Publication

 Papers and Book Chapters: 

  1. Hao Sun, Xudong Fang*, Ziyan Fang, Libo Zhao, Bian Tian, Prateek Verma, Ryutaro Maeda, Zhuangde Jiang. An ultra-sensitive and stretchable strain sensor based on micro-crack structure for motion monitoring. Microsystems and Nanoengineering, 2022.
  2. Kang Q, Fang X*, Wu C, et al. Mechanical properties and indentation-induced phase transformation in 4H–SiC implanted by hydrogen ions. Ceramics International, 2022, 48(11): 15334-15347.

  3. Xudong Fang, Yunfeng Wang, Ryutaro Maeda*, Akio Kitayama, En Takashi. Early Prediction of Pressure Injury with Long Short-term Memory Networks. Sensors and Materials, 2022.
  4. Zhang, Z.; Tian, B.; Cheng, G.; Liu, Z.; Liu, J.; Zhang, B.; Lei, J.; Zhao, N.; Han, F.; Fang, X.; Sun, H.; Zhao, L. Influences of RF Magnetron Sputtering Power and Gas Flow Rate on a High Conductivity and Low Drift Rate of Tungsten-Rhenium Thin-Film Thermocouples. Nanomaterials 202212, 1120. https://doi.org/10.3390/nano12071120
  5. Chen Wu, Xudong Fang*, Qiang Kang, Hao Sun, Libo Zhao, Bian Tian, Ziyan Fang, Maolin Pan, Ryutaro Maeda, Zhuangde Jiang. Crystal cleavage, periodic nanostructure and surface modification of SiC ablated by femtosecond laser in different media. Surface and Coatings Technology, 2021.08424: 127652. (SCI, WOS: 000697567600022, IF:4.158), ISSN:0257-8972).
  6. Qiang Kang, Xudong Fang*, Chen Wu, Hao Sun, Ziyan Fang, Bian Tian, Libo Zhao, Songli Wang, Nan Zhu, Ryutaro Maeda, Zhuangde Jiang,Meiju Zhang, Yuanjie Lv. Modification Mechanism of Collaborative Ions Implanted into 4H-SiC by Atomic Simulation and Experiment, International Journal of Mechanical Sciences, (2021). (SCI, WOS:000703235200002, IF:5.329), ISSN: 0020-7403.
  7. Chen Wu, Xudong Fang*, Libo Zhao, Bian Tian, Ziyan Fang, Maolin Pan, Ryutaro Maeda, Zhuangde Jiang. Japan, China & Korea MEMS conference, Xi’an, China, Oct 10-15.
  8. Chen Wu, Xudong Fang*, Libo Zhao, Bian Tian, Ziyan Fang, Ryutaro Maeda, Zhuangde Jiang. Ohmic Contact Characteristics of Silicon Carbide-based MEMS Devices. 2021 IEEE 16th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS); 2021: IEEE.
  9. Meng Q ,  Lin Q ,  Jing W , et al. Characterization of the Electrical Properties of a Double Heterostructure GaN/AlGaN Epitaxial Layer with an AlGaN Interlayer[J]. Journal of Electronic Materials, 2021, 50(4).
  10. Baicun Wang, Fei Tao, Xudong Fang*, Chao Liu, Yufei Liu, Theodor Freiheit, Smart Manufacturing and Intelligent Manufacturing: A Comparative Review, Engineering, 2020. 
  11. Wu C, Fang X*, Liu F, Guo X, Ryutaro M, Jiang Z. High speed and low roughness micromachining of silicon carbide by plasma etching aided femtosecond laser processing. Ceramics International. 2020.
  12.   Wu C, Fang X*, Guo X, Zhao L, Tian B, Jiang Z. Optimal design of SiC piezoresistive pressure sensor considering material anisotropy. Review of Scientific Instruments. 2020;91(1):015004.
  13.  FANG X, Wu C, Zhao Y, Jiang Z, Rong W, Feng Z, et al. A 350° C piezoresistive n-type 4H-SiC pressure sensor for hydraulic and pneumatic pressure tests. Journal of Micromechanics and Microengineering. 2020.
  14.  Fang X, Li C, Sun L, Sun H, Jiang Z. Hardness and friction coefficient of fused silica under scratching considering elastic recovery. Ceramics International. 2020;46(6):8200-8.
  15.  Fang X, Kang Q, Ding J, Sun L, Maeda R, Jiang Z. Stress Distribution in Silicon Subjected to Atomic Scale Grinding with a Curved Tool Path. Materials. 2020;13(7):1710.
  16.   Duan D, Li C, Sun L, Liu Y, Fang X, Lin Q, et al. Microstructure and performance of brazed diamonds with Ni–Cr+ multilayer graphene composite alloy. Journal of Alloys and Compounds. 2020;816:152630.
  17.  Shi J, Fang X, Maffe AP, Yao D. An effective method of processing immiscible polymer blends into strong fiber. Polymer Engineering & Science. 2019;59(10):2052-61.
  18.  Li X, Zhao L, Li Z, Luo G, Yu M, Ma Y, et al., editors. Study on the Enhancement of Diamond Fluorescence Characteristics by Multi-layer Anti-reflection Coating. 2019 PhotonIcs & Electromagnetics Research Symposium-Spring (PIERS-Spring); 2019: IEEE.
  19.  Kang Q, Fang X*, Sun L, Ding J, Jiang Z. Research on mechanism of nanoscale cutting with arc trajectory for monocrystalline silicon based on molecular dynamics simulation. Computational Materials Science. 2019;170:109175.
  20.  Huang L, Zhao L, Hu Y, Wang H, Lu D, Fang X*, et al., editors. Density Measurement Performance in Flowing Liquid Using Microcantilever-Based Resonators under Bending and Torsion Vibrations. 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII); 2019: IEEE.
  21.  Fang X, Wu C, Guo X, Zhao L, Zhao Y, Jiang Z, editors. Development of a 4H-SiC Piezoresistive Pressure Sensor for High Temperature Applications. 2019 IEEE 14th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS); 2019: IEEE.
