代表性论文专著
★期刊论文 (*通讯作者)
代表作论文:
[1] Zhang, X.*, Wang, Z., Zhang, Z., Zhu, L., 2022, Dynamic rotating-tool turning of micro lens arrays, CIRP Annals - Manufacturing Technology, 71/1.
[2] Zhang, X.*, Deng, H., Liu, K., 2019, Oxygen-shielded ultrasonic vibration cutting to suppress the chemical wear of diamond tools, CIRP Annals - Manufacturing Technology, 68/1: 69-72.
[3] Zhang, X.*, Huang, R., Kumar, A.S., Liu, K., 2018, High-efficiency swinging-rotating diamond shaping of Fresnel lenses on roller molds, CIRP Annals - Manufacturing Technology, 67/1:121–124.
[4] Zhang, X., Tnay, G.L., Liu, K., Kumar, A.S., 2018, Effect of apex offset inconsistency on hole straightness deviation in deep hole gun drilling of Inconel 718. International Journal of Machine Tools and Manufacture, 125:123–132.
[5] Zhang, X.*, Arif, M., Liu, K., Kumar, A.S., Rahman, M., 2013, A model to predict the critical undeformed chip thickness in vibration-assisted machining of brittle materials. International Journal of Machine Tools and Manufacture, 69:57–66.
其他SCI论文:
[6] Huang, W., Wang, X., Meng, Y., Li, L., Zhang, X., Ren, M., Zhu, L., 2024, Design, modeling and control of high-bandwidth nano-positioning stages for ultra-precise measurement and manufacturing: a survey. International Journal of Extreme Manufacturing, 6(6):062007.
[7] Wang, R., Li, Z., Fan, Z., Zhang, X., Ren, M., Zhu, L., 2024, Surrogate-model-based dwell time optimization for atmospheric pressure plasma jet finishing. International Journal of Mechanical Sciences, 281:109547.
[8] Li, Z., Kang, S., Wu, D., Ren, M., Zhang, X., Lei, J., Zhu, L., Li, D., 2024, The effect of temperature on monocrystalline Si nanoindentation side effects: A molecular dynamics study. Vacuum, 228:113453.
[9] Meng, Y., You, Z., Wang, X., Zhu, Z., Zhang, X., Ren, M., Zhu, L., 2024, An atomic force microscope-like dual-stage force controlled fast tool servo for in-process inspection of micro-structured surfaces. Mechanical Systems and Signal Processing, 219:111605.
[10] Wang, X., Shen, Y., Jian, Z., Wen, D., Zhang, X., Zhu, L., Ren, M., 2024, Robotic measurement system based on cooperative optical profiler integrating fringe projection with photometric stereo for highly reflective workpiece. Robotics and Computer-Integrated Manufacturing, 88:102739.
[11] Yang, J., Ye, J., Liu, G., Ye, Z., Cui, W., Zhang, X.*, Deng, H., 2024, High efficiency polishing of micro-structured NiP alloy using isotropic electrochemical etching for achieving sub-nanometer roughness. Journal of Manufacturing Processes, 121:20-34.
[12] Chen, J., Yu, Y., Gu, P., Zhu, L., Zhang, Z., Zhang, X.*, 2024, Fabrication of the freeform Fresnel lens by swinging-rotating diamond ruling. Journal of Manufacturing Processes, 119:130-145.
[13] Wang, R., Fan, Z., Yu, N., Zhu, Z., Ren, M., Zhang, X., Li, Z., Zhu, L., 2024, Optimization and test of a ring-ring typed atmospheric pressure plasma jet for optical fabrication. Precision Engineering, 88:718-728.
[14] Gu, P., Chen, J., Huang, W., Shi, Z., Zhang, X., Zhu, L., 2024, Evaluation of surface quality and error compensation for optical aspherical surface grinding. Journal of Materials Processing Technology, 327:118363.
