教师名录
基本情况
云顶集团教授、博士生导师,国家科技奖评审专家,中国力学学会成员、中国有色金属学会成员、中国人类工效学学会成员、江苏省欧美同学会成员,学术期刊Advanced Powder Materials编委(2022-今)、学术期刊International Journal of Computational Materials Science and Surface Engineering编委(2019-今)。2004年毕业于云顶集团机械工程系获工学学士学位,2010年毕业于云顶集团材料学院获工学博士学位,随后在上海交通大学、美国普渡大学从事博士后研究工作,2016年回云顶集团工作。研究兴趣集中在面向工程和科学的多尺度模拟与高通量计算领域,包括复杂系统科学、多尺度计算方法、介观方法及其应用、机器学习工程应用、凝固过程数值模拟等。
他长期专注于凝固过程的建模模拟,针对凝固过程中的熔体流动、枝晶生长、热质输运及缺陷形成等问题开展研究,现已成功将相场方法、元胞自动机方法与格子玻尔兹曼方法结合并用于金属熔体对流传热与微观组织形成规律的研究。近年来,他将格子玻尔兹曼方法与元胞自动机、相场方法结合,应用于凝固组织模拟、复杂流体流动、对流传热相变的研究中,推进了格子玻尔兹曼方法在凝固模拟、合金设计与相变动力学等方面的应用。他的研究兴趣还包括以分子动理论为基础的数学模型、数值方法和软件技术的研究。这些内容既是工程科学的核心问题之一,也是机械、能动、材料、化工与生医等学科的新兴交叉点,并可为相关领域的学术发展和技术进步提供全新思路。
他主持和参加了国家、国防和省部级科研项目15项,在Acta Mater.、Appl. Phys. Lett.、Int. J. Heat Mass Transfer等期刊发表SCI论文76篇、H指数为22。他曾组织举办第1至10届格子玻尔兹曼方法及其应用会议(2013-2022)、第2届相场与集成计算材料工程会议(2018)、The 31st Discrete Simulation of Fluid Dynamics Conference(2022.08,Suzhou,China),The 8th International Conference on Physical and Numerical Simulation of Materials Processing(2016.10, Seattle, USA),担任上海交通大学材料基因组联合研究中心成员(2015-2016)、第15届全国渗流力学会学术会议青委会委员(2019)、The European Physical Journal E客座编辑(2019-2020),获2018年中国颗粒学会自然科学一等奖1项、2019年中国化工学会基础研究成果一等奖1项。
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其实吧,网页宣传只是一方面。“要知有没有,当面露一手”。当面聊一聊就更能知道这人是不是在吹牛!~_~。
工作时间
办公时间(Office Time 2023.02-2022.06) | 上课时间(Course Time 2023.02-2022.06) |
周一 09:00-11:30 周二 - 周三 14:00-17:00 周四 09:00-11:30/14:00-17:00 周五 09:00-11:30/14:00-17:00 | 周一 14:00-15:35 周二 09:50-12:15/14:00-15:35 周三 09:50-11:25 周四 - 周五 - |
英才招收
• 本科生:有意申请本课题组免试生(含直博生)的本科生可申请参加本课题组的课外研学计划(SRTP)或其他类型的科研项目,或提前开始毕业设计工作;参加本课题组科研项目者,每周投入工作时间不得少于10小时,且每次连续工作不少于2小时;有优秀成果及展现学术潜力者,可获得继续读研深造、学术会议、出国交流的推荐与资助。
• 研究生:机械、材料、数学、物理、化学或计算机等相关学科优秀本科生,思想端正、身心健康、热爱科学、勇于探索、乐观开朗,积极进取,具有较强的科研能力或发展潜力;有英语成绩(CET4/6、TOEFL、IELTS)者或英语阅读、写作或口语熟练者优先;优先招收推免生、直博生和硕博连读生。
• 博士后:机械、材料、力学、数学或计算机等学科专业领域;已正式获得博士学位且获得时间不超过三年者,已通过博士学位论文答辩且半年内能获得博士学位者;对博士后提供必要的科研、会议与交流等活动资助;在站待遇高于学校标准,特别优秀者可面议待遇。
毕业去向
本科生 | 研究生 |
• 孙萌(2022届),云顶集团/免研 • 何雨亭(2022届),浙江大学/读研 • 于芊楠(2022届),云顶集团/免研 • 秦楚晋(2022届),云顶集团/直博 • 曹宇婷(2021届),University of Michigan, Ann Arbor/读研 • 吴津仪(2021届),云顶集团/直接攻博 • 邵小轩(2021届),RWTH Aachen University/读研 • 刘依琳(2021届),云顶集团/免研 • 陈俊伟(2020届),上海大学/读研 • 毛士麟(2019届),云顶集团/硕博连读 • 王学舟(2018届),云顶集团/免研 | • 陈道梁(硕,2022届),Tp-Link/软件工程&软件开发 • 王学舟(硕,2021届),挪威读博/CFD&CMS • 张兆栋(硕,2020届),潍柴动力/CAE建模与模拟 • 林羲(博,2020届,联培),上海交通大学/博士后 • G.Thomas(硕,2019届,法国),美国/读博/CFD |
