宋宏伟

中国科学院力学研究所

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  • 宋宏伟
  • 研究员
  • 北京北四环西路15号,中国科学院力学研究所

简历:

2004.5—现在:历任副研究员、研究员、博士生导师,中国科学院力学研究所,流固耦合系统力学重点实验室

2002.5—2004.4:博士后,清华大学汽车系,汽车安全与节能国家重点实验室

1992.9—2001.12:哈尔滨工业大学,本硕博学习,在航天工程与力学系获工程力学博士学位

研究领域:

力学超材料,新构型点阵及3D打印,新型轻质多孔材料与结构的热力性能及应用;面向高速飞行器等重大工程的热结构分析与轻量化设计;激光的热与力学效应,强激光诱导的多场耦合热力破坏效应;结构健康监测,力学环境可靠性.

社会任职:

中国科学院国防创新领域专家组成员;JW科技委某效应专家组成员;航天科技集团组合动力研发中心学术委员会委员;中国科学院“青年科学促进会”会员。

获奖及荣誉:

2008年,中国科学院“卢嘉锡青年人才奖”

2007年,中国科学院力学所“优秀青年”称号

2006年,中国科学院力学所“优秀青年科技工作者”二等奖

2003年,哈尔滨工业大学“优秀博士论文”奖励

代表论著:

近五年主要的学术论文:

[1] W. Liu, HW. Song*, Z. Wang, J. Wang, C. Huang, Improving mechanical performance of fused deposition modeling lattice structures by a snap-fitting method, Materials & Design, 2019, 181:108065 (Q1: 5.77)

[2] LL Lu, J Le, HW Song*, YB Wang, CG Huang. Damage detection of sandwich panels with truss core based on time domain dynamic responses, Composite Structures, 2019, 211:443-454, (Q1: 4.829)

[2] CY Cao, RX Wang, XD Xing, WF Liu, HW Song, CG Huang, Performance improvement of integrated thermal protection system using shaped-stabilized composite phase change material. Applied Thermal Engineering, 2019, (Q1: 4.026)

[3] JT Wang, W Yuan, HW Song, CG Huang, Compression performances and failure maps of sandwich cylinders with pyramidal truss cores obtained through geometric mapping and snap-fit method. Composite Structures 2019, 226. (Q1: 4.829)

[4] JT Wang, W Yuan, HW Song, CG Huang, Experimental investigation on laser ablation of C/SiC composites subjected to supersonic airflow. Optics and laser technology 2019, 113:399-406. (Q1: 3.319)

[5] LL Lu, HW Song, YW Wang, CG Huang. Deformation behavior of non-rigid airships in wind tunnel tests, Chinese Journal of Aeronautics, 2019, 32(3):611-618. (SCI, Q1)

[6]W Yuan, HW Song*, CG Huang, High-power laser resistance of filled sandwich panel with truss core: An experimental study. Composite Structures, 2018, 193:53-62. (Q1: 4.829)

[7] W Yuan, HW Song*, CG Huang, Full-field deformation and temperature measurement for CW laser irradiated structures. Optics and Lasers in Engineering, 2018, 110: 244-252. (Q1: 4.059)

[8]Ma T, Xing XD, Song HW*, Huang CG. On similarity criteria of thin-walled cylinder subjected to complex thermomechanical loads, Thin-Walled Structures, 2018, 132:549-557 (Q1: 3.488)

[9] Zhao WN, Huang YH, Song HW*, Huang CG. Residual strength and damage mechanisms of laminated carbon fiber reinforced polymer under thermal environments and laser irradiations. Polymer Engineering and Science, 2018, 2018-01-09 (Q3: 1.92)

[10]Yuan W, Song HW*, Huang CG. Nonlinear thermo-structural behavior of sandwich panels with truss cores under through-thickness gradient temperature field, Theoretical and Applied Mechanics Letters, 2018, 8(3):184-192

[11]Xing XD, Ma T, Wang RX, Chao CY, Song HW*, Huang CG. Dynamic rupture of metal sheet subjected to laser irradiation and tangential subsonic airflow. Theoretical and Applied Mechanics Letters, 2018, 8(4):272-276

[12] JT Wang, W Yuan, HW Song, CG Huang, High-power laser resistance of filled sandwich panel with truss cores: ablation mechanisms and numerical simulation, Composite Structures, 2018, 149: 271-278. (Q1: 4.829)

[13] J Le, LL Lu, YB Wang, HW Song, XD Xing, CG Huang, Damage identification of low-density material filled sandwich panels with truss core based on dynamic properties, Structural Health Monitoring: an international journal, 2018 (Q1: 4.939)

[14] XL Dang, XW Yin, et al, HW Song, Microstructural evolution of carbon fiber reinforced SiC-base matrix composites during laser ablation process. Journal of Materials Science and Technology, 2018 (SCI)

[15]L.L. Lu, H.W. Song*, C.G. Huang, Experimental investigation of unbound nodes identification for metallic sandwich panels with truss core, Composite Structures, 2017, 163: 248-256. (Q1: 4.829)

[16]L.L. Lu, H.W. Song*, W. Yuan, C.G. Huang, Baseline-free damage identification of metallic sandwich panels with truss core based on vibration characteristics, Structural Health Monitoring, 2017, 16: 24-38. (Q1: 4.939)

[17]L.L. Lu, H.W. Song*, C.G. Huang, Effects of random damages on dynamic behavior of metallic sandwich panel with truss core, Composite Part B, 2017, 116: 278-290 (Q1: 6.864)

[18]W.N. Zhao, H.W. Song*, C.G. Huang, Modeling the failure behavior of CFRP laminates subjected to combined thermal and mechanical loadings, International Journal of Applied Mechanics, 2017, 9: 1750033 (Q3: 1.939)

