2011.12 - 2014.12美國(guó)俄亥俄州立大學(xué) 航空工程專業(yè)博士
2008.9 - 2011.12美國(guó)俄亥俄州立大學(xué) 航空工程專業(yè)碩士
2004.9 - 2008.7北京航空航天大學(xué)學(xué)士

2015.02 - 2017.12 上海交通大學(xué) 葉輪機(jī)械研究所 講師
2017.12 - 2021.07 上海交通大學(xué) 葉輪機(jī)械研究所 副教授
2018.06 - 至今 上海交通大學(xué) 葉輪機(jī)械研究所 副所長(zhǎng)
2021.07 - 至今 上海交通大學(xué) 葉輪機(jī)械研究所 教授

***實(shí)驗(yàn)室長(zhǎng)期招收下列專業(yè)博士與碩士***
動(dòng)力工程、機(jī)械工程、航空航天、力學(xué)、材料工程，招收2025年碩士，2026年博士/碩士，歡迎郵件聯(lián)系。

實(shí)驗(yàn)室面向航空發(fā)動(dòng)機(jī)、燃?xì)廨啓C(jī)與高速飛行器，開(kāi)發(fā)精細(xì)化、智能化的先進(jìn)測(cè)量傳感技術(shù)，通過(guò)光學(xué)方法實(shí)現(xiàn)力、熱、變形等多物理場(chǎng)信息的時(shí)空多維度重建，深入揭示高溫、高轉(zhuǎn)速與高速飛行條件下流、固、熱及其耦合機(jī)制，為提升飛行器及發(fā)動(dòng)機(jī)性能提供關(guān)鍵支撐。

實(shí)驗(yàn)室獲國(guó)家自然科學(xué)基金重大儀器研制、優(yōu)青、面上等項(xiàng)目資助，近5年在流動(dòng)、傳熱與航空航天領(lǐng)域權(quán)威期刊發(fā)表SCI論文50余篇，獲國(guó)家發(fā)明專利授權(quán)7項(xiàng)。與美國(guó)俄亥俄州立大學(xué)（OSU）、賓夕法尼亞州立大學(xué)（PSU）、英國(guó)曼徹斯特大學(xué)、韓國(guó)釜山國(guó)立大學(xué)開(kāi)展聯(lián)合研究，合作發(fā)表論文近10篇。

研究成果已廣泛應(yīng)用于航空發(fā)動(dòng)機(jī)、燃?xì)廨啓C(jī)、高超聲速飛行器以及高速直升機(jī)等重大裝備的研發(fā)。與國(guó)內(nèi)相關(guān)領(lǐng)域重點(diǎn)單位以及國(guó)際知名企業(yè)建立了穩(wěn)定合作關(guān)系，包括中航工業(yè)、中國(guó)航發(fā)、中國(guó)氣動(dòng)研究發(fā)展中心、寶鋼、德國(guó)西門(mén)子、日本IHI重工等。

核心技術(shù)：
1. 智能圖像視覺(jué)與三維重建
開(kāi)發(fā)機(jī)器視覺(jué)、結(jié)構(gòu)光、數(shù)字散斑等前沿光學(xué)傳感技術(shù)，實(shí)時(shí)獲取三維模型在復(fù)雜流場(chǎng)中的全局信息（壓力、溫度、變形等）。

2. 時(shí)空多尺度數(shù)據(jù)分析與數(shù)據(jù)融合
基于kHz高速圖像采集得到的海量數(shù)據(jù)，采用POD、DMD等時(shí)空關(guān)聯(lián)分析方法準(zhǔn)確識(shí)別并提取關(guān)鍵物理信息，同時(shí)與數(shù)值仿真有機(jī)融合，顯著提升流動(dòng)與傳熱預(yù)測(cè)精度。

3. 先進(jìn)功能材料（壓敏/溫敏熒光材料、智能熱障涂層，仿生功能薄膜）
將智能光學(xué)材料與微納功能結(jié)構(gòu)相結(jié)合，實(shí)現(xiàn)微秒時(shí)間尺度與微米空間尺度的流動(dòng)傳熱精細(xì)測(cè)量。