合作交流
与德国Max Planck Institute for Dynamics and Self-Organization的Yong Wang博士,美国Purdue University West Lafayette的Xiaoming Wang教授、Guang Lin教授,美国The University of Texas at Dallas的Guoping Xiong教授,英国School of Engineering at University of Edinburgh的Timm Krüger教授,澳大利亚University of New South Wales Canberra的Fang-Bao Tian教授以及美国CompuTherm LLC公司的Shuanglin Chen博士等著名学者、研究机构和科技公司建立了密切的学术合作关系。
更新于2023年02月12日
• 2016.12– 今,云顶集团,云顶集团,教授
• 2015.11–2016.12,美国普渡大学,云顶集团, 博士后
• 2014.10–2015.11,上海交通大学,材料科学与工程学院,博士后
本科生课程:
• 计算材料学(专业基础课,2022-今)
• 工程流体力学(大类学科基础课,2021-今)
• 材料数值模拟基础(专业基础课,2019-2021)
• 程序设计与算法语言(C++面向对象,大类学科基础课,2017-2019)
研究生课程:
• 流体力学(静力学、动力学、数值传热学与计算流体力学,硕士学位课,2017-今)
• Advances in Water Resources
• Advances in Applied Mathematics and Mechanics
• Applied Mathematics Letters
• Applied Mathematical Modelling
• Applied Thermal Engineering
• Chinese Physics B
• Communications in Computational Physics
• Computational Materials Science
• Computers & Fluids
• International Journal of Computational Materials Science and Surface Engineering
• International Journal of Heat and Mass Transfer
• International Journal of Manufacturing Technology and Management
• International Journal of Numerical Methods for Heat and Fluid Flow
• International Journal of Thermal Sciences
• Journal of Hydrodynamics
• Journal of Materials Science & Technology
• Journal of Porous Media
• Material Science and Engineering Technology
• Nanoscale
• Nanoscale Research Letters
• Physics of Fluids
• Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science
• The Canadian Journal of Chemical Engineering
• The European Physical Journal E
• 机械工程学报
• 东北大学学报
• 科学通报
• 传感技术学报
• 钢铁研究学报(英文版)
• 西南交通大学学报
• 浙江科技学院学报
• 中国力学学会会员
• 中国有色金属学会会员
• 格子玻尔兹曼方法及其应用论坛理事
• 相场与集成计算材料工程论坛理事
• 第15届全国渗流力学会学术会议青委会委员
• Secretariat, Session Chair: The 8th International Conference on Physical and Numerical Simulation of Materials Processing Oct. 14-17, 2016 in Seattle, U.S.A.
• Guest Editor of EUROPEAN PHYSICAL JOURNAL E (2019)
[1] Hui Xing*, Xianglei Dong, Dongke Sun** and Yongsheng Han. Anisotropic lattice Boltzmann-phase-fieldmodeling of crystal growth with melt convection induced by solid-liquid densitychange. Journal of Materials Science & Technology, 2020, 57: 26–32. SCI WOS:000572537200003.
