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Journal Publications:

 

  1. Liu Y, Liu Y, Zheng Y, Shih AJ (2019) Cutting of blood clots - experiment and smooth particle hydrodynamics modelling. CIRP Annals-Manufacturing Technology (In press).

  2. Zheng Y, Liu Y, Liu Y, Shih AJ (2019) Multi-grain smoothed particle hydrodynamics and Hertzian contact modeling of the grinding force in atherectomy. ASME Journal of Manufacturing Science and Engineering. 141 (4): 041015.

  3. Zheng Y, Liu Y, Pitre JJ, Bull JL, Gurm HS, Shih AJ (2018) Computational fluid dynamics modeling of the burr orbital motion in rotational atherectomy with particle image velocimetry validation. Annals of Biomedical Engineering. 46(4): 567-578.

  4. Tai B, Kao Y, Payne N, Zheng Y, Chen L, Shih AJ (2018) 3D printed composite for simulating thermal and mechanical responses of the cortical bone in orthopaedic surgery. Medical Engineering & Physics. (Online first)

  5. Liu Y, Li B, Wu C, Kong L, Zheng Y (2018) Smoothed particle hydrodynamics simulation and experimental analysis of SiC ceramic grinding mechanism. Ceramics International. 44 (11): 12194-12203.

  6. Liu Y, Li B, Kong L, Liu Y, Zheng Y (2018) Experimental and modeling study of temperature in calcified plaque grinding. The International Journal of Advanced Manufacturing Technology. 1-9.

  7. Dai J, Su H, Zhang Q, Yu T, Zhou W, Ding W, Zheng Y (2018) Finite element implementation of the tension-shear coupled fracture criterion for numerical simulations of brittle-ductile transition in silicon carbide ceramic grinding process. International Journal of Mechanical Sciences 146-147:211-220.

  8. Zhu Z, Guo K, Sun J, Li J, Liu Y, Zheng Y, Chen L (2018) Evaluation of novel tool geometries in dry drilling aluminium 2024-T351/titanium Ti6Al4V stack. Journal of Materials Processing Technology. 259:270-281.

  9. Zhu Z, Guo K, Sun J, Li J, Liu Y, Chen L, Zheng Y (2018) Evolution of 3D chip morphology and phase transformation in dry drilling Ti6Al4V alloys. Journal of Manufacturing Processes. 34: 531-539.

  10. Zhou W, Su H, Dai J, Yu T, Zheng Y. (2018) Numerical investigation on the influence of cutting-edge radius and grinding wheel speed on chip formation in SiC grinding. Ceramics International. Online first.

  11. Liu Y, Li B, Zheng Y, Shih A (2017) Experiment and smooth particle hydrodynamics simulation of debris size in grinding of calcified plaque in atherectomy, CIRP Annals-Manufacturing Technology. 66(1): 325-238.

  12. Dai J, Su H, Hu H, Yu T, Zhou W, Ding W, Ji S, Zheng Y (2017) The influence of grain geometry and wear conditions on the material removal mechanism in silicon carbide grinding with single grain, Ceramics International. 43(15): 11973-11980.

  13. Zheng Y, Wang Y, Chen RK, Deshpande S, Nelson NS, Buchman SR, Shih AJ (2017) Tissue transformation mold design and stereolithography fabrication, Rapid Prototyping Journal. 23(1): 162-168

  14. Zheng Y, Belmont B, Shih A (2016) Experimental investigation of the abrasive crown dynamics in orbital atherectomy, Medical Engineering and Physics. 38(7): 639-647.

  15. Shih A, Liu Y, Zheng Y (2016) Grinding wheel motion, force, temperature, and material removal in rotational atherectomy of calcified plaque, CIRP Annals-Manufacturing Technology. 65: 345-348.

  16. Liu Y, Li B, Wu C, Zheng Y (2016) Simulation-based evaluation of surface micro-cracks and fracture toughness in high-speed grinding of silicon carbide ceramics. International Journal of Advanced Manufacturing Technology. 86(1): 799–808

  17. Liu Y, Liu Y, Zheng Y, Li B, Shih AJ (2018) Catheter Heat Generation and Temperature in Rotational Atherectomy. Medical Engineering and Physics. (Under Revision)

 

Conference Proceedings:

 

  1. Zheng Y, Lyu J, Liu Y, Lo J, Susamaz A, Gurm HS, Shih AJ (2018) Grinding wheel motion and force during plaque removal by rotational atherectomy in angulated coronary artery. ASME International Manufacturing Science and Engineering Conference, MSEC 2018.

  2. Liu Y, Li B, Zheng Y (2018) Investigation of high-speed nanogrinding mechanism based on molecular dynamics. ASME International Manufacturing Science and Engineering Conference, MSEC 2018.

  3. Liu Y, Zheng Y, Pitre J, Weitzel W, Bull J, Shih, A (2017) Manufacturing and computational fluid dynamics modeling of a patient-specific fistula model. In: Proc. of the ASME 2017 International Manufacturing Science and Engineering Conference, MSEC 2017.

  4. Zheng Y, Liu Y, Liu Y, Shih A (2016) Experimental investigation of the grinding force in rotational atherectomy. Procedia Manufacturing. 5: 838-848.

  5. Shih A, Tai B, Chen R, Chen L, Zheng Y, Wang Y (2016) Video enriched pedagogy in manufacturing processes. Procedia Manufacturing. 5: 1154-1167.

  6. Liu Y, Li B, Zheng Y, Shih A (2016) Experimental investigation of the speed effect on debris size and surface topography in atherectomy. International Conference on Micromanufacturing, Irvine, CA.

  7. Akingba AG, Zheng Y, Fajardo A, Murphy M, Kohler R (2016) Experimental analysis of the mechanisms involved in arterial plaque compliance change after orbital atherectomy. Journal of Vascular Surgery, 63(6): 124S.

  8. Zheng Y, Belmont B, Shih A (2015) Experimental investigation of the grinding wheel dynamics in atherectomy. Procedia Manufacturing 1: 879-891.

  9. Zheng Y, Ye X (2012) Suture density study of the bioprosthetic heart valve. Applied Mechanics and Materials. 157-158:935-939.

 

Patents:

 

  1. Kholer RE, Martinsen BJ, Yang XY, Zheng Y, Shih AJ, Deokar R, Methods and systems for disrupting calcified walls of biological conduits and calcified lesions therein. US20160242805 A1. (Pending)

  2. Gurm HS, Shih AJ, Zheng Y, Liu Y, Liu Y Two-phase technique to restore artery patency and a catheter temperature control system in atherectomy. PCT/US2017/057022. (Pending)

  3. Savastano LE, Plot JS, Liu Y, Zheng Y, Shih AJ. Hyrodynamic vortex aspiration catheter. PCT/US2018/026831 (Pending).

  4. Gurm HS, Chisena R, Hildner M, Zheng Y, Shih AJ. System of effecting oscillatory pressure, specialized balloon catheters for oscillatory pressure, and various indications for use. U.S. Provisional Application No.: 62/656,699.

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