《Experiments in Fluids》顧問(wèn)編委，PSP/TSP專欄客座編輯
《Advances in Aerodynamics》《氣體物理》編委
《力學(xué)學(xué)報(bào)》青年編委
中國(guó)空氣動(dòng)力學(xué)會(huì)流動(dòng)顯示專委會(huì) 委員
中國(guó)空氣動(dòng)力學(xué)會(huì)低跨超專委會(huì) 委員
擔(dān)任Physics of Fluids, Experiments in Fluids, International Journal of Heat & Mass Transfer, Sensors & Actuators A/B, Journal of Luminescence, Measurement Science & Technology等近20本中英文高水平期刊的審稿人

國(guó)家/省部級(jí)課題

2024.01 - 2027.12 國(guó)家自然科學(xué)基金面上項(xiàng)目，“熒光壓敏薄膜水下模型表面壓力場(chǎng)測(cè)量技術(shù)研究”，負(fù)責(zé)人

2021.01 - 2023.12 國(guó)家自然科學(xué)基金優(yōu)秀青年項(xiàng)目，“流體力學(xué)壓力與溫度場(chǎng)光學(xué)測(cè)量原理及方法”，負(fù)責(zé)人

2019.01 - 2022.12 國(guó)家自然科學(xué)基金面上項(xiàng)目，“基于氧空位誘發(fā)氧猝滅效應(yīng)的高溫壓力敏感涂層測(cè)量技術(shù)研究”，負(fù)責(zé)人

2018.10 - 2020.09 航空科學(xué)基金重點(diǎn)項(xiàng)目，“基于PSP的直升機(jī)旋翼槳葉表面壓力測(cè)量技術(shù)研究”, 負(fù)責(zé)人

2016.01 - 2018.12 國(guó)家自然科學(xué)基金青年項(xiàng)目，“基于多孔壓敏熒光粒子的空間壓力場(chǎng)與速度場(chǎng)同步測(cè)試技術(shù)研究”，負(fù)責(zé)人

2015.09 - 2018.12 973項(xiàng)目課題，“基于快響應(yīng)壓敏漆的xx測(cè)量方法研究”，負(fù)責(zé)人

企業(yè)合作課題

2019.05 - 2022.12 寶鋼聯(lián)合研究項(xiàng)目，“鋼水成分LIBS測(cè)量技術(shù)研究及裝備集成”，負(fù)責(zé)人

2019.12 - 2020.12 中國(guó)航發(fā)608所，“渦輪氣動(dòng)傳熱的壓敏漆與溫敏漆光學(xué)測(cè)試技術(shù)研究與驗(yàn)證”，負(fù)責(zé)人

2019.06 - 2020.03 石川島公司（IHI）聯(lián)合研究項(xiàng)目，“基于高溫TSP的增壓器渦輪溫度測(cè)量技術(shù)研究”，負(fù)責(zé)人

2017.06 - 2021.06 上海交大-西門(mén)子博士聯(lián)合培養(yǎng)項(xiàng)目，“工業(yè)4.0在數(shù)字化測(cè)量領(lǐng)域中的應(yīng)用”，負(fù)責(zé)人

2017.10 - 2018.09 石川島公司（IHI）聯(lián)合研究項(xiàng)目，“渦輪增壓器部件壓敏漆與溫敏漆測(cè)量方法評(píng)估與驗(yàn)證”，負(fù)責(zé)人

2016.09 - 2017.08 西門(mén)子（中國(guó)）聯(lián)合研究項(xiàng)目，“基于LIBS的熱障涂層激光蝕刻過(guò)程監(jiān)測(cè)與控制技術(shù)研究”，負(fù)責(zé)人

2016.05 - 2017.01 西門(mén)子（中國(guó)）聯(lián)合研究項(xiàng)目，“基于多功能稀土材料的熱障涂層應(yīng)力檢測(cè)技術(shù)研究”，負(fù)責(zé)人

2016.01 - 2017.06 石川島公司（IHI）聯(lián)合研究項(xiàng)目，“基于快響應(yīng)壓敏漆的渦輪增壓器壓氣機(jī)流場(chǎng)診斷技術(shù)研究”，負(fù)責(zé)人