[2] Qingyu Zhang*, Dongke Sun, Shunhu Zhang, Hui Wang and Mingfang Zhu**. Modelingof microporosity formation and hydrogen concentration evolution duringsolidification of an Al–Si alloy. Chin. Phys. B, 2020, 29(7): 078104. SCI WOS:000547008100001.
[3] Xuezhou Wang, Dongke Sun*, HuiXing**, Yongsheng Han***,Yanfei Liu and Jincheng Wang. Numerical modeling of equiaxed crystal growth insolidification of binary alloys using a lattice Boltzmann-finite volume scheme.2020 November, 184: 109855. DOI: 10.1016/j.commatsci.2020.109855.SCI WOS: 000567372100006.
[4] Jinyi Wu, Dongke Sun*, Jincheng Wang and Mingfang Zhu**.Modeling of free dendritic growth in a gravity environment by lattice Boltzmannmethod. Eur. Phys. J. E, 2020, 43: 30. DOI: 10.1140/epje/i2020-11958-7. SCI WOS:000538061300001.
[5] Dongke Sun*. A discrete kinetic scheme to model anisotropic liquid-solid phasetransitions. Applied Mathematics Letters. 2020, 103: 106222. DOI:10.1016/j.aml.2020.106222. SCI WOS: 000517664700047.
[6] Chongchen Xiang, Qingyu Zhang*, Dongke Sun, Shunhu Zhang,Mingfang Zhu and Markus Rettenmayr. European PhysicalJournal E. 2020, 43(1): 5. DOI: 10.1140/epje/i2020-11930-7. SCI WOS:000511948100001.
[7] Zhaodong Zhang, Yuting Cao, Dongke Sun*, Hui Xin, JinchengWang and Zhonghua Ni. A numerical study on pattern selection in crystal growthby using anisotropic lattice Boltzmann-phase field method, Chin. Phys. B,2020(2): 028103. DOI: 10.1088/1674-1056/AB6718. SCI WOS: 000526965800001.
[8] Chengbin Zhang, Suchen Wu, Feng Yao and Dongke Sun*. Numerical study on vapor–liquid phasechange in an enclosed narrow space. Numerical Heat Transfer, Part A:Applications, 2020, 77(2): 199–214. SCI WOS: 000494727500001.
[9] Rui Du, Jincheng Wang and Dongke Sun*. Lattice-Boltzmann Simulations of the Convection-Diffusion Equation withDifferent Reactive Boundary Conditions. Mathematics. 2020, 8 (1): 13. DOI:10.3390/math8010013. SCI WOS: 000515730100077.
[10] Qingyu Zhang*, Dongke Sun, Shiyan Pan and Mingfang Zhu*. Microporosity formation and dendrite growth during solidification ofaluminum alloys: Modeling and experiment. International Journal of Heat andMass Transfer, 2020, 146: 118838. DOI: 10.1016/j.ijheatmasstransfer.2019.118838.SCI WOS: 000500371700032.
[11] Rui Du, Dongke Sun, Baochang Shi and Zhenhua Chai*. Lattice Boltzmannmodel for time sub-diffusion equation in Caputo sense. Applied Mathematics andComputation. 2019, 358: 80-90. DOI: 10.1016/J.AMC.2019.04.014. SCI WOS:000467907700007.
[12] Xi Lin, Dongke Sun, Shuanglin Chen, Qi Zhu, Haiyan Leng and Qian Li*. Numerical analysis on pulverization and self-densification for hydrogenstorage performance of a metal hydride tank. Applied Thermal Engineering, 2019,161: 114129. DOI: 10.1016/J.APPLTHERMALENG.2019.114129. SCI WOS: 000488887200017.EI Accession number: 20193007224463.
[13] Xiao Li, Kaibing Ren, Man Zhang, Wen Sang, Dongke Sun, Tao Hu* and Zhonghua Ni**. Cobalt functionalized MoS2/carbon nanotubes scaffold forenzyme-free glucose detection with extremely low detection limit. DOI:10.1016/J.SNB.2019.04.137. Sensors and Actuators B-Chemical, 2019: 293:122-128. SCI WOS:000469021800017.