[15] Meng, Y., Chen, Z., Huang, W., Zhang, X., Hu, C., Zhu, L., 2024, An Enhanced Real-time Iterative Compensation Method for Fast Tool Servos with Resonance Suppression. IEEE Transactions on Industrial Electronics, 71(6):6183–6192.
[16] Liang, R., Yu, Y., Chen, J., Zhang, X., Ren, M., Huang, N., Zhu, L., 2024, Tool path generation with a uniform residual error distribution considering tool contour error for ultra-precision diamond turning. Journal of Manufacturing Processes, 115:466-480.
[17] Jian, Z., Wang, X., Zhang, X., Su, R., Ren, M., Zhu, L., 2024, Task-Specific Near-Field Photometric Stereo for Measuring Metal Surface Texture. IEEE Transactions on Industrial Informatics, 20(4): 6019–6029.
[18] You, Z., Meng, Y., Zhang, Z., Ren, M., Zhang, X., Zhu, L., 2024, Normalized Variational Auto-Encoder With the Adaptive Activation Function for Tool Setting in Ultraprecision Turning. IEEE Transactions on Industrial Informatics, 20(4):5592–5600.
[19] Li, L., Wang, X., Huang, W., Zhang, X., Zhu, L., 2024, Design of General Parametric Repetitive Control Using IIR Filter With Application to Piezo-Actuated Nanopositioning Stages. IEEE Transactions on Automation Science and Engineering, 21(2):2102–2112.
[20] Huang, W., Zhu, Z., Zhang, X., Zhu, L., 2024, A hybrid electromagnetic-piezoelectric actuated tri-axial fast tool servo integrated with a three-dimensional elliptical vibration generator. Precision Engineering, 86:213-224.
[21] Chen, J., Chen, Z., Yang, Z., Zhu, L., Zhang, Z., Zhang, X.*, 2024, Fabrication of the curved Fresnel lens array on the spherical surface by 6-axis diamond ruling. Journal of Materials Processing Technology, 324:118255.
[22] Gu, P., Zhang, X., Zhang, Z., Shi, Z., Zhu, L., 2024, An error compensation method for single point oblique axis grinding considering the grinding wheel wear. Journal of Manufacturing Processes, 112:32-44.
[23] You, Z., Meng, Y., Li, D., Zhang, Z., Ren, M., Zhang, X., Zhu, L., 2024, Adaptive detection of tool-workpiece contact for nanoscale tool setting based on multi-scale decomposition of force signal. Mechanical Systems and Signal Processing, 208:111000.
[24] Shen, D., Zhang, X., Zhu, L., 2024, Laser processing for electricity generators: Physics, methods and applications. Nano Energy, 120:109182.
[25] Meng, Y., Wang, X., Wu, H., Zhu, Z., Zhang, X., Zhu, L., 2024, Master–Slave Coordinated Control of Fast and Slow Tool Servos for Diamond Turning of Complex-Shaped Optics. IEEE/ASME Transactions on Mechatronics.
[26] Wu, H., Zhang, X.*, Zhu, L., Ren, M., Rahman, M., 2024, Parallel tool servo turning of microstructured surfaces. CIRP Annals, 73(1):425-428.
[27] Deng, H., Wu, B., Zhang, J., Zhang, Z., Zhang, X.*, 2024, Highly efficient figuring of Si mirrors using an atmosphere plasma jet with concentrated electric field. CIRP Annals, 73(1):413–416.
[28] Tan, L., Wang, X., Yu, Q., Yu, B., Meng, Y., Li, L., Zhang, X., Zhu, L., 2024, An Electromagnetic-Piezoelectric Hybrid Actuated Nanopositioner for Atomic Force Microscopy. IEEE Transactions on Instrumentation and Measurement, 73:1–13.
[29] Wang, X., Wen, D., Jian, Z., Sun, L., Zhang, X., Zhu, L., Ren, M., 2024, Deep Semi-calibrated Near-field Photometric Stereo. Optics and Lasers in Engineering, 172:107876.
