主持和参加国家自然科学基金面上项目和重点项目、“十三五”国家重点研发计划“可再生能源与氢能技术”重点专项项目、国家重大水体专项水专项项目、国防973项目、科技部973项目、军民两用863项目、863计划项目、航空基金重点项目、上海市“曙光计划”项目、国际联合研究项目和产学研系列项目等50多项。

主持在研项目：

1.    上海市商用航空发动机领域联合创新计划项目“航空发动机外部结构件可靠性评估和适航验证技术研究”，2020-2023

发表期刊论文百余篇，申请国内专利4项。

近三年发表论文：

1.    Xiang, XH,Hu, QQ, Dai Y*, Zhang XQ*, He PF.Piezoelectric response analysis of ferroelectret with annular conguration.International Journal of Applied Mechanics, 2023, 15(5): 2350037

2.   Ma, XC, Qi, Y, Niu, YY, Zhang, Q, Xiang, XH,Zhang, K, He, PF, Dai, Y*, Niu, WX*,Zhang, XQ*. Highly sensitive, ultra-reliable flexible piezoelectret sensor fornon-contact sitting motion tracking and physiological signal monitoring. NanoEnergy, 2023, 111: 108424

3.   Yang, XY, Ma, XC, Ding, C, Sessler, GM, vonSeggern, H, Kupnik, M, Dai, Y*, He,PF*, Zhang, XQ*. Resilient electret film-based vibrational energy harvesterswith a V-shaped counter electrode. IET Nanodielectrics, 2023, 6(2): 36-45

4.   Zhu, F, Zhang, ML, Zhang, CJ*, He, PF, Dai,Y. Experimental investigation and crystal plasticity modeling of combined highand low cycle loading on AISI 4140 steel. International Journal of Fatigue,2023, 168: 107465

5.   Wang, H, Chen, X, Koenders, E, Dai, Y, Huang,XC, Ai, Q*, Yuan, Y. Transient nonlinear heat conduction in concrete structures:A semi-analytical approach. Entropy, 2023, 25(4): 583

6.   Xiang, XH, Ma, XC, Zhou, L, Sessler, GM*, vonSeggern, H, Dali, OB, Kupnik, M, He, PF, Dai, Y*, Zhang, XQ*. Threadlikepiezoelectric sensors based on ferroelectrets and their application in washableand breathable smart clothing. Advanced Materials Technologies, 2023,  DOI10.1002/admt.202202130

7.   Feng, KX, Lu, ZZ, Ye, N, He, PF, Dai, Y. Two-phaseadaptive Kriging model based importance sampling method for estimatingtime-dependent failure probability. IEEE Transactions on Reliability, 2023, DOI10.1109/TR.2023.3245058

8.   Ma, XC, Zhukov, S, von Seggern, H, Sessler,GM, Ben Dali, O, Kupnik, M, Dai, Y*, He, PF, Zhang, XQ*. Biodegradable andbioabsorbable polylactic acid ferroelectrets with prominent piezoelectric activity.Advanced Electronic Materials, 2023, DOI10.1002/aelm.202201070

9.    沈兴铿, 王光强, 杨婧, 员婉莹, 杨宏伟, 张屹尚, 戴瑛*, 贺鹏飞.受内压航空管道弯曲疲劳可靠性.同济大学学报(自然科学版), 2023,51(1): 108-116

10. Zhang, M,Xiang, XH, Zhang, XQ*, Dai, Y*, He,PF. Tape-like vibrational energy harvesters using flexible fluorinatedpolyethylene propylene (FEP) piezoelectret as transduction material. IEEETransactions on Dielectrics and Electrical Insulation, 2022, 29(3): 768-776

11.Shen, XK, Feng, KX, Xu, HM, Wang, GQ, Zhang,YS, Dai, Y*, Yun, WY.Reliabilityanalysis of bending fatigue life of hydraulic pipeline. Reliability Engineering& System Safety, 2022, 231: 109019

12.Deng, YJ, Dai Y*. The improved interpolating complex variable element freeGalerkin method of bidimensional elastic problems. Acta Mechanica SolidaSinica, 2022, DOI 10.1007/s10338-021-00258-4

13.Ma, XC, Hu QQ, Dai Ying*, He PF, Zhang, XQ*. Disposable sensors based onbiodegradable polylactic acid piezoelectret films and their application inwearable electronics. Sensors and Actuators: A. Physical, 2022, 346: 113834

14.Zhang, ML, Zhu, F, Zhang, CJ, Hu, CY,  Cao, R, He, PF,  Dai, Y. Crystal plasticity model of surfaceintegrity effects on fatigue properties after Milling: An investigation on AISI4140 steel. International Journal of Fatigue, 2022, 163: 107029

15.Cao, PC, Chen, X, Dong, HJ, Dai, Y. Ageneralized mixture rule for estimating the effective modulus of cement pastein early age. Multidiscipline Modeling in Materials and Structures, 2022,18(4): 606-618

16.Ma, XC, Chen, X, Xiang, XH, Zhang, F, Zhao,YJ, Wang, FY, Mu, XJ*, Dai, Y*, He,PF, Zhang, XQ*. Self-powered multifunctional body motion detectors based onhighly compressible and stretchable ferroelectrets with an air-filledparallel-tunnel structure. Nano Energy, 2022, 103: 107729

17.Feng, KX, Lu, YX,  Lu, ZZ, He, PF, Dai, Y. Estimation of failureprobability-based-global-sensitivity using the theorem of Bayes and subsetsimulation. Probabilistic Engineering Mechanics, 2022, 103349, DOI:10.1016/j.probengmech.2022.103349