[14] Qun Luo, Cong Zhai, Dongke Sun, Wei Chen and Qian Li*. Interpolation and extrapolation with the CALPHAD method, Journal ofMaterials Science & Technology, 2019, 35, 2115–2120. SCI WOS: 000475870600029.
[15] Dong An, Shuanglin Chen, Dongke Sun, Shiyan Pan, Bruce W. Krakauer and Mingfang Zhu*. A cellular automaton model integrated with CALPHAD-basedthermodynamic calculations for ferrite-austenite phase transformations inmulticomponent alloys. Computational Materials Science, 2019, 166:210-220. SCI WOS:000471870200024.
[16] Tao Hu, Jian Xu, Yi Ye , Yu Han , Xiao Li, Zhen Wang, Dongke Sun*,Yunlong Zhou** and Zhonghua Ni***. Visual detection of mixed organophosphorouspesticide using QD-AChE aerogel based microfluidic arrays sensor. Biosensorsand Bioelectronics, 2019, 136: 112–117. SCI WOS: WOS:000471081400015.
[17] Tao Lu, Wenke Chai, Ye Pan*, Ting Dai and Dongke Sun.CoCrFeNi Multi-principal Element Alloy Prepared via Self-propagatingHigh-Temperature Synthesis Plus Investment Casting Method. Metallurgical andMaterials Transactions B, 2019, 50B: 32-35. SCI WOS: 000456070300006.
[18] Jinming Wu, Yingxue Yao, Dongke Sun*, Zhonghua Ni** and Malin Goeteman. Numerical and Experimental Study of the Solo Duck Wave EnergyConverter. Energies 2019, 12, 1941; doi:10.3390/en12101941 SCI WOS:000471016700120.
[19] Mengdan Hu, Qingyu Zhang, Dongke Sun and Mingfang Zhu*. Three-dimensional lattice Boltzmann modeling of dropletcondensation on superhydrophobic nanostructured surfaces. Acta Physica Sinic A 2019,68, 3: 030501 DOI: 10.7498/aps.68.20181665. SCI WOS:000458164600009.
[20] Dongke Sun*,Hui Xing, Xianglei Dong and Yongsheng Han. An anisotropiclattice Boltzmann - phase field scheme for numerical simulations of dendriticgrowth with melt convection. International Journal of Heat and Mass Transfer,2019, 133: 1240-1250. SCI WOS:000460710100108, EI Accession number:20190306372113.
[21] Dongke Sun*, Zhenhua Chai, Qian Li and Guanglin Lin. A lattice Boltzmann–cellular automaton study on dendrite growthwith melt convection in solidification of ternary alloys. Chinese Physics B,2018, 27(8): 088105. SCI WOS:000442033100005, EI Accession number:20183405716754.
[22] Dongke Sun*, Yong Wang, Hongyao Yu and Qingyou Han. A lattice Boltzmannstudy on dendritic growth of a binary alloy in the presence of melt convection.International Journal of Heat and Mass Transfer, 2018, 123: 213–226. SCI WOS:000434887000018, EI Accessionnumber: 20181004860237.
[23] Zhenhua Chai*, Dongke Sun, Huili Wang and Baochang Shi. A comparative study of local and nonlocal Allen-Cahn equations with massconservation. International Journal of Heat and Mass Transfer, 2018, 122: 631–42. SCI WOS: 000431933500055.
[24] Tao Hu, Mengdan Hu, Sisi Zhou and Dongke Sun*. AnImmersed Boundary-Lattice Boltzmann Prediction for Particle HydrodynamicFocusing in Annular Microchannels. Chinese Physics Letters, 2018, 35(10):108101. SCI WOS:000448135200021.
[25] Tao Hu, Yi Ye, Ke Chen, Feifei Long, Wen Sang, Yunlong Zhou*, Dongke Sun** and Zhonghua Ni**. Visual detection of glucose based on quantumdots aerogel in microfluidic chips, Anal. Methods, 2018, 10, 5749. SCI WOS: 000453243200001.
