Selected Publications
Publications listed according to major research directions in chronological order:
• Embedded metrology oriented freeform machining
[1] Kumar, S., Tong, Z.*, Jiang, X., (2022), Advances in the design and manufacturing of novel freeform optics, International Journal of Extreme Manufacturing, 4 032004.
[2] Tong, Z., Zhong, W., Zeng, W., & Jiang, X. (2021), Closed-loop form error measurement and compensation for FTS freeform machining. CIRP Annals, 70(1): 455-458.
[3] Zhong, W., Tong, Z., & Jiang, X. (2021). Integration of On-machine Surface Measurement into Fast Tool Servo Machining. Procedia CIRP, 101, 238-241.
[4] Geng, Z., Tong, Z., & Jiang, X. (2021). Review of geometric error measurement and compensation techniques of ultra-precision machine tools. Light: Advanced Manufacturing, 2(2), 211-227.
[5] Tong, Z., Zhong, W., To, S., Zeng, W., (2020) Fast-tool-servo micro-grooving freeform surfaces with embedded metrology, CIRP Annals Volume 69, Issue 1, 505-508.
[6] Zhong, W., Tong, Z., Chen, W. & Jiang, X., (2019) Development of an adaptive toolpath planning strategy for diamond face turning of freeform surface. 19th International Conference and Exhibition, EUSPEN 2019. p. 126-127.
[7] Zhu, Z., Tong, Z., To, S., Jiang, X., (2019) Tuned diamond turning of micro-structured surfaces on brittle materials for the improvement of machining efficiency, CIRP Annals, 68(1): 559-562.
[8] Jiang, X., Tong, Z., Li, D., (2019) On-Machine Measurement System and Its Application in Ultra-Precision Manufacturing, In Book: Precision Machines, DOI: 10.1007/978-981-10-5192-0_16-1.
[9] Li, D., Jiang X., Tong, Z., Blunt, L., (2019) Development and Application of Interferometric On-Machine Surface Measurement for Ultraprecision Turning Process, J. Manuf. Sci. Eng. 141(1): 014502.
[10] Li, D., Wang, B., Tong, Z., Blunt, L., Jiang, X., (2019) On-machine surface measurement and applications for ultra-precision machining: a state-of-the-art review, The International Journal of Advanced Manufacturing Technology, 104:831–847.
[11] Li, D., Tong, Z., Jiang, X., Blunt, L., (2018) Calibration of an interferometric on-machine probing system on an ultra-precision turning machine, Measurement, 118:96–104.
[12] Li, D., Jiang, X., Tong, Z., & Blunt, L., (2018) Kinematics error compensation for a surface measurement probe on an ultra-precision turning machine. Micromachines, 9(7), 334.
• Micro/nanomanufacturing technologies
[13] Geng, Z., Tong, Z., Huang, G., Zhong, W., Cui, C., Xu, X., & Jiang, X. (2022). Micro-grooving of brittle materials using textured diamond grinding wheels shaped by an integrated nanosecond laser system. The International Journal of Advanced Manufacturing Technology, 1-11.
[14] Tong, Z., Zeng, W., Zhong, W., & Jiang, X., (2021), A closed-loop feature-based FTS patterning and characterisation of functional structured surfaces, Surface Topography: Metrology and Properties9: 025012.
[15] Zhu, Z., To, S., Tong, Z., & Jiang, X., (2019) Modulated diamond cutting for the generation of complicated micro/nanofluidic channels. Precision Engineering, 56, 136-142.
[16] Zeng, S., Tong, Z., Blunt, L., (2019) Polishing Technologies and Their Applications in Artificial Implants, In Book: Metrology, DOI: 10.1007/978-981-10-5192-0_17-1.
[17] Chen, W., Tong, Z., Huo, D., Jiang, X. (2019) A virtual system for machine tool design considering the interaction between manufacturing processes and machine tool dynamics, The 22nd International Symposium on Advances in Abrasive Technology, Shenzhen China, 6-9 December 2019.
[18] Luo, X., Tong, Z., (2018) Nano-grooving by Using Multi-tip Diamond Tools, In: Yan J. (eds) Micro and Nano Fabrication Technology, Micro/Nano Technologies, Springer, Singapore, 1:1–44.
[19] Tong, Z., Luo, X., Sun, J., Liang, Y., Jiang, X., (2015) Investigation of a scale-up manufacturing approach for nanostructures by using a nanoscale multi-tip diamond tool, The International Journal of Advanced Manufacturing Technology, 80(1-4):699–710.
• Computational modelling and simulation
[20] Zhang, Z., Tong, Z., & Jiang, X. (2022). Development of the Concurrent Multiscale Discrete-Continuum Model and Its Application in Plasticity Size Effect. Crystals, 12(3), 329.
[21] Bai, J., & Tong, Z. (2022), A dislocation density-based multiscale cutting model for ultra-precision machining of AISI 4140 steel, Proceedings of the 22nd International Conference and Exhibition of the European Society for Precision Engineering and Nanotechnology, 543-544.
