Advanced Material Forming and Manufacturing Team

DATEDecember 31, 2022

Research Interests

Additive Manufacturing、Metal Matrix Composite


[1] Ruonan Qin, Chunhuan Guo, Fengchun Jiang,Yanchun Li, Mengxin Cao, Dongsheng Guo, Effect of sintering temperature on microstructure characteristics and damping capacity of multilayer 316L stainless steel hollow spheres/A356 alloy composites reinforced by NiTi alloy sheets, Materials Science & Engineering A,2022: 144321

[2] Mengxin Cao, Fengchun Jiang, Chunhuan Guo, Yanchun Li, Tianmiao Yu, RuonanQin,Interface characterization and mechanical property of an aluminum matrix syntactic foam with multi-shelled hollow sphere structure,Ceramics International , 2022, 48(13): 18821-18833

[3] Tianmiao Yu, Fengchun Jiang, Yongyao Chen , Mengxin Cao, Chunhe Wang , Ruonan Qin , Chunhuan Guo,Acoustic properties of polyurethane composite with both millimeter-scale closed cavity and nanometer-scale semi closed cavity,June 2022 , Materials Today Communications, 31 (2022) 103295

[4] Mengxin Cao, Fengchun Jiang, Rui Zhou, Ruonan Qin, Hexin Zhang , Zhenqiang Wang , Chunhuan Guo , A novel bio-inspired metal hollow sphere filled TC4/Al sandwich composite: fabrication and compressive properties , June 2022 , Materials Today Communications, 2022, 31: 103349

[5] Ruonan Qin, Fengchun Jiang, Mengxin Cao, Yanchun Li, Hexin Zhang, Chunhuan Guo, Preparation, microstructure and compressive property of NiTi alloy hollow spheres fabricated by powder metallurgy,Materials Today Communications, March 2022, 30:103039

[6] Tianmiao Yu , Fengchun Jiang , Mengxin Cao , Chunhe Wang , Ruonan Qin , Chunhuan Guo , Sound insulation of a novel laminated polymer matrix composite containing metallic hollow spheres based on phononic crystal structure design, Polymers for Advanced Technologies, 2022, 33(2): 601-609

[7] Chunhe Wang , Fengchun Jiang , Ruonan Qin , Tianmiao Yu , Chunhuan Guo , Preparation and Characterization of Hollow 316L Stainless Steel Spheres Prepared by Powder Metallurgy, Journal of Materials Engineering and Performance, 2022, 31(2): 1540-1549

[8] Chunhe Wang, Chunhuan Guo, Ruonan Qin, Fengchun Jiang,Fabrication and characterization of layered structure reinforced composite metal foam, Journal of Alloy and Compounds, 2022, 895(2): 162658

[9] Tianmiao Yu, Fengchun Jiang, Mengxin Cao, Chunhe Wang, Ruonan Qin, Chunhuan Guo,Sound insulation of a novel laminated polymer matrix composite containing metallic hollow spheres based on phononic crystal structure design,Polymers for Advanced Technologies, 2022, 33: 601-609

[10] Xiaojing Sun,Fengchun Jiang,Ding Yuan,Guidong Wang,Yunxiang Tong,Jiandong Wang, High damping capacity of AlSi10Mg-NiTi lattice structure interpenetrating phase composites prepared by additive manufacturing and pressureless infiltration,Journal of Alloys and Compounds 905 (2022) 164075

[11] Chunhe Wang, Chunhuan Guo, Fengchun Jiang,Investigation on the acoustic properties of structural gradient 316L stainless steel hollow spheres composites, Science and Engineering of Composite Material, 2021, 28(1): 478-488

[12] Chunhe Wang, Fengchun Jiang, Ruonan Qin, Tianmiao Yu, Chunhuan Guo, Preparation and characterization of 316L stainless steel hollow sphere prepared by powder metallurgy, Journal of Materials Engineering and Performance, 2022, 31: 1540-1549

[13] Jiandong Wang , Yuzhou Zeng , Weihang Fan , Liqun Li , Yunxiang Tong , Zhengqiang Wang , Fengchun Jiang , Microstructure and tensile properties of TiCp/Ti6Al4V composites by laser melting deposition with different dissolving degrees of TiC, Ceramics International,2022, 48(23): 34650-34657