18.Feng, KX, Lu, ZZ, Chen, ZB, He, PF, Dai, Y. Aninnovative Bayesian updating method for laminated composite structures underevidence uncertainty. Composite Structures, 2022, 304: 116429

19.Liu, FC, Wei, PF, He, PF, Dai, Y. Applicationof an improved sequential importance sampling for structural reliability analysisof aeronautical hydraulic pipeline with multiple stochastic responses.Structural and Multidisciplinary Optimization, 2022, 65(2): doi.org/10.1007/s00158-021-03151-3

20.Liu, FC, He, PF, Dai, Y. A new Bayesianprobabilistic integration framework for hybrid uncertainty propagation. AppliedMathematical Modelling, 2022, 117: 296-315

21.庞彪, 陈熹, 金荣科, 袁勇, 戴瑛. 高强混凝土热-力响应的断裂相场分析方法研究. 力学季刊, 2022, 43(2):289-298

22.王德英, 董洪晶, 庞彪, 陈熹, 戴瑛. 氯离子在混凝土地梁非饱和渗流中的扩散过程分析. 力学季刊, 2022,43(4): 863-875

23.Guan, W, Dai, Y, Li WX, Qu, Y, He, PF*.  An improved semi-discrete approach forsimulation of 2.5D woven fabric preforming. Composite Structures, 2022,  282: 115093

24.Ma, XC, Yang, XY, Ding, C, Zhang, XQ*, Dai, Y*, He, PF. Theoretical analysisand experimental validation of frequency-moldable electrostatic energyharvesters biased with a high elastic electret film. Smart Materials andStructures, 2021, 30(6)

25.Ma, XC, Yang, XY, Zhang, XQ*, Dai, Y*, He, PF, Sessler, GM, vonSeggern, H. Tuneable resonance frequency vibrational energy harvester withelectret-embedded variable capacitor. IET Nanodielectrics, 2021, 4(2): 53-62

26.Su, Y, Dai, Y, Liu, Y*. A hybrid parallelHarris hawks optimization algorithm for reusable launch vehicle reentrytrajectory optimization with no-fly zones. Soft Computing, 2021, 25(23): 14597-14617

27.Chen, X, He, DD, Yang, GY, Yuan, Y, Dai, Y*.  Approximate analytical solution for Richards'equation with finite constant water head Dirichlet boundary conditions. Computational& Applied Mathematics, 2021, 40(7): 236, DOI: 10.1007/s40314-021-01626-z

28. Zhong, XR, Sun, WC, Dai,Y*. A reduced-dimensional explicit discrete element solver for simulatinggranular mixing problems. Granular Matter, 2021, 23:13, https://doi.org/10.1007/s10035-020-01077-z

29. Deng, YJ, Shen, XK, Tao, JX, Dai, Y*.  Analysis ofelastic-plastic problems using the improved interpolating complex variableelement free Galerkin method. Mathematics, 2021, 9(16): 1967

30. 官威, 李文晓, 戴瑛, 贺鹏飞. 纺织复合材料预制体变形研究综述. 航空制造技术, 2021, 64(1/2):22-37

31. Yun, WY, Lu, ZZ, Wang, L, Feng, KX, He, PF, Dai, Y.Error-based stopping criterion for the combined adaptive Kriging and importancesampling method for reliability analysis. Probabilistic Engineering Mechanics,2021, 65: 103131

32. Yun, WY, Lu, ZZ, He, PF, Jiang, X, Dai, Y. Parameter global reliability sensitivity analysis withmeta-models: A probability estimation-driven approach. Aerospace Science AndTechnology, 2020, 106:106040

33. Kang, HR, He, PF, Zhang, CM, Dai, Y, Lv, H, Zhang, M, Yang, DL. Stress-strain and burst failureanalysis of fiber wound composite material high-pressure vessel. Polymers &Polymer Composites, 2021, 29(8): 1291-1303: 0967391120965387

34. Kang, HR, He, PF, Zhang, CM, Dai, Y, Shan, ZD, Zang, Y, Lv, H. Tensile progressive damage andcompressive postbuckling analysis of open-hole laminate composites. Journal OfReinforced Plastics And Composites, 2020, 39(17-18): 637-653

35. Yun, WY, Lu, ZZ, He, PF, Dai, Y, Feng, KX. Adaptive subdomain sampling and its adaptiveKriging based method for reliability and reliability sensitivity analysis.Structural and Multidisciplinary Optimization, 2020, 61(3): 1107-1121

36. Shen, XK, Li, MY, Dai,Y*, Zhou, XG, He, PF. The effects of preparation temperature on the SiCf/SiC3D4d woven composite. Ceramics International, 2020, 46(9): 13088-13094

37. Den, YJ, He, XQ, Sun, LG, Yi, SH, Dai, Y*. An improved interpolating complex variable element freeGalerkin method for the pattern transformation of hydrogel. EngineeringAnalysis with Boundary Elements, 2020, 113: 99-109.

38.贺鹏飞, 杨晓雅, 马星晨, 张晓青, 戴瑛. 驻极体静电能量采集器的结构优化.同济大学学报（自然科学版）,2020, 48(9): 1371-1384

39.朱峰, 杨宏伟, 王本劲, 戴瑛, 贺鹏飞. 航空导管弯曲试验的疲劳裂纹萌生寿命. 力学季刊，2020, 41(3): 519-527

40. 杨宏伟, 戴瑛*, 贺鹏飞. 带接头管道在内压与循环载荷作用下的棘轮行为研究. 力学季刊，2020,41(1): 91-98