2015.04 - 2015.11 西門(mén)子（中國(guó)）聯(lián)合研究項(xiàng)目，“熱障涂層非接觸式溫度檢測(cè)技術(shù)研究”，主要完成人

校內(nèi)課題

2020.01 - 2021.12 上海交大重點(diǎn)前瞻布局基金，“超高溫陶瓷（>2000度）熱防護(hù)技術(shù)”，負(fù)責(zé)人

2015.02 - 2017.12 上海交大青年教師啟動(dòng)計(jì)劃，“基于快響應(yīng)PSP與POD分析的低速流動(dòng)非定常壓力測(cè)量技術(shù)研究”，負(fù)責(zé)人

2015.04 - 2016.04 上海交大燃?xì)廨啓C(jī)研究院科研項(xiàng)目，“帶溫度修正的快響應(yīng)壓敏漆開(kāi)發(fā)及其在高速旋轉(zhuǎn)葉片壓力測(cè)試中的應(yīng)用”，負(fù)責(zé)人

中文期刊論文
1. 彭迪*,李永增,焦靈睿,劉應(yīng)征.快響應(yīng)PSP應(yīng)用于旋轉(zhuǎn)葉片測(cè)試的挑戰(zhàn)與對(duì)策[J].工程熱物理學(xué)報(bào),2020,41(06):1350-1358.
2. 彭迪*,李永增,劉旭,焦靈睿,劉應(yīng)征.高超聲速快響應(yīng)PSP測(cè)量技術(shù)研究進(jìn)展[J/OL].實(shí)驗(yàn)流體力學(xué):1-10[2022-03-15].
3. 劉旭,彭迪*,劉應(yīng)征.溫敏涂料TSP熱流密度測(cè)量方法及應(yīng)用[J].氣體物理,2020,5(05):1-12.
4. 蔡濤,趙曉峰,劉應(yīng)征,彭迪*.基于磷光光學(xué)特性的熱障涂層熱力參數(shù)測(cè)量技術(shù)[J].中國(guó)材料進(jìn)展,2020,39(10):728-739.
5. 楊麗霞,付雅婷,趙曉峰,陳照峰,彭迪,牟仁德,劉德林.熱障涂層在線/離線磷光溫度測(cè)量技術(shù)研究進(jìn)展[J].航空制造技術(shù),2022,65(03):71-81.

英文SCI論文（第一/通訊作者）
Most recent
1. Cai, T., Luan, D., Fu, R., Liu, Y., Peng, D.*, Cai, W., Liu, H., 2025, “Simultaneous Temperature and Velocity Measurements Based on Novel Fluid Density-Matched Phosphorescent Microspheres,” Experiments in Fluids, under review.
2. Zhu, Z., Dong, Z., Tang, K., Li, J., Liu, Y., Peng, D.*, 2025, “A Contour Matching-Based Direct Linear Transformation Method for Reconstructing 3D Pressure Fields from Pressure-Sensitive Paint Measurements Under Limited Optical Access,” Measurement, vol.242, 115795.