[26] Qingyu Zhang, Dongke Sun and Mingfang Zhu*. Amulticomponent multiphase lattice Boltzmann model with large liquid-gas densityratios for simulations of wetting phenomena. Chinese Physics B, 2017, 26(8):084701. SCI WOS: 000407239300001, EI 20173304051709.
[27] Dongke Sun*, Shiyan Pan, Qingyou Han and Baode Sun**. Numerical simulation ofdendritic growth in directional solidification of binary alloys using a latticeBoltzmann scheme. International Journal of Heat and Mass Transfer, 2016, 103:821–831. SCI WOS: 000368953400031.
[28] Dongke Sun*, Yong Wang, Anping Dong and Baode Sun. A three-dimensionalquantitative study on the hydrodynamic focusing of particles with the immersedboundary-lattice Boltzmann method. International Journal of Heat and MassTransfer, 2016, 94: 306-315. SCI WOS: 000368953400031. EI 20155201712141.
[29] Dongke Sun*, Mingfang Zhu, Jun Wang and Baode Sun. Lattice Boltzmann modelingof bubble formation and dendritic growth in solidification of binary alloys.International Journal of Heat and Mass Transfer, 2016, 94: 474-487. SCI WOS: 000368953400047.EI 20155101679631.
[30] Qingyu Zhang, Dongke Sun, Youfa Zhang and Mingfang Zhu*.Numerical modeling of condensate droplet on superhydrophobic nanoarrays usingthe lattice Boltzmann method. Chinese Physics B, 2016, 25(6): 066401. SCI WOS: 000377876400043,EI 20162602538014.
[31] Yuepeng Pang, Dongke Sun, Qinfen Gu, Kuo-Chih Chou, XunliWang and Qian Li*. Comprehensive determination of kinetic parameters insolid-state phase transitions: An extended Jonhson−Mehl−Avrami−Kolomogorovmodel with analytical solutions. Crystal Growth & Design, 2016, 16 (4):2404-2415. SCI WOS: 000373747700076, EI 20161802341016.
[32] Shuang Qiu, Nai J. Ge, Dongke Sun, Sheng Zhao, JianfeiSun*, Zhao B. Guo, Ke Hu and Ning Gu. Synthesis and characterization ofmagnetic polyvinyl alcohol (PVA) hydrogel microspheres for the embolization ofblood vessel. IEEE Transactions on Biomedical Engineering, 2016, 63(4):.730-736. SCI WOS: 000372983800005, EI 20161602270843.
[33] Mingfang Zhu*, Qianyu Tang, Qingyu Zhang, Shiyan Pan and Dongke Sun. Cellular AutomatonModeling of Micro-Structure Evolution During Alloy Solidification. ActaMetallurgica Sinica, 2016(10): 1297-1310. (in Chinese) DOI:10.11900/0412.1961.2016.00361, SCI WOS: 000390080900014.
[34] Dongke Sun*, Qingyu Zhang, Weisheng Cao and Mingfang Zhu. Simulation of dendriticgrowth with melt convection in solidification of ternary alloys. ChinesePhysics Letters, 2015, 32 (6): 068103. SCI WOS: 000358597200043.
[35] Dongke Sun, Zheng Bo*. Numerical simulation of hydrodynamic focusing of particlesin straight channel flows with the immersed boundary-lattice Boltzmann method.International Journal of Heat and Mass Transfer, 2015, 80: 139-149. SCI WOS: 000345202100014,EI 20144200103906.
[36] Yong Wang*, Dongke Sun, Yaling He and Wenquan Tao. LatticeBoltzmann study on thermoacoustic onset in a Rijke tube. The European PhysicalJournal Plus (2015) 130(1): 1-10. SCI WOS: 000348344300001.
[37] Ke Chen, Yunlin Quan, Chunfeng Song, Nan Xiang, Di Jiang, DongkeSun, Juekuan Yang, Hong Yi and Zhonghua Ni*. Accurate controlof individual metallic nanowires by light-induced dielectrophoresis: Size-basedseparation and array-spacing regulation. Sensors and Actuators A: Physical,2015, 225: 139-147. SCI WOS: 000352666100018, EI 20151100639143.