  22.  Duan D, Sun L, Lin Q, Fang X, Li C, Jiang Z. Effect of CuCe alloy addition on the microstructure and mechanical performance of brazed diamonds with NiCr alloy. International Journal of Refractory Metals and Hard Materials. 2019; 80:253-8.
  23.   Duan D, Sun L, Fang X, Lin Q, Li C, Jiang Z. Microstructure and processing performance of brazed diamond drill bits with Ni–Cr+ Cu–Ce composite solder. Diamond and Related Materials. 2019;93:216-23.
  24.  Zhao N, Lin Q, Jiang Z, Yao K, Tian B, Fang X, et al. High temperature high sensitivity multipoint sensing system based on three cascade Mach–Zehnder interferometers. Sensors. 2018;18(8):2688.
  25. Fang X, Wyatt T, Shi J, Yao D. Fabrication of high-strength polyoxymethylene fibers by gel spinning (vol 53, pg 11901, 2018). JOURNAL OF MATERIALS SCIENCE. 2018;53(18):13316-.
  26.   Fang X, Wyatt T, Shi J, Yao D. Fabrication of high-strength polyoxymethylene fibers by gel spinning. Journal of Materials Science. 2018;53(16):11901-16.
  27.   Peng H#, Fang X#, Ranaei S, Wen Z, Porter AL. Forecasting potential sensor applications of triboelectric nanogenerators through tech mining. Nano Energy. 2017;35:358-69.
  28.  Liu H, Yu Z, Liu Y, Fang X. A Micro-Force Sensor with Beam-Membrane Structure for Measurement of Friction Torque in Rotating MEMS Machines. Micromachines. 2017;8(10):304.
  29.  Liu H, Fang X, Meng L, Wang S. Spin coating on spherical surface with large central angles. Coatings. 2017;7(8):124.
  30.   Fang X, Shi J, Wyatt T, Yao D. Twist-film gel spinning of large-diameter high-performance ultra-high molecular weight polyethylene monofilaments. Textile Research Journal. 2017;87(19):2323-36.
  31.  Fang X, Jing W, Zhao L, Zhao Y, Jiang Z, editors. Effect of Molecular Weight and Concentration on Gel-Spun UHMWPE Fibers With Polybutene as a New Spin Solvent. ASME 2017 International Mechanical Engineering Congress and Exposition; 2017: American Society of Mechanical Engineers Digital Collection.
  32.  Hong Y, Fang X*, Yao D. Modeling of expandable polystyrene expansion. Journal of Applied Polymer Science. 2016;133(36).
  33.  Fang X, Wyatt T, Hong Y, Yao D. Gel spinning of UHMWPE fibers with polybutene as a new spin solvent. Polymer Engineering & Science. 2016;56(6):697-706.
  34.  Fang X, Liu H. Measuring micro-friction torque in MEMS gas bearings. Sensors. 2016;16(5):726.
  35.  Fang X, Bi C, Hong Y, Cho KH, Park MS, Wang Y, et al. Rapid vacuum infusion and curing of epoxy composites with a rubber-cushioned mold design. Polymer-Plastics Technology and Engineering. 2016;55(10):1030-8. 
  36.  Fang X. Oligomer-polymer gel spinning of high performance fibers: Georgia Institute of Technology; 2016.
  37.  Wyatt T, Gainey T, Fang X, Yao D. Direct drawing of gel fibers enabled by twist-gel spinning process. Polymer Engineering & Science. 2015;55(6):1389-95.
  38.  Wang B, Hong Y, Wang L, Fang X, Wang P, Xu Z. Development and numerical investigation of novel gradient-porous heat sinks. Energy Conversion and Management. 2015;106:1370-8.
  39.   Wang B, Hong Y, Hou X, Xu Z, Wang P, Fang X, et al. Numerical configuration design and investigation of heat transfer enhancement in pipes filled with gradient porous materials. Energy Conversion and Management. 2015;105:206-15.
  40.   Hong Y, Fang X, Yao D. Microwave processing of syntactic foam from an expandable thermoset thermoplastic mixture. Polymer Engineering & Science. 2015;55(8):1818-28.
  41.  Hong Y, Fang X, Yao D. Processing of composite polystyrene foam with a honeycomb structure. Polymer Engineering & Science. 2015;55(7):1494-503.
  42.   Fang X, Wyatt T, Wu J, Yao D. An effective and simple process for obtaining high strength silkworm (Bombyx mori) silk fiber. Fibers and Polymers. 2015;16(12):2609-16.
  43. Fang X, Yao D, editors. An overview of solid-like electrolytes for supercapacitors. ASME 2013 International Mechanical Engineering Congress and Exposition; 2013: American Society of Mechanical Engineers Digital Collection.
  44.  Zhao LB, Fang XD, Zhao YL, Jiang ZD, Li Y. A high pressure sensor with circular diaphragm based on MEMS technology. Key Engineering Materials; 2011: Trans Tech Publications Ltd.
  45.  Zhao Y, Fang X, Jiang Z, Zhao L. An ultra-high pressure sensor based on SOI piezoresistive material. Journal of mechanical science and technology. 2010;24(8):1655-60.
  46.  Zhao L, Zhao Y, Fang X, Li J, Li Y, Jiang Z. High Temperature Silicon-on-Insulator Piezoresistive Pressure Sensitive Chip. Journal of Xi'an Jiaotong University. 2010;44(9).
  47.  Yao D, Fang X, Hong Y. Polymer and Composite Processing.
  48.  Shi J, Fang X, Maffe A, Yao D. AN EFFECTIVE WAY OF PROCESSING IMMISCIBLE PP/PS BLENDS INTO HIGH STRENGTH FIBER.
 