2024
3. Li, M., Zhao, X., Liu, Y., Peng, D.*, Cai, W., Liu, H., 2024, “YAG:Dy co-doped with Tb for lifetime-based phosphor thermometry from room temperature to 1600 ℃,” Sensors and Actuators A: Physical, vol.379, 115890.
4. Chen, J., Liu, Y., Cao, Z., Peng, D.*, Wang, B., Liao, S., 2024, “Static pressure response model of fluorescent pressure-sensitive film for underwater surface pressure measurement,” Flow Measurement and Instrumentation, vol.99, 102677.
5. Cai, T., Fu, R., Luan, D., Liu, Y., Peng, D.*, 2024, “Three-dimensional surface temperature measurement using lifetime-based phosphor thermometry,” Measurement Science and Technology, vol.35, 105022.
6. Gu, F., Wei, C., Jiao, L., Liu, Y., Peng, D.*, 2024, “Dual-luminophore fast-responding pressure-sensitive paint for the simultaneous elimination of motion- and temperature-induced errors,” Measurement Science and Technology, vol.35, 095205.
7. Di, Y., Gu, F., Liu, Y., Peng, D.*, 2024, “A Deep-learning Image Registration Method for Pressure-sensitive Paint Measurement,” Measurement Science and Technology, vol.35, 085201.
8. Liu, X., Chen, L., Zhang, Y., Tan, H., Liu, Y., Peng, D.*, 2024, “Spanwise unsteadiness in the sidewalls-confined shock-wave/boundary-layer interaction,” Journal of Fluid Mechanics, vol.987, R6.
9. Gu, F., Discetti, S.*, Liu, Y., Cao, Z., Peng, D.*, 2024, “Denoising Image-based Experimental Data without Clean Targets based on Deep Autoencoders,” Experimental Thermal and Fluid Science, vol.156, 111195.
10. Li, M., Cai, H., Wang, P., Cheng, W., Zhang, H., Zhao, X.*, Peng, D.*, 2024, “Thermal history sensing from 1000 ℃ to 1400 ℃ based on phase transformation from Y3Al5O12 and Y4Al2O9 to YAlO3 through the intensity ratio method”, Ceramics International, vol.50, no.11, 19702-19708.
11. Jiao, L., Shi, Z., Wei, C., Ma, S., Wen, X., Liu, Y., Peng, D.*, 2024, “Fast PSP Measurements of Dynamic Stall on a Pitching Airfoil via Intensity- and Lifetime-Based Methods,” Journal of Visualization, vol.27, 333-352.
12. Liu, X., Zhuang, Y.*, Zhang, Y., Wang, G., Liu, Y., Peng, D.*, 2024, “Time-resolved heat flux determination from fast-responding temperature-sensitive paint measurement in a shock tunnel,” Measurement Science and Technology, vol.35, 035016.
13. Liu, X., Zhong, J., Dong, Z., Fan, X., Zou, D., Liu, Y., Peng, D.*, 2024, “Analysis of Large-scale Unsteadiness in the Hypersonic Lateral Jet Interaction on a Slender Cylinder Using Fast-responding Pressure-sensitive Paint,” Experimental Thermal and Fluid Science, vol.152, 111113.
14. Cheng, W., He, Z., Ni, N., Liu, Y., Peng, D.*, Zhao, X.*, 2024, “A phase transformation-phosphorescence model of europium doped yttria-stabilised zirconia and its application in two-dimensional temperature history measurement,” Journal of Luminescence, vol.266, 120281.
15. Cheng, W., Liu, Y., Peng, D.*, 2024, “Parametric study of intensity-ratio-based phosphor thermometry using Mg4FGeO6:Mn4+ for instantaneous temperature measurement,” Measurement Science and Technology, vol.35, 015204.

2023
16. Dong, Z., Gu, F., Chen, R., Yang, J., Zhou, W., Liu, Y., Peng, D.*, 2023, “Three-Dimensional Pressure Field Measurement on Turbine Guide Vanes Using a Dynamic Distortion Correction Endoscopic Pressure-Sensitive Paint Technique,” Experiments in Fluids, vol.64, 97.
17. Yuan, C., Meng, F., Liu, X., Liu, Y., Lian, H., Liu, Y., Peng, D.*, 2023, “Method of applying temperature-sensitive paint in hypersonic test with strong combustion radiation,” Acta Mechanica Sinica, vol.39, no.8, 322474.
18. Yang, L., Fu, Y., Cheng, W., Peng, D.*, Chen, Z.*, Zhao, X., Kou, Z., Liu, Y., 2023, “Europium and erbium co-doped yttria-stabilized zirconia as a potential dual-sensor for simultaneous oxygen partial pressure and temperature measurements”, Ceramics International, vol.49, no.7, 10961-10975.
19. Liu, X., Chen, Q., Zhao, K., Wang, P.*, Liu, Y., Peng, D.*, 2023, “Identification of discrete tonal noises of high-speed inclined impingement jet using Fast PSP,” AIAA Journal, vol.61, no.2, 626-639.
20. Cheng, W., Li, Y., Liu, X., Liu, Y., Peng, D.*, 2023, “Lifetime-based phosphor thermometry for global heat flux measurement in a hypersonic rarefied tunnel under strong background radiation,” Experimental Thermal and Fluid Science, vol.142, 110821.

