Ping Guo

Assistant Professor, Mechanical Engineering
Mechanical Engineering PhD Program

Phone847/491-4029
Emailping.guo@northwestern.edu

641 Citations

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Personal profile

Research Interests

My main research is in the area of advanced manufacturing, including micro/nano-manufacturing, additive manufacturing, and precision engineering. The research combines multi-disciplinary expertise in mechatronics, solid mechanics, dynamics and control, etc. The main thread of my current research is to utilize non-traditional physical principles to develop new and enhanced manufacturing processes and equipment.

Examples of my current research include: (1) fast structural coloration of metallic surfaces using modulation machining; (2) non-contact manipulation and actuators based on near-field acoustic levitation; (3) µ-3D printing using near-field electrospinning.

Education/Academic qualification

Mechanical Engineering, PhD, Northwestern University

Automotive Engineering, BS, Tsinghua University

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1 Similar Profiles

Texturing Engineering & Materials Science

Ultrasonics Engineering & Materials Science

Machining Engineering & Materials Science

Vibrations (mechanical) Engineering & Materials Science

3D printers Engineering & Materials Science

Trajectories Engineering & Materials Science

Electrospinning Engineering & Materials Science

Brittleness Engineering & Materials Science

Network Recent external collaboration on country level. Dive into details by clicking on the dots.

Research Output 2008 2020

641 Citations
32 Article
12 Conference contribution
3 Conference article
3 Review article
2 More
- 2 Paper

1 Citation (Scopus)

Design and trajectory tracking of a nanometric ultra-fast tool servo

Zhu, Z., Du, H., Zhou, R., Huang, P., Zhu, W. L. & Guo, P., Jan 1 2020, In : IEEE Transactions on Industrial Electronics. 67, 1, p. 432-441 10 p., 8635531.

Research output: Contribution to journal › Article

Trajectories

Hinges

Kinematics

Stiffness

Finite element method

A novel realization of diffractive optically variable devices using ultrasonic modulation cutting

Guo, P. & Yang, Y., Jan 1 2019, In : CIRP Annals. 68, 1, p. 575-578 4 p.

Research output: Contribution to journal › Article

Ultrasonic devices

Modulation

Diffraction efficiency

Diffraction gratings

Analytical models

3 Citations (Scopus)

A novel strategy to fabricate thin 316L stainless steel rods by continuous directed energy deposition in Z direction

Weng, F., Gao, S., Jiang, J., Wang, J. J. & Guo, P., May 1 2019, In : Additive Manufacturing. 27, p. 474-481 8 p.

Research output: Contribution to journal › Article

Stainless Steel

Stainless steel

Powders

Microstructure

Lasers

A support interface method for easy part removal in directed energy deposition

Jiang, J., Weng, F., Gao, S., Stringer, J., Xu, X. & Guo, P., Apr 1 2019, In : Manufacturing Letters. 20, p. 30-33 4 p.

Research output: Contribution to journal › Article

Electric discharge machining

Struts

Machining

Automation

Wire

Friction reduction performance of microstructured surfaces generated by nonresonant modulation cutting

Yeung, C. S., Yang, Y., Du, H., Wang, J. & Guo, P., Jun 1 2019, In : Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. 233, 12, p. 4120-4127 8 p.

Research output: Contribution to journal › Article

Modulation

Friction

Contacts (fluid mechanics)

Trajectories

Texturing