[14] Yuzhou Zeng , Jiandong Wang , Junzhe Wei , Yu Xue , Ziang Zhao , Lang Tang , Liqun Li , Yunxiang Tong , Fengchun Jiang , Microstructure and properties of inter/inner-layer regions of TiCp/Ti6Al4V composites manufactured by laser melting deposition , Materials Letters, 2022, 316: 131989

[15] Jiandong Wang , Yuzhou Zeng , Xiaopeng Qi , Yu Xue , De Xu , Liqun Li , Yunxiang Tong , Fengchun Jiang , Graded microstructure and properties of TiCp/Ti6Al4V composites manufactured by laser melting deposition , Ceramics International, 2022, 48(5): 6985-6997

[16] Peng Li, Zhenqiang Wang, Mingxia Diao, Chunhuan Guo, Jiandong Wang, Chengzhi Zhao,Fengchun Jiang,Dynamic recrystallization and recovery in very high-power ultrasonic additive manufacturing (VHP UAM),Advanced Engineering Materials,2021, 23:2000958

[17] Li, Peng,Wang, Zhenqiang,Diao, Mingxia Guo, Chunhuan Wang, Jiandong Zhao, Chengzhi,Jiang, Fengchun, Effect of processing parameters on bond properties and microstructure evolution in ultrasonic additive manufacturing (UAM), MATERIALS RESEARCH EXPRESS, 2021, 8(3): 036507

[18] TianmiaoYu,FengchunJiang,RuipengZhang,MengxinCao,RuonanQin,ChunhuanGuo,ZhenqiangWang,YunpengChang,Effects of volume fraction and diameter of hollow spheres on acoustic properties of Metallic-Hollow-Sphere/Polyurethane (MHSP) acoustic composites, Composite Structures,2021, 113554

[19] Tianmiao Yu, Fengchun Jiang, Chunhe Wang, Mengxin Cao, Zhenqiang Wang, Yunpeng Chang, Chunhuan Guo, Investigation on Fabrication and Micarostructure of Ti-6Al-4V Alloy Hollow Spheres by Powder Metallurgy, Metals and Materials International, 2021, 27(5):1083-1091

[20] Tianmiao Yu, Fengchun Jiang, Xu Cui, Mengxin Cao, Chunhuan Guo, Zhenqiang Wang, Yunpeng Chang, Properties and Mechanism of a Novel Metallic-Hollow-Spheres/Polyurethane (MHSP) Acoustic Composite, Journal of Applied Polymer Science,2021, 138: 1-10

[21] Chunhe Wang, Fengchun Jiang, Shuaiqi Shao, Tianmiao Yu and Chunhuan Guo,Acoustic Properties of 316L Stainless Steel Hollow Sphere Composites Fabricated by Pressure Casting, Metals, 2020, 10: 1047

[22] Tianmiao Yu, Fengchun Jiang, Zhenqiang Wang, Yunpeng Chang, Chunhuan Guo,Acoustic Insulation and Absorption Mechanism of Metallic Hollow Spheres Composites with Different Polymer Matrix,Composite Structures,2020, 248:112566

[23] Mengxin Cao , Fengchun Jiang , Chunhe Wang , Hongyang Cui , Chunhuan Guo, Yunpeng Chang , Zhenqiang Wang, Preparation, microstructure and mechanical property of double-layered metal-ceramic hollow spheres, Materials Science and Engineering A, 2020, 780:139188

[24] Sun, X.; Jiang, F.; Wang, J. Acoustic Properties of 316L Stainless Steel Lattice Structures Fabricated via Selective Laser Melting. Metals. 2020, 10(1), 111

[25] Paweł Płatek, Judyta Sienkiewicz, Jacek Janiszewski and Fengchun Jiang, Investigations on Mechanical Properties of Lattice Structures with Different Values of Relative Density Made from 316L by Selective Laser Melting (SLM), Metals, 2020,10(2):

[26] Yunpeng Chang, Zhenqiang Wang, Xiucai Li, Zhe Leng, Chunhuan Guo, Zhongyi Niu*,Fengchun Jiang,Continuous Mo fiber reinforced Ti/Al3Ti metal-intermetallic laminated composites,Intermetallics,2019,112:106544