[19]Y.C. Liu, C.W. Wu, Y.H. Huang, H.W. Song, C.G. Huang, Interlaminar damage of carbon fiber reinforced polymer composite Laminate under continuous wave laser irradiation, Optics and Lasers in Engineering, 88(2017): 91-101. (Q1: 4.059)

[20]W Yuan, HW Song*, CG Huang, Failure maps and optimal design of metallic sandwich panels with truss cores subjected to thermal loading, International Journal of Mechanical Sciences 2016,115 56-67. (Q1: 4.134)

[21]W Yuan, HW Song*, CG Huang, Effects of local damages on the buckling behaviour of pyramidal truss core sandwich panels, Composite Structures, 2016, 149: 271-278. (Q1: 4.829)

[22]W Yuan, HW Song*, CG Huang, Thermal post-buckling behavior of simply supported sandwich panels with truss cores, Journal of Thermal Stresses 2016, 39: 156-169. (Q1: 2.943)

[23]Y.H. Huang, H.W. Song*, C.G. Huang, Heat transfer and mode transition for laser ablation subjected to supersonic airflow, Chinese Physics Letters, 2016, 33: 014201. (Q3: 1.066)

[24]W Yuan, HW Song*, CG Huang, Experimental investigation on thermal buckling behavior of truss-core sandwich panels, AIAA Journal, 2015, 39: 156-169.

[25]宋宏伟,黄晨光. 激光诱导的热与力学效应. 力学进展,2016(46):435-475

[26]曹晨宇,王睿星,邢晓冬,宋宏伟, 黄晨光. 含相变材料热防护结构一体化设计与试验, 宇航学报, 2019,40(03):352-361.

[27]马特, 邢晓冬, 宋宏伟, 黄晨光, 激光诱导充压柱壳破坏模式与参数阈值分析, 强激光与粒子束, 2018, 30(3):031001-1~6

[28]赵伟娜, 黄亿辉, 宋宏伟, 黄晨光. 高功率连续激光辐照CFRP层合板热力破坏效应多尺度分析模型.中国激光, 2017(44):0602003-1~10

代表性论著:

[1]Song H.W., Wu X.Q., Huang C.G., et al. Measurement of fast-changing low velocities by photonic Doppler velocimetry. Review of Scientific Instruments, 2012, 83,073301

[2]Song H.W., Li S.X., Zhang L., et al. Numerical simulation of thermal loading produced by shaped high power laser onto engine parts. Applied Thermal Engineering, 2010; 30: 553-560.

[3]Song H.W., He Q.J., Xie J.J., Tobota A. Fracture mechanisms and size effects of brittle metallic foams: in situ compression tests inside SEM. Composite Science and Technology, 2008; 68:2441-2450.

[4]Song H.W., Yu G, Tan J.S., et al. Thermal fatigue on pistons induced by shaped high power laser. Part I: Experimental study of transient temperature field and temperature oscillation. International Journal of Heat and Mass Transfer, 2008; 51:757-767.

[5]Song H.W., Yu G, Kaplan AFH, et al. Thermal fatigue on pistons induced by shaped high power laser. Part II: Design of spatial intensity distribution via numerical simulation. International Journal of Heat and Mass Transfer, 2008; 51:768-778.

[6]Song, H.W., Fan Z.J., Yu, G., Wang, Q.C and Tobota A. Partition energy absorption of axially crushed aluminum foam-filled hat sections. International Journal of Solids and Structures, 2005;42(10): 2575-2600.

[7]Song, H.W., Du X.W. Off-axis crushing of GFRP tubes. Composite Science and Technology, 2002; 62(15):2065-2073.

[8]Song, H.W., Wan, Z.M., Xie, Z.M. et al. Axial impact behavior and energy absorption efficiency of composite wrapped metal tubes. International Journal of Impact Engineering, 2000; 24(4):385-401.

[9]宋宏伟,黄晨光. 激光诱导的热与力学效应. 力学进展,2016(46):435-475

[10] 杜星文,宋宏伟. 圆柱壳冲击动力学及耐撞性设计. 科学出版社. 2004年5月

Updated 2019/12/26

ResearchGate profile: www.researchgate.net/profile/Hong_Wei_Song

实验平台

激光破坏效应与多场测量实验平台

http://samp.cas.cn/sams/pageIndexAction.do?method=doQuery&key=1&searchCondition=%E6%BF%80%E5%85%89%E7%A0%B4%E5%9D%8F%E6%95%88%E5%BA%94

力学环境与可靠性实验平台

承担科研项目情况:

高效能一体化XXX,中国科学院重点部署项目(2018-2020),课题负责人

XXX多场耦合数值仿真,装发联合基金重点项目(2018-2020),负责人

热力耦合环境结构响应测试平台,中国科学院修购项目(2017-2018),负责人

XXX多场耦合破坏效应,GF创新特区重大项目(2017-2018),课题负责人

国防基础科研重点项目(2016~2018),负责人

XXX飞行器热结构分析等(2014-2018),课题负责人

金属点阵夹层板高温热屈曲行为,国家自然科学基金_面上项目(2015~2018),负责人;

强激光辐照下碳纤维复合材料的热力响应,国家自然科学基金_重点项目(2014~2018),主要参加人;

国家自然科学基金_重大研究计划_集成项目(2013~2015),课题负责人

国家自然科学基金_重大研究计划_培育项目(2011~2013),负责人

XXX飞行器热结构分析等(2014-2018),课题负责人

国家重大专项_热结构子课题(2012~2015),负责人

中国科学院重大项目_结构子课题(2013~2015),负责人

863-802专题课题(2011~2015),负责人

中国科学院装备研制项目(2009~2011),负责人