2022
21. Gu, F., Wei, C., Liu, Y., Peng, D.*, Liang, L.*, 2022, “Temperature sensitivity elimination in sprayable fast-responding pressure-sensitive paint,” Sensors and Actuators A: Physical, vol.345, 113797.
22. Yang, L., Fu, Y., Cheng, W., Chen, Z.*,Peng, D.*, Zhao, X., Kou, Z., 2022, “Enhancement of oxygen/pressure sensing performance of Eu3+-doped YSZ phosphors via Bi3+ sensitization”, Ceramics International, vol.48, no.21, 31587-31597.
23. Li, Y., Dong, Z., Liu, Y., Peng, D.*, 2022, “A Dual-Camera Single-Shot Lifetime Method with Fully Controllable Exposure Gates for Pressure-Sensitive Paint Measurements on Fast-Rotating Surfaces,” Measurement Science and Technology, vol.33, 105203.
24. Dong, Z., Li, Y., Jiao, L., Zhang, W., Liu, Y., Peng, D.*, 2022, “Pressure-Sensitive Paint Integrated with Digital Image Correlation for Instantaneous Measurement on Fast-Rotating Blades”, Aerospace Science and Technology, vol.126, 107667.
25. Liu, X., Chen, Q., Tang, Y., Qi, L., Zhao, K., Wang, P.*, Liu, Y., Peng, D.*, 2022, “Resolving dynamic features of kHz pressure fluctuations using fast PSP: measurement of inclined jet impingement,” Experiments in Fluids, vol.63, 72.
26. Wei, C., Jiao, L., Tong, Fan., Chen, Z., Liu, Y., Peng, D.*, 2022, “Pressure field measurements on large scale propeller blades using pressure-sensitive paint,” Acta Mechanica Sinica, vol.38, 121366.
27. Liu, X., Zhang, L., He, M.*, Liu, Y., Peng, D.*, 2022, “Three-dimensional low frequency unsteadiness of a sidewalls-confined compression shock wave/boundary layer interaction: global time-resolved measurement using fast pressure-sensitive paint,” Experimental Thermal and Fluid Science, vol.134, 110599.
28. Yang, L., Zhong, B., Kou, Z., Peng, D.*, Chen, Z.*, Yu, M., Zhao, X., 2022, “Concentration effect on the ‘oxygen quenching’ of EuxY0.08-xZr0.92O1.96 and DyxY0.08-xZr0.92O1.96 phosphors”, Journal of the American Ceramic Society, vol.105, no.1, 428-440.

2021
29. Zhou, B., Gu, F., Liu, Y., Peng, D.*, 2021, “Signal Enhancement of Pressure-Sensitive Film Based on Localized Surface Plasmon Resonance”, Sensors, vol.21, no.22, 7627.
30. Liu, X., Gu, F., Liu, Y., Peng, D.*, 2021, “Pressure sensitivity of a ruthenium complex based temperature-sensitive paint and its effect on heat flux determination in high-speed flows,” Measurement Science and Technology, vol.32, 084016.
31. Li, Y., Dong, Z., Liang, L.*, Liu, Y., Peng, D.*, 2021, “Simultaneous 3D Surface Profile and Pressure Measurement Using Phase-Shift Profilometry and Pressure-Sensitive Paint,” Review of Scientific Instruments, vol.92, 035107.
32. Chen, J., Liu, Y., Cao, Z., Peng, D.*, 2021, “Pressure field measurements using bio-inspired pressure-sensitive film with adjustable sensitivity and range”, Experiments in Fluids, vol.62, 51.
33. Peng, D., Liu, X., Jiao, L., Li, Z., Wen, X., Yuan, C.*, Han, G., Liu, Y., Liu, Y.*, Jiang, Z., 2021, “Noise Reduction Method for Temperature-Sensitive Paint Measurement Contaminated by Strong Background Radiation in a High Enthalpy Hypersonic Tunnel,” Acta Mechanica Sinica, vol.37, no.1, 20-26.
34. Peng, D., Gu, F., Zhong, Z., Liu, Y.*, 2021, “Thermal Stability Improvement of Sprayable Fast-Responding Pressure-Sensitive Paint for Measurement above 100℃,” Chinese Journal of Aeronautics, vol.34, no.1, 320-326.
35. Chen, W., Liu, Y., Wang, W., Zhao, X., Peng, D.*, 2021, “Interface detection from laser drilling of air plasma sprayed thermal barrier coatings by laser-induced breakdown spectroscopy”, Optics and Lasers in Engineering, vol.137, 106351.