[38] Qingyu Zhang, Dongke Sun, Youfa Zhang and Mingfang Zhu*. Lattice Boltzmann modeling of droplet condensation on superhydrophobicnanoarrays. Langmuir, 2014, 30 (42), 12559-12569. SCI WOS: 000347744100013, EI 20144500154833.
[39] Mingfang Zhu*, Dongke Sun, Shiyan Pan, Qingyu Zhang and RaabeD. Modelling of dendritic growth during alloy solidification under naturalconvection. Modelling and Simulation in Materials Science and Engineering,2014, 22: 034006. SCI WOS: 000335952900008, EI 20141717618173.
[40] Nan Xiang, Ke Chen, Qing Dai, Di Jiang, Dongke Sun and ZhonghuaNi*. Inertia-induced focusing dynamics of microparticles throughout a curvedmicrofluidic channel. Microfluidics and Nanofluidics, 2014, 18: 29-39. SCI WOS:000348977700004, EI 20143600007197.
[41] Ke Chen, Nan Xiang, Yunlin Quan, Xiaolu Zhu, Dongke Sun,Hong Yi and Zhonghua Ni*. Directed transport and location-designated rotation ofnanowires using AC electric fields. Microfluidics and Nanofluidics, 2014, 16:237-246. SCI WOS: 000329406900024, EI 20141817652459.
[42] Dongke Sun*, Yong Wang, Di Jiang, Nan Xiang, Ke Chen and Zhonghua Ni. Dynamicself-assembly of particles in an expanding channel flow. Applied PhysicsLetters, 2013, 103: 071905. SCI WOS: 000323769000020, EI 20133516662071.
[43] Dongke Sun*, Nan Xiang, Di Jiang, Ke Chen, Hong Yi and Zhonghua Ni. Multirelaxation time lattice Boltzmann simulation of inertial secondary flow in acurved microchannel. Chinese Physics B, 2013, 22(11): 114704. SCI WOS: 000327485400047,EI 20134917055097.
[44] Dongke Sun*, Di Jiang, Nan Xiang, Ke Chen and Zhonghua Ni. An immersed boundary -lattice Boltzmann simulation of particle hydrodynamic focusing in a straightmicrochannel. Chinese Physics Letters, 2013, 30(7): 074702. SCI WOS: 000321763700032.
[45] Dongke Sun*, Nan Xiang, Ke Chen and Zhonghua Ni. Lattice Boltzmann modeling ofparticle inertial migration in a curved channel. Acta Physica Sinica, 2013,62(2): 024703. (in Chinese) SCI WOS: 000316815000050.
[46] Nan Xiang, Ke Chen, Dongke Sun, Shanfang Wang, Hong Yi and Zhonghua Ni*. Quantitative characterization of the focusing process and dynamicbehavior of differently sized microparticles in a spiral microchannel.Microfluidics and Nanofluidics, 2013, 14: 89-99. SCI WOS: 000313798700008, EI 20132416407255.
[47] Nan Xiang, Hong Yi, Ke Chen, Dongke Sun, Di Jiang, Qing Dai and Zhonghua Ni*. High-throughput inertial particle focusing in a curvedmicrochannel: Insights into the flow-rate regulation mechanism and processmodel. Biomicrofluidics, 2013, 7: 044116. SCI WOS: 000323907600018, EI 20133716726952.
[48] Di Jiang, Dongke Sun, Nan Xiang, Ke Chen, Hong Yi and Zhonghua Ni*. Lattice Boltzmann numerical simulation and experimental researchof dynamic flow in an expansion-contraction microchannel. Biomicrofluidics,2013, 7: 034113. SCI WOS: 000321145800014, EI 20132916517455.
[49] Hainan Chen, Dongke Sun, Ting Dai and Mingfang Zhu*. Modeling of the interaction between solidification interface and bubble usingthe lattice Boltzmann method with large density ratio. Acta Physica Sinica,2013, 62(12): 120502. (in Chinese) SCI WOS: 000321185600007.