[30] Chen, Z., Huang, W., Zhu, Z., Zhang, X., Zhu, L., Jiang X., 2023, Ultra-Precision Diamond Turning Error Compensation via Iterative Learning from On-machine Measured Data. International Journal of Precision Engineering and Manufacturing, 24(12):2181-2195.
[31] Meng Y., Li, L., Wang, X., Zhang, X., Zhu, L., 2023, Data-driven based cross-coupling compensation method for the piezoelectric tube scanner of atomic force microscopes. Measurement: Journal of the International Measurement Confederation, 219:113260.
[32] Huang, W., Zhang, X., Zhu, L., 2023, Band-stop-filter-based repetitive control of fast tool servos for diamond turning of micro-structured functional surfaces. Precision Engineering, 83:124-133.
[33] Li, Z., Wang, R., Zhang, X., Ren, M., Zhu, L., 2023, B-spline surface approximation method for achieving optimum dwell time in deterministic polishing. Journal of Materials Processing Technology, 318:118031.
[34] Chen, Z., Chen, J., Zhang, Z., Zhang, X.*, Zhu, L., 2023, “4+2” axis ultra-precision diamond shaping for partially overlapping Fresnel lenses based on an ultra-precision machine tool and two additional rotational axes. Journal of Manufacturing Processes, 99:310-320.
[35] Shen, Y., Ren, J., Huang, N., Zhang, Y., Zhang, X., Zhu, L., 2023, Surface form inspection with contact coordinate measurement: a review. International Journal of Extreme Manufacturing, 5(2):022006.
[36] Meng, Y., Wang, X., Huang, W., Li, L., Hu, C., Zhang, X., Zhu, L., 2023, Intelligent Tracking Error Prediction and Feedforward Compensation for Nanopositioning Stages With High-Bandwidth Control. IEEE Transactions on Industrial Informatics, 19(5):6460-6470.
[37] Chen, Z., Chen, J., Zhang, X.*, Zhu, L., 2023, Machining straight-groove-type microstructure arrays with the three-axis ultra-precision lathe assisted by a rotating stage based on the double closed-loop controller. Journal of Materials Processing Technology, 312:117846.
[38] Deng, H., Zhang, Y., Liang, J., Zhang, X., 2023, Surface reconstruction of sapphire at the atomic scale via chemical-physical tuning of atmospheric plasma. CIRP Annals, 72(1):489-492.
[39] Li, D., Zhang, Y., Tosello, G., Zhang, X., Neo, D., Liu, Y., 2023, Optically functionalization of 3D surfaces via voxel-based hierarchically micro structuralizing, a study case: Patterned optical ID. Optical Materials, 135:113221.
[40] Chen, J., Chen, Z., Zhu, L., Ren, M., Zhang, X.*, 2022, Shaping of the Fresnel lens array on roller molds by 6-axis diamond machining. Journal of Manufacturing Processes, 84:1557-1567.
[41] Khan, M.A., Zhan, Z., Yi, R., Ji, J., Zhang, L., Zhang, X.*, Deng, H.*, 2022, Highly Efficient Inner Surface Polishing of Fe-Cr-Ni Alloy Cylinder via Isotropically Tuned Electrochemical Etching. Journal of the Electrochemical Society, 169(11):113504.
[42] Chen, Z., Chen, J., Zhang, X.*, Zhu, L., 2022, Fabrication of polygonal Fresnel lenses with a rotating cutting tool on three-axis ultraprecision lathes. Precision Engineering, 76:385-396.
[43] Zhang, X., Meng, Y., Yang, Z., Zhang, Z., Ren, M., Zhu, L., 2022, Ultraviolet-ozone assisted ultrasonic vibration cutting for extending diamond tool life. Journal of Materials Processing Technology, 304:117560.
[44] Zhang, X.*, Chen, Z., Chen, J., Wang, Z., Zhu, L., 2022, Fabrication of a microlens array featuring a high aspect ratio with a swinging diamond tool. Journal of Manufacturing Processes, 75:485-496.