2020
36. Li, X., Liu, X., Liu, Y., Peng, D.*, 2020, “Experimental Study of Near-Wall Underexpanded Jet Impingement on a Flat Plate Using Semi-Transparent Pressure-Sensitive Paint,” Experiments in Fluids, vol.61, 232.
37. Liu, X., Shao, H., Zhou, W., Liu, Y., Peng, D.*, 2020, “Apparent temperature in temperature-sensitive paint measurement and its effect on heat flux determination in hypersonic flow,” Measurement Science and Technology, vol.31, no.12, 125302.
38. Cai, T., Guo, S., Li, Y., Peng, D.*, Zhao, X.*, Wang, W., Liu, Y., 2020, “Ultra-Sensitive Mechanoluminescent Ceramic Sensor based on Air-Plasma-Sprayed SrAl2O4:Eu2+, Dy3+ Coating,” Sensors and Actuators A: Physical, vol.315, 112246.
39. Peng, D., Xie, F., Liu, X., Lin, J.*, Li, Y., Zhong, J., Zhang, Q., Liu, Y.*, 2020, “Experimental Study on Hypersonic Shock-Body Interaction between Bodies in Close Proximity Using Translucent Fast Pressure- and Temperature-Sensitive Paints,” Experiments in Fluids, vol.61, 120.
40. Jiao, L., Liu, X., Shi, Z. *, Zhang, W., Liang, L., Chen, X., Zhao, Q., Peng, D.*, Liu, Y., 2020, “A two-dimensional temperature correction method for pressure-sensitive paint measurement on helicopter rotor blades”, Experiments in Fluids, vol.61, 104.
41. Chen, J., Liu, Y., Peng, D.*, 2020, “A bio-inspired functional film embedded with fluorescent elastic microspheres for pressure sensing”, Applied Physics Letters, vol.116, 123701.
42. Li, Y., Cai, T., Yang, L., Peng, D.*, Zhao, X., Liu, Y., 2020, “Effect of Oxygen Partial Pressure on Phosphorescence for Different Lanthanide Ions Ln3+ Doped Yttria-Stabilized Zirconia”, Sensors and Actuators B: Chemical, vol.308, 127666.
43. Dong, Z., Liang, L., Zhang, W.*, Jiao, L., Peng, D.*, Liu, Y., 2020, “Simultaneous Pressure and Deformation Field Measurement on Helicopter Rotor Blades using a Grid-Pattern Pressure-Sensitive Paint System”, Measurement, vol.152, 107359.
44. Peng, D., Liu, Y.*, 2020, “Fast Pressure-Sensitive Paint for Understanding Complex Flows: From Regular to Harsh Environments”, Experiments in Fluids (Invited Review), vol.61, 8.
45. Li, X., Liu, Y., Peng, D.*, 2020, “Suppression of thermal quenching in fast-responding pressure-sensitive paint by restricting lattice relaxation of luminescent molecules”, Journal of Luminescence, vol.217, 116803.