[27] Xiang Li, Fengchun Jiang, Zhenqiang Wang, Chunhuan Guo, Jiandong Wang, Zhongyi Niu, Yunpeng Chang, Interfacial characteristics and normal mechanical strength of a NiTi shape memory alloy fiber reinforced Mg3AlZn (SMAFR-AZ31) composite sheet, Materials Science and Engineering A, 2019, 765

[28] Feifei Jiao, Mengyan Liu, Fengchun Jiang, Jiaying Zhao, Peng Li, Zhenqiang Wang, Continuous carbon fiber reinforced Ti/Al3Ti metal-intermetallic laminate(MIL) composites fabricated using ultrasonic consolidation assisted hot pressing sintering,Materials Science and Engineering: A, 2019, 765:138255

[29] X. Li, Y. H. Sun,Z. Q. Wang , F. C. Jiang.Fabrication, microstructure characterization and mechanical property of the Ti6Al4V-(NiTif /Mg3AlZn) laminate composite,Journal of Alloys and Compounds. 774 (2019) 656-667

[30] Zichuan Lu, Fengchun Jiang , Yunpeng Chang,Zhongyi Niu, Zhenqiang Wang and Chunhuan Guo,Multi-phase intermetallic mixture structure effect on the ductility of Al3Ti alloy,Materials Science and Engineering: A, 2018, 721:274-285

[31] Zichuan Lu, Fengchun Jiang , Yunpeng Chang,Zhongyi Niu, Zhenqiang Wang and Chunhuan Guo ,Interfacial microstructure characterization and mechanical behavior of NiTi fiber reinforced Al3Ti composite, Materials & Design, 2018, 143: 274-284

[32] Chunfa Lin, Fengchun Jiang, Yuqiang Han, Enhao Wang, Ding Yuan, Chunhuan Guo, Mechanical properties and deformation behaviors of innovative Ti-(SiCf/Al3Ti) laminated composites,Journal of Alloys and Compounds,2018, 743:52-62

[33] Yao Tian, Enhao Wang, Wei Li, Zhongyi Niu, YunPeng Chang, Chunhuan Guo, Zhenqiang Wang, Zhe Leng, Fengchun Jiang,Improved fracture toughness of NiTi shape memory alloy fiber-reinforced Ti-Al metal-intermetallic-laminate composite,Journal of Alloys and Compounds,2018,739,669-677

[34] Guangping Zou, Xinhui Shen, Chunhuan Guo, Kenneth S. Vecchio, Fengchun Jiang, Propagation behavior of the stress wave in a hollow Hopkinson transmission bar, Shock Wave, 2018, 28:163-173

[35] Yuqiang Han, Fengchun Jiang, Chunfa Lin, Ding Yuan, Hao Huang, Enhao Wang, Zhenqiang Wang, Chunhuan Guo. Microstructure and mechanical properties of continuous ceramic SiC and shape memory alloy NiTi hybrid fibers reinforced Ti-Al metal-intermetallic laminated composite.Journal of Alloys and Compounds, 2017, 729(30): 1145-1155

[36] Yang Cao, Ningxia Wei, Xiaoxiao Han, Chunhuan Guo, Jinguang Du, Wenbin He, Jun Ma, Fengchun Jiang. Mechanical response of titanium tri-aluminide intermetallic alloy,Materials Science and Engineering: A, 2017,70(26):242-248

[37] Chunfa Lin, Yuqiang Han, Chunhuan Guo, Yunpeng Chang, Xiaoxiao Han, Lin Lan, Fengchun Jiang, Synthesis and mechanical properties of novel Ti-(SiCf/Al3Ti) ceramic-fiber-reinforced metal-intermetallic-laminated (CFR-MIL) composites, Jouranl of Alloys and Compounds, 2017, 722:427-437

[38] Zichun Lu, Chunhuan Guo, Peng Li, Zhenqiang Wang, Yunpeng Chang, Guoyi Tang, Fengchun Jiang, Effect of electropulsing treatment on microstructure and mechanical properties of intermetallic Al3Ti alloy, Journal of Alloys and Compounds, 2017, 708:834-843

[39] Yuqiang Han, Chunfa Lin, Xiaoxiao Han, Yunpeng Chang, Chunhuan Guo, Fengchun Jiang, Fabrication, interfacial characterization and mechanical properties of continuous Al2O3 ceramic fiber reinforced Ti/Al3Ti Metal-Intermetallic Laminated (CCFR-MIL) composite, Materials Science & Engineering A 2017, 688:338-345

