Technology won the leading talents of middle-aged and young scientific and technological innovation in 2016.
8) in 2011, it was supported by the New Century Talent support Program of the Ministry of Education.
9) it was supported by the 12th Fok Ying Tung Education Fund of the Ministry of Education in 2010.

Awards

1) won the National Innovation Award in 2020.
2) won the Science Exploration Award in 2019.
3) it won the second prize of national technological invention in 2018, ranking first.
4) in 2017, he won the first prize for scientific and technological progress in national defense, ranking first.
5) won the 14th China Youth Science and Technology Award in 2016.
6) won the second prize of national science and technology progress in 2013, ranking seventh.
7) in 2013, he won the second prize of natural science and technology in Heilongjiang Province, ranking first.
8) won the second prize for scientific and technological progress of national defense in 2012, ranking first.
9) won the nomination Award for 100 excellent doctoral dissertations in 2009.

Personal Information

Introduction：
Education Background :
Professional Experience :
Qualifications and Skills :
Academic Positions and Titles :

Research

Research Fields：
Projects：
Honors and Awards、Academic Activities：

Teaching

Admission:
Courses:
Practical Teaching：

Publications

Books:
Journal and Conferences:
Patents:
Software Copyrights:	"

张阿漫