2019
46. Zhou, W., Yuan, L., Wen, X., Liu, Y., Peng, D.*, 2019, “Enhanced impingement cooling of a circular jet using a piezoelectric fan,” Applied Thermal Engineering, vol.160, 114067.
47. Guo, S., Cai, T., Zhao, X. *, Peng, D.*, Xiao, P., Wang, W., Liu, Y., 2019, “Generalization of the quantitative stress-intensity relationship of mechanoluminescent sensor SrAl2O4:Eu2+,Dy3+ in elastic domain”, Measurement Science and Technology, vol.30, no.7.
48. Jiao, L., Chen, Y., Wen, X., Peng, D.*, Liu, Y., Gregory, J.W., 2019, “Resolving Vortex-Induced Pressure Fluctuations on a Cylinder in Rotor Wake Using Fast-Responding Pressure-Sensitive Paint”, Physics of Fluids, vol.31, no.5.
49. Peng, D., Zhong, Z., Gu, F., Zhou, W., Qi, F., Liu, Y.*, 2019, “Pressure-Sensitive Paint with Imprinted Pattern for Full-Field Endoscopic Measurements Using a Color Camera”, Sensors and Actuators A: Physical, vol.290, pp.28-35.
50. Cai, T., Li, Y., Guo, D., Peng, D.*, Zhao, X., Liu, Y., 2019, “Pressure Effect on Phosphor Thermometry Using Mg4FGeO6:Mn,” Measurement Science and Technology, vol.30, no.2.
51. Zhou, W., Qenawy, M., Liu, Y., Wen, X., Peng, D.*, 2019, “Influence of mainstream flow oscillations on spatio-temporal variation of adiabatic film cooling effectiveness,” International Journal of Heat and Mass Transfer, vol.129, pp.569-579.

2018
52. Zhou, W., Chen, H., Liu, Y., Wen, X., Peng, D.*, 2018, “Unsteady analysis of adiabatic film cooling effectiveness for discrete hole with oscillating mainstream flow,” Physics of Fluids, vol.30, no.12.
53. Wen, X., Liu, Y., Li, Z., Chen, Y., Peng, D.*, 2018, “Data mining of a clean signal from highly noisy data based on compressed data fusion: a fast-responding pressure-sensitive paint application,” Physics of Fluids, vol.30, no.9.
54. Peng, D., Zhong, Z., Cao, T., Guo, S., Zhao, X., Liu, Y.*, 2018, “Integration of Pressure-Sensitive Paint with Persistent Phosphor: A Light-Charged Pressure-Sensing System,” Review of Scientific Instruments, vol.89, no.8.
55. Peng, D., Gu, F., Li, Y., Liu, Y.*, 2018, “A Novel Sprayable Fast-Responding Pressure-Sensitive Paint Based on Mesoporous Silicone Dioxide Particles,” Sensors and Actuators A: Physical, vol.279, pp.390-398.
56. Jiao, L., Peng, D.*, Liu, Y., 2018,”Dynamic Response of Polymer Ceramic Pressure-Sensitive Paint: Improved Model Considering Thickness Effect,” AIAA Journal, vol.56, no.7, pp.2903-2906.
57. Cai, T., Guo, S., Li, Y., Peng, D.*, Zhao, X.*, Liu, Y., 2018, “Quantitative Stress Measurement of Elastic Deformation Using Mechanoluminescent Sensor: An Intensity Ratio Model,” Review of Scientific Instruments, vol.89, no.4.
58. Peng, D., Chen, J., Jiao, L., Liu, Y.*, 2018, “A Fast-Responding Semi-Transparent Pressure-Sensitive Paint Based on Through-Hole Anodized Aluminum Oxide Membrane,” Sensors and Actuators A: Physical, vol.274, pp.10-18.
59. Peng, D., Chen, J., Yu, Y., Jiao, L., Liu, Y.*, 2018, “A Novel Laminated OLED-PSP System for Measurement on Moving Surfaces,” Journal of Visualization, vol.21, no.2, pp.215-223.
60. Yang, L., Peng, D.*, Xiao, S., Guo, F., Liu, Y., Zhao, X. *, Xiao, P., 2018, “Oxygen Quenching in Eu-based Thermographic Phosphors: Mechanism and Potential Application in Oxygen/Pressure Sensing,” Sensors and Actuators B: Chemical, vol.254, pp.578-587.

