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Jianjian WANG

Associate Professor

Institute of Manufacturing Engineering Lee Shau Kee Science and Technology Building, Room A426, Tsinghua University, Beijing 100084, China

Tel.: +010-62798356

E-mail: wangjjthu@tsinghua.edu.cn

Education Background

Ph.D., Mechanical Engineering, Tsinghua University, 2017

M.S., Instrument and Meter Engineering, Tsinghua University, 2014

B.S., Mechanical Engineering, Shandong University, 2011


Experience

Feb. 2021 – Present, Department of Mechanical Engineering, Tsinghua University, Assistant Professor

Aug. 2020 – Jan. 2021, Institute of Production Science, Karlsruhe Institute of Technology, Humboldt Research Fellow

Nov. 2019 – July. 2020, Department of Mechanical Engineering, Northwestern University, Postdoctoral Research Fellow

Oct. 2017 – Oct. 2019, Department of Mechanical and Automation Engineering, The Chinese University of Hong Kong, Postdoctoral Research Fellow


Areas of Research Interests/ Research Projects

High-performance ultrasonic vibration assisted machining process and equipment

Micro/nano machining of bio-inspired functional structures

Design and application of acoustic metamaterials


Honors and Awards

Alexander von Humboldt Research Fellowship, 2019

Excellent Ph.D. Thesis at Tsinghua University, 2018

Excellent Master Thesis at Tsinghua University, 2014


Academic Achievement

[1] Pang Y, Feng P, Wang J, et al. Performance analysis of the longitudinal-torsional ultrasonic milling of Ti-6Al-4V[J]. The International Journal of Advanced Manufacturing Technology. 2021: 1-12.

[2] Wang J, Liao W, Guo P. Modulated ultrasonic elliptical vibration cutting for ductile-regime texturing of brittle materials with 2-D combined resonant and non-resonant vibrations[J]. International Journal of Mechanical Sciences. 2020, 170: 105347.

[3] Wang J, Wang Y, Yang Y, et al. Fabrication of structurally colored basso-relievo with modulated elliptical vibration texturing[J]. Precision Engineering. 2020, 64: 113-121.

[4] Wang J, Yang Y, Zhu Z, et al. On ductile-regime elliptical vibration cutting of silicon with identifying the lower bound of practicable nominal cutting velocity[J]. Journal of Materials Processing Technology. 2020: 116720.

[5] Wang Y, Wang J, Chen A, et al. Structural coloration using face turning and variable tool vibration frequency[J]. Journal of Manufacturing Processes. 2020, 56: 1392-1396.

[6] Wang J, Yang R, Gao S, et al. Modulated vibration texturing of hierarchical microchannels with controllable profiles and orientations[J]. CIRP Journal of Manufacturing Science and Technology. 2020, 30: 58-67.

[7] Wang J, Yang Y, Yang R, et al. On the validity of compliance-based matrix method in output compliance modeling of flexure-hinge mechanism[J]. Precision Engineering. 2019, 56: 485-495.

[8] Wang J, Du H, Gao S, et al. An ultrafast 2-D non-resonant cutting tool for texturing micro-structured surfaces[J]. Journal of Manufacturing Processes. 2019, 48: 86-97.

[9] Wang J, Zhang J, Feng P, et al. Damage formation and suppression in rotary ultrasonic machining of hard and brittle materials: a critical review[J]. Ceramics International. 2018, 44(2): 1227-1239.

[10] Wang J, Zhang J, Feng P, et al. Experimental and theoretical investigation on critical cutting force in rotary ultrasonic drilling of brittle materials and composites[J]. International Journal of Mechanical Sciences. 2018, 135: 555-564.

[11] Wang J, Zhang J, Feng P, et al. Feasibility study of longitudinal–torsional-coupled rotary ultrasonic machining of brittle material[J]. Journal of Manufacturing Science and Engineering. 2018, 140(5).

[12] Wang J, Feng P, Zhang J. Reducing edge chipping defect in rotary ultrasonic machining of optical glass by compound step-taper tool[J]. Journal of Manufacturing Processes. 2018, 32: 213-221.

[13] Wang J, Feng P, Zhang J, et al. Experimental study on vibration stability in rotary ultrasonic machining of ceramic matrix composites: cutting force variation at hole entrance[J]. Ceramics International. 2018, 44(12): 14386-14392.

[14] Wang J, Feng P, Zhang J, et al. Reducing cutting force in rotary ultrasonic drilling of ceramic matrix composites with longitudinal-torsional coupled vibration[J]. Manufacturing letters. 2018, 18: 1-5.

[15] Wang J, Yang Y, Guo P. Effects of vibration trajectory on ductile-to-brittle transition in vibration cutting of single crystal silicon using a non-resonant tool[J]. Procedia Cirp. 2018, 71: 289-292.

[16] Feng P, Wang J, Zhang J, et al. Drilling induced tearing defects in rotary ultrasonic machining of C/SiC composites[J]. Ceramics International. 2017, 43(1): 791-799.

[17] Wang J, Feng P, Zhang J, et al. Investigations on the critical feed rate guaranteeing the effectiveness of rotary ultrasonic machining[J]. Ultrasonics. 2017, 74: 81-88.

[18] Wang J, Feng P, Zha T. Process monitoring in precision cylindrical traverse grinding of slender bar using acoustic emission technology[J]. Journal of Mechanical Science and Technology. 2017, 31(2): 859-864.

[19] Wang J, Feng P, Zhang J, et al. Experimental investigation on the effects of thermomechanical loading on the vibrational stability during rotary ultrasonic machining[J]. Machining Science and Technology. 2017, 21(2): 239-256.

[20] Wang J, Zhang J, Feng P. Effects of tool vibration on fiber fracture in rotary ultrasonic machining of C/SiC ceramic matrix composites[J]. Composites Part B: Engineering. 2017, 129: 233-242.

[21] Feng P, Wang J, Zhang J, et al. Research status and future prospects of rotary ultrasonic machining of hard and brittle materials[J]. J. Mech. Eng. 2017, 53: 3-21.

[22] Wang J, Zhang C, Feng P, et al. A model for prediction of subsurface damage in rotary ultrasonic face milling of optical K9 glass[J]. The International Journal of Advanced Manufacturing Technology. 2016, 83(1-4): 347-355.

[23] Wang J, Feng P, Zhang J, et al. Modeling the dependency of edge chipping size on the material properties and cutting force for rotary ultrasonic drilling of brittle materials[J]. International Journal of Machine Tools and Manufacture. 2016, 101: 18-27.

[24] Wang J, Zha H, Feng P, et al. On the mechanism of edge chipping reduction in rotary ultrasonic drilling: a novel experimental method[J]. Precision Engineering. 2016, 44: 231-235.

[25] Wang J, Feng P, Zheng J, et al. Improving hole exit quality in rotary ultrasonic machining of ceramic matrix composites using a compound step-taper drill[J]. Ceramics International. 2016, 42(12): 13387-13394.

[26] Wang J, Feng P, Zhang J. Investigations on the edge-chipping reduction in rotary ultrasonic machining using a conical drill[J]. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture. 2016, 230(7): 1254-1263.

[27] Wang J, Feng P, Zhang J. Reduction of edge chipping in rotary ultrasonic machining by using step drill: a feasibility study[J]. The International Journal of Advanced Manufacturing Technology. 2016, 87(9): 2809-2819.


Contact Us

010-62772677

mayue@tsinghua.edu.cn

A401, Department of Mechanical Engineering, Tsinghua University, Wudaokou, Haidian District, Beijing(School Map)

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