[50] Jianfei Sun*, Jian Dong, Dongke Sun, Zhirui Guo and Ning Gu. Magnetically mediated vortexlike assembly of gold nanoshells. Langmuir,2012, 28(16): 6520-6526. SCI WOS: 000303091300002, EI 20121814977036.
[51] Wei Wu, Mingfang Zhu*, Dongke Sun, Ting Dai, Qingyou Han and Dierk Raabe. Modelling of dendritic growth and bubble formation. IOP ConfSeries: Materials Science and Engineering, 2012, 33: 012103. SCI WOS: 000307779900103,EI 20132116361118.
[52] Wei Wu, Dongke Sun, Ting Dai and Mingfang Zhu*. Modellingof dendritic growth and bubble formation. Acta Physica Sinica, 2012, 61(15):3394-3401. (in Chinese) SCI WOS: 000309089100006.
[53] Mingfang Zhu*, Shiyan Pan, Dongke Sun, Zhonglin Gui andFengmao Zhou. Numerical modeling of microstructure evolution in alloysolidification. Advances in Heterogeneous Material Mechanics, 2011: 643-650.SCI WOS: 000297713100159, EI 20124015499973.
[54] Dongke Sun, Mingfang Zhu*, Shiyan Pan, Chaorong Yang and Dierk Raabe. LatticeBoltzmann modeling of dendritic growth in forced and natural convection.Computers and Mathematics with Applications, 2011, 61(12): 3585-3592. SCI WOS: 000292583300016,EI 20112514070927.
[55] Dongke Sun, Mingfang Zhu*, Ting Dai, Weisheng Cao, Shuanglin Chen, Dierk Raabe andChun-Pyo Hong. Modelling of dendritic growth in ternary alloy solidificationwith melt convection. International Journal of Cast Metals Research, 2011, 24(3/4): 177-183. SCI WOS: 000293333900009, EI 20113114195046.
[56] Fengmao Zhou, Dongke Sun and Mingfang Zhu*. LatticeBoltzmann modelling of liquid-liquid phase separation of monotectic alloys.Acta Physica Sinica 2010, 59(5): 3394-3401. (in Chinese) SCI WOS: 000277733700073.
[57] Mingfang Zhu*, Shiyan Pan, Dongke Sun and Honglei Zhao.Numerical simulation of microstructure evolution during alloy solidification byusing cellular automaton method. ISIJ International 2010, 50 (12): 1851-1858.SCI WOS: 000285666400018, EI 20110913712196.
[58] Chaorong Yang, Dongke Sun, Shiyan Pan, Ting Dai andMingfang Zhu*. CA–LBM model for the simulation ofdendritic growth under natural convection. Acta Metallurgica Sinica 2009,45(1): 43-50. (in Chinese) SCI WOS: 000263767800007, EI 20091111955815.
[59] Honglei Zhao, Dongke Sun, Shiyan Pan, Ting Dai andMingfang Zhu*. CA-LBM modeling of solutal dendritic growth with forcedconvection. Journal of Southeast University (Natural Science Edition), 2009,39(2): 255-261. (in Chinese) EI 20091812064354.
[60] Dongke Sun, Mingfang Zhu*, Shiyan Pan and Dierk Raabe. Numerical modeling ofdendritic growth in alloy solidification with forced convection. InternationalJournal of Modern Physics B, 2009, 23(6/7): 1609-1614. SCI WOS: 000266134700137.
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[62] Dongke Sun, Mingfang Zhu*, Shiyan Pan and Dierk Raabe. Lattice Boltzmann modelingof dendritic growth in a forced melt convection. Acta Materialia, 2009, 57(6):1755-1767. SCI WOS: 000264677600006 , EI 20091011940525.
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更新于2021年03月25日
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更新于2020年12月31日
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CN201610855857.0. | 一种水下设施激光增材修复的方法与装置 | 2016/12 | 发明专利授权 | |
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软件著作权 | ||||
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更新于2020年12月31日