Prior to 2018
61. Peng, D., Jiao, L., Yu, Y., Liu, Y.*, Oshio, T., Kawakubo, T., Yakushiji, A., 2017, “Single-Shot Lifetime-Based PSP and TSP Measurements on Turbocharger Compressor Blades,” Experiments in Fluids, vol.58, no.9.
62. Peng, D. *, Gregory, J.W., 2017, “Asymmetric Distributions in Pressure/Load Fluctuation Levels during Blade-Vortex Interactions,” Journal of Fluids and Structures, vol.68, pp.58-71.
63. Peng, D., Jiao, L., Sun, Z., Gu, Y., Liu, Y. *, 2016, “Simultaneous PSP and TSP Measurements of Transient Flow in a Long-Duration Hypersonic Tunnel,” Experiments in Fluids, vol.57, no.12.
64. Peng, D., Yang, L., Cai, T., Liu, Y.*, Zhao, X., Yao, Z., 2016, “Phosphor-Doped Thermal Barrier Coatings Deposited by Air Plasma Spray for In-Depth Temperature Sensing,” Sensors, vol. 16, no. 10, 1490.
65. Peng, D., Liu, Y. *, Zhao, X., Kim, K.C., 2016, “Comparison of Lifetime-Based Methods for Two-Dimensional Phosphor Thermometry in High-Temperature Environment,” Measurement Science and Technology, vol. 27, no. 9, 095201.
66. Peng, D., Wang, S., Liu, Y. *, 2016, “Fast PSP Measurements of Wall-Pressure Fluctuation in Low Speed Flows: Improvements Using Proper Orthogonal Decomposition,” Experiments in Fluids, vol.57, no.4, 45
67. Peng, D., Liu, Y. *, 2016, “Grid-Pattern PSP/TSP System for Simultaneous Pressure and Temperature Measurements,” Sensors and Actuators B: Chemical, vol.222, pp.141-150.
68. Peng, D. *, Gregory, J.W., 2015, “Vortex Dynamics during Blade-Vortex Interactions,” Physics of Fluids, vol.27, no.5.
69. Peng, D., Jensen, C.D., Juliano, T.J., Gregory, J.W., Crafton, J.W., Palluconi, S., 2013, “Temperature-Compensated Fast Pressure-Sensitive Paint,” AIAA Journal, vol. 51, no. 10, pp. 2420-2431.

已授權(quán)發(fā)明專利：
李永增，王宗浩，董哲，彭迪，劉應(yīng)征，運(yùn)動(dòng)模型表面壓力與三維形貌同步測(cè)量方法及測(cè)量裝置，中國(guó)，ZL202111632037.2
周文武，張栩，彭迪，劉應(yīng)征，邵弘毅，一種氣膜冷卻孔型結(jié)構(gòu)，中國(guó)，ZL202011157135.0
周文武，俞博洋，張栩，彭迪，劉應(yīng)征，一種用于抑制通道渦的渦輪葉片，中國(guó)，ZL202011155776.2
魏春華，李永增，梁磊，姜裕標(biāo)，彭迪，模型三維表面輪廓和表面壓力同步測(cè)量方法及測(cè)量裝置，中國(guó)，ZL202011274682.7
彭迪，陳佳偉，劉應(yīng)征，一種基于壓力敏感薄膜的流體壓力測(cè)量系統(tǒng)及方法，中國(guó)，ZL201910610080.X
彭迪，蔡濤，楊麗霞，劉應(yīng)征，趙曉峰，一種溫度壓力聯(lián)合測(cè)量系統(tǒng)及測(cè)量方法，中國(guó)，ZL201710706867.2
彭迪，谷豐，劉應(yīng)征，基于壓敏熒光粒子光強(qiáng)測(cè)量的空間流體速度壓力同步測(cè)量系統(tǒng)，中國(guó)，ZL201710731030.3
郝巍，趙曉峰，彭迪，肖平，郭芳威，王欣，張啟輝，郭松濤，吳彬斌，一種溫度敏感型Y2SiO5:Eu智能熱障涂層的制備方法及其應(yīng)用，中國(guó)，ZL201610485194.8
楊麗霞，趙曉峰，郭芳威，彭迪，劉應(yīng)征，周新義，肖平，基于YAG：Dy熒光壽命測(cè)量的溫度測(cè)量系統(tǒng)及其測(cè)試方法與應(yīng)用，中國(guó)，ZL201610910564.8
楊麗霞，趙曉峰，郭芳威，彭迪，劉應(yīng)征，周新義，肖平，基于YSZ：Re熒光壽命測(cè)量的溫度測(cè)量系統(tǒng)及其測(cè)試方法與應(yīng)用，中國(guó)，ZL201610910520.5