Patents:

 

  1. 方续东;孙昊;王云凤;吴晨;康强;蒋庄德;前田龙太郎, 一种复合纳米纤维膜及柔性应变传感器的制备方法,2021.12.28, 中国,CN202110150382.6
  2. 方续东;吴晨;孙林;赵立波;赵玉龙;蒋庄德,一种全碳化硅MEMS三轴加速度计及其制造方法,2020.06.12,中国,CN201811616953.5
  3. 方续东; 吴晨; 蒋庄德; 前田龙太郎, 一种等离子体刻蚀辅助激光加工碳化硅的方法, 2019-08-27, 中国, CN201910793890.9.
  4.  方续东; 吴晨; 蒋庄德, 四梁圆膜与同轴圆柱的压力和位移集成式MEMS传感器结构, 2019-07-30, 中国, ZL201821827208.0.
  5. 方续东; 吴晨; 孙林; 赵立波; 赵玉龙; 蒋庄德, 一种全碳化硅MEMS三轴加速度计及其制造方法, 2018-12-28, 中国, CN201811616953.5.
  6.  方续东; 吴晨; 蒋庄德, 四梁圆膜与同轴圆柱结合的压力和位移集成式MEMS传感器, 2018-11-07, 中国, CN201811318987.6.
  7.  赵玉龙; 方续东; 蒋庄德; 赵立波; 李建波; 梁建强, 一种应变式超高压压力变送器, 2009-12-29, 中国, CN200910254565.1.
  8. 孙林; 刘剑锋; 方续东; 陈兆翔; 李常胜; 王鑫垚; 蒋庄德, 一种测量直径可调的球径仪, 2019-01-22, 中国, ZL201821122449.5.
  9.  孙林; 刘剑锋; 方续东; 陈兆翔; 李常胜; 王鑫垚; 蒋庄德, 一种测量直径可调的球径仪及曲率半径和偏移量测量方法, 2018-07-16, 中国, CN201810777215.2.
  10.  孙林; 刘剑锋; 李常胜; 王鑫垚; 刘阳鹏; 方续东; 韩枫; 蒋庄德, 一种柱形光学元件的工装夹具, 2018-12-06, 中国, CN201811487943.6.