[45] Chen, Z., Wang, Z., Ren, M., Zhang, X.*, Zhu, L., Jiang, X., 2022, Development of an on-machine measurement system for ultra-precision machine tools using a chromatic confocal sensor. Precision Engineering, 74:232-241.
[46] Zhang, X., Huang, R., Wang, Y., Liu, K., Deng, H., Neo, D.W.K., 2022, Suppression of diamond tool wear with sub-millisecond oxidation in ultrasonic vibration cutting of steel. Journal of Materials Processing Technology, 299:117320.
[47] Tan, NYJ., Zhang, X., Neo, DWK., Huang, R., Liu, K., Kumar, AS.,2021, A review of recent advances in fabrication of optical Fresnel lenses. Journal of Manufacturing Processes, 71:113-33.
[48] Arefin, S., Zhang, X., Neo, DWK., Kumar, AS., 2021, Effects of cutting edge radius in vibration assisted micro machining. International Journal of Mechanical Sciences, 208:106673.
[49] Ajmal, KM., Yi, R., Zhan, Z., Ji J., Zhang, X.*, Deng, H., 2021, Highly efficient smoothing of Inconel 718 via electrochemical-based isotropic etching polishing. Precision Engineering-Journal of the International Societies for Precision Engineering and Nanotechnology, 71:119-29.
[50] Zhou, X., Wang, F., Zhang, X.*, Deng H., 2021, Electrochemical polishing of microfluidic moulds made of tungsten using a bi-layer electrolyte. Journal of Materials Processing Technology, 292:117055.
[51] Arefin, S., Zhang, X., Kumar, AS., Neo, DWK., Wang, Y., 2021, Study of chip formation mechanism in one-dimensional vibration-assisted machining. Journal of Materials Processing Technology, 291:117022.
[52] Tan, NYJ., Neo, DWK., Zhang, X., Liu, K., Kumar AS., 2021, Ultra-precision direct diamond shaping of functional micro features. Journal of Manufacturing Processes, 64:209-23.
[53] Ding, D., Zhao, Z., Huang, R., Dai, C., Zhang, X., Xu, T., Fu, Y., 2021, Error modeling and path planning for freeform surfaces by laser triangulation on-machine measurement. IEEE Transactions on Instrumentation and Measurement,70:1-11.
[54] Huang, R., Zhang, X.*, Ng BP., Kumar, AS., Liu, K., 2021, Roll-to-Roll Embossing of Optical Radial Fresnel Lenses on Polymer Film for Concentrator Photovoltaics: A Feasibility Study. International Journal of Precision Engineering and Manufacturing-Green Technology, 8(1):77-88.
[55] Huang, W., Zhang, Y., Zhang, X., Zhu, L., 2020, Wall thickness error prediction and compensation in end milling of thin-plate parts. Precision Engineering, 66:550–563.
[56] Guo, W., Anantharajan, SK., Zhang, X., Deng, H., 2020, A Study on the Damage Layer Removal of Single-Crystal Silicon Wafer After Atmospheric-Pressure Plasma Etching. Journal of Micro and Nano-Manufacturing, 8(2).
[57] Yi, R., Zhang, Y., Zhang, X., Fang, F., Deng, H., 2020, A generic approach of polishing metals via isotropic electrochemical etching. International Journal of Machine Tools & Manufacture, 150:103517.
[58] Ding, D., Zhao, Z., Zhang, X., Fu, Y., Xu, J., 2020, Evaluation and compensation of laser-based on-machine measurement for inclined and curved profiles. Measurement, 151:107236.
[59] Wang, F., Zhang, X., Deng, H., 2019, A comprehensive study on electrochemical polishing of tungsten. Applied Surface Science, 475, 587-597.
[60] Huang, W., Yu, D., Zhang, X., Zhang, M., Chen D., 2018, Ductile-regime machining model for ultrasonic elliptical vibration cutting of brittle materials, Journal of Manufacturing Processes, 36:68-76.