[22] Bai, J., & Tong, Z. (2021), A novel multiscale material plasticity simulation model for high-performance cutting AISI 4140 steel. The International Journal of Advanced Manufacturing Technology, 116(11), 3891-3904.
[23] Lu, S., Wang, X., and Tong, Z. et al., (2020) Finite element investigation on the wave-particle interactions in ultrasonic inspection of SiCp/Al composites, Materials Research Express 7, no. 3: 036534.
[24] Chen, W., Tong, Z., Huo, D., Zhong, W., Jiang, X., (2019) A forward closed-loop virtual simulation system for milling process considering dynamics processing-machine interactions, The International Journal of Advanced Manufacturing Technology, 104:2317–2328.
[25] Bai, J., Bai, Q., Tong, Z., (2018) Experimental and multiscale numerical investigation of wear mechanism and cutting performance of polycrystalline diamond tools in micro-end milling of titanium alloy Ti-6Al-4V, International Journal of Refractory Metals and Hard Materials, 74: 40–51.
[26] J Bai, J., Bai, Q., Tong, Z., Guo, H., (2018) Theoretical model for subsurface microstructure prediction in micro-machining Ti-6Al-4V alloy - Experimental validation, International Journal of Mechanical Sciences, 148 64-72.
[27] Bai, J., Bai, Q., Tong, Z., Chen, G., (2018) The influence of cutting parameters on the defect structure of subsurface in orthogonal cutting of titanium alloy, Journal of Materials Research. 33(6): 720–732.
[28] Bai, J., Bai, Q., Tong, Z., (2017) Multiscale Analyses of Surface Failure Mechanism of Single-Crystal Silicon during Micro-Milling Process, Materials, 10(12):1424.
[29] Bai, J., Bai, Q., Tong, Z., (2017) Dislocation Dynamics-Based Modelling and Simulations of Subsurface Damages Microstructure of Orthogonal Cutting of Titanium Alloy, Micromachines. 8(10):309.
[30] Bai, J., Bai, Q., Tong, Z., Chao, H., Xin, H., (2016) Evolution of surface grain structure and mechanical properties in orthogonal cutting of titanium alloy, Journal of Materials Research, 31(24):3919–3929.
[31] Bai, J., Xin, H., Bai, Q., Tong, Z., (2016) An atomistic investigation of the effect of strain on frictional properties of suspended graphene, AIP Advances, 6(5):055308.
[32] Tong, Z., Liang, Y., Jiang, X., Luo, X., (2014) An atomistic investigation on the mechanism of machining nanostructures when using single tip and multi-tip diamond tools, Applied Surface Science, 290:458–465.
[33] Tong, Z., Liang, Y., Yang, X., Luo, X., (2014) Investigation on the thermal effects during nanometric cutting process while using nanoscale diamond tools, The International Journal of Advanced Manufacturing Technology, 74(9-12):1709–1718.
[34] Bai, Q., Zhang, X., Tong, Z., Liang, Y., Pen, H., (2013) Multiscale simulation of the compress behavior on single crystal copper microstructure based on quasi-continuum method, Journal of Mechanical Strength, 35(6): 810-815.
[35] Bai, Q., Tong, Z., Liang, Y., Chen, J., Wang, Z., (2010) Simulation of scale dependency on tensile mechanical properties of single crystal copper nano-rod, ActaMetall Sin. 46(10):1173–1180.
• Cutting tool technology
[36] Geng, Z., Tong, Z., Huang, G., Zhong, W., Cui, C., Xu, X., & Jiang, X. (2022). Micro-grooving of brittle materials using textured diamond grinding wheels shaped by an integrated nanosecond laser system. The International Journal of Advanced Manufacturing Technology, 1-11.
[37] Wang, Y., Huang, Tong, Z. et al., (2019) Numerical Analysis of the Effects of Pulsed Laser Spot Heating Parameters on Brazing of Diamond Tools, Metals (Basel). 9(5) 612. doi:10.3390/met9050612.
[38] Tong, Z., Jiang, X., Luo, X., Bai, Q., Xu, Z., Blunt, L., Liang, Y., (2016) Review on FIB-induced damage in diamond material, Current Nanoscience, 12(6):685–695.
[39] Tong, Z., Xu, Z., Wu, W., Luo, X., (2015) Molecular dynamic simulation of low-energy FIB irradiation induced damage in diamond, Nuclear Instruments and Methods in Physics Research Section B. 358:38–44.
[40] Rajput, N., Tong, Z., Verma, H., Luo, X., (2015) Ion beam assisted fabrication and manipulation of metallic nanowires, Micro and Nano letter, 10(7):334–338.
[41] Rajput, N., Tong, Z., Luo, X., (2015) Investigation of ion induced bending mechanism for nanostructures, Mater. Res. Express, 2:015002.
[42] Tong, Z., Luo, X., (2015) Investigation of focused ion beam induced damage in single crystal diamond tools, Applied Surface Science, 347:727–735.
[43] Luo, X., Tong, Z., Liang, Y., (2014) Investigation of the shape transferability of nanoscale multi-tip diamond tools in the diamond turning of nanostructures, Applied Surface Science, 321:495–502.