[61] Huang, R., Zhang, X.*, Neo, W.K., Kumar, A.S., Liu, K., 2018, Ultra-precision machining of grayscale pixelated micro images on metal surface, Precision Engineering, 52:211-220.
[62] Zhang, X., Huang, R., Liu, K., Kumar, A.S., Deng, H., 2018, Suppression of diamond tool wear in machining of tungsten carbide by combining ultrasonic vibration and electrochemical processing, Ceramics International, 44(4):4142–4153.
[63] Zhang, X., Huang, R., Liu, K., Kumar, A.S., Shan, X., 2018, Rotating-tool diamond turning of Fresnel lenses on a roller mold for manufacturing of functional optical film, Precision Engineering, 51:445–457.
[64] Huang, R., Zhang, X.*, Kumar, A.S., Liu, K., Rahman, M., 2017, Profile evaluation of radial Fresnel lens directly machined on roller molds by rotating-tool diamond turning. Precision Engineering, 50:44–52.
[65] Deng, H., Huang, R., Liu, K., Zhang, X.*, 2017, Abrasive-free polishing of tungsten alloy using electrochemical etching, Electrochemistry Communications, 82:80–84.
[66] Shan, X., Zhang, X., Huang, R., Liu, K., 2017, Micromachining of a roller mould and roll-to-roll imprinting to form large area optical films with radial Fresnel lens arrays, Japanese Journal of Applied Physics, 56:05EA02.
[67] Deng, H., Zhang, X.*, Liu, K., Yamamura, K., Sato, H., 2017, Polishing of Tungsten Carbide by Combination of Anodizing and Silica Slurry Polishing, Journal of the Electrochemical Society, 164:E352–E359.
[68] Verkicharla, P.K., Ramamurthy, D., Nguyen, Q.D., Zhang, X., Pu, S.H., Malhotra, R., Saw, S.M., 2017, Development of the FitSight Fitness Tracker to Increase Time Outdoors to Prevent Myopia. Translational Vision Science & Technology, 6(3):20.
[69] Zhang, X.*, Liu, K., Sunappan, V., Shan, X., 2015, Diamond micro engraving of gravure roller mould for roll-to-roll printing of fine line electronics, Journal of Materials Processing Technology, 225:337–346.
[70] Huang, R., Zhang, X.*, Rahman, M., Kumar, A.S., Liu, K., 2015, Ultra-precision machining of radial Fresnel lens on roller moulds, CIRP Annals - Manufacturing Technology, 64/1:121–124.
[71] Zhang, X.*, Liu, K., Shan, X., Liu, Y., 2014, Roll-to-roll embossing of optical linear Fresnel lens polymer film for solar concentration, Optics Express, 22(S7):A1835-A1842.
[72] Zhang, X.*, Liu, K., Kumar, A.S., Rahman, M., 2014, A study of the diamond tool wear suppression mechanism in vibration-assisted machining of steel, Journal of Materials Processing Technology, 214:496–506.
[73] Zhang, X., Kumar, A.S., Rahman, M., Liu, K., 2013, Modeling of the effect of tool edge radius on surface generation in elliptical vibration cutting, International Journal of Advanced Manufacturing Technology, 65:35–42.
[74] Arif, M., Zhang, X., Rahman, M., Kumar, S., 2013, A predictive model of the critical undeformed chip thickness for ductile-brittle transition in nano-machining of brittle materials. International Journal of Machine Tools and Manufacture, 64:114–122.
[75] Zhang, X., Senthil Kumar, A., Rahman, M., Nath, C., Liu, K., 2012, An analytical force model for orthogonal elliptical vibration cutting technique, Journal of Manufacturing Processes, 14:378–387.
[76] Zhang, X., Senthil Kumar, A., Rahman, M., Nath, C., Liu, K., 2011, Experimental study on ultrasonic elliptical vibration cutting of hardened steel using PCD tools. Journal of Materials Processing Technology, 211:1701–1709.
★著作:
[1] Liu, K., Wang, H., Zhang, X., 2020, Ductile mode cutting of brittle materials, Springer