[40] Enhao Wang, Yao Tian, Zhenqiang Wang, Feifei Jiao, Chunhuan Guo, Fengchun Jiang, A study of shape memory alloy NiTi fiber/plate reinforced (SMAFR/SMAPR) Ti-Al laminated composites, Journal of Alloys and Compounds, 2017, 696:1059-1066

[41] Chunhuan Guo, Peijun Zhou, Ding Yuan, Lu Lu, Kenneth S. Vecchio and Fengchun Jiang, Propagating Behavior of Stress Pulses in Large Diameter Hopkinson Tube, Experimental Mechanics, 2017, 57(2), 353-357

[42] Zichuan Lu, Ningxia Wei, Peng Li, Chunhuan Guo and Fengchun Jiang, Microstructure and Mechanical Properties of Intermetallic Al3Ti Alloy with Residual Aluminum, Materials & Design, 2016, 110:466-474

[43] Wei Ningxia, Han Xiaoxiao, Zhang Xueyi, Cao Yang, Guo Chunhuan, Lu Zichuan, Jiang Fengchun, Characterization and properties of intermetallic Al3Ti alloy synthesized by reactive foil sintering in vacuum pressure, Journal of Materials Research, 2016, 31(17): 1-8

[44] Peijun Zhou, Chunhuan Guo, Enhao Wang, Zeming Wang, Ye Chen, Fengchun Jiang, Interface tensile and fracture behavior of the Ti/Al3Ti Metal-Intermetallic Laminate (MIL) composite under quasi-static and high strain rates, Materials Science & Engineering A,2016,665:66-75

[45] Enhao Wang, Chunhuan Guo, Peijun Zhou, Chunfa Lin, Xiaoxiao Han and Fengchun Jiang. Fabrication, Mechanical Property and Damping Capacity of Shape Memory Alloy NiTi Fiber-Reinforced Metal-Intermetallic-Laminate (SMAFR-MIL) Composite. Materials & Design, 2016, 95:446-454

[46] Yang Cao, Chunhuan Guo, Shifan Zhu, Ningxia Wei, Raja Ahsan Javed, Fengchun Jiang. Fracture behavior of Ti/Al3Ti metal-intermetallic laminate (MIL) composite under dynamic loading, Materials Science and Engineering A. 2015 ,637: 235-242

[47] Yang Cao, Shifan Zhu, Chunhuan Guo, Kenneth S Vecchio, Fengchun Jiang. Numerical investigation of the ballistic performance of metal-intermetallic laminate composites. Applied Composite Materials, 2015, 22(4): 437-456


[1] A method formetallic hollow sphere composites viaadditive–subtractive hybrid manufacturing, ZL202110690601.X

[2] A method for gradient functional vibration and noise reduction composites viaadditive–subtractive hybrid manufacturing, ZL202110687452.1

[3] A method for fabricating hollow spheresfilled Aluminum Matrix sound insulation materials, ZL201810620893.8

[4] A method for analyzing the effect of ultrasonic impact treatment on residual stresses of metal components manufactured by selective laser melting, ZL201811031831.X

[5] A method of preparing metallic hollow sphere composites with lattice-reinforced structure, ZL202010232984.1

[6] A casting mold formetallic hollow sphere composites and its preparation method, ZL202010232994.5

[7] A method for controlling defects and cracking in Fe-Almetal-intermetallic-laminate composites, ZL201911305408.9

[8] A method for preparing metallic hollow sphere composites, ZL201910449285.X

[9] A method for batch preparation of metallic hollow spheres with uniform wall thickness, ZL201811582941.5

[10] A method for fabricating Al3Ti-316 L stainless steel composites via additive manufacturing, ZL201910633436.7

[11] A method for rapid preparation of metal composite molded parts via selective laser melting additive manufacturing, ZL201811250989.6

[12] A method for improving the microstructure and the mechanical properties of titanium-aluminum laminate composites, ZL201710725348.0

[13] A method for improving the interfacial strength of SiC fiber-reinforced Ti/Al3Timetal-intermetallic-laminate composites, ZL201710086013.9

[14] A technology for preparing rapidly Ti/Al3Ti composites based on ultrasonicconsolidation, ZL201610835450.1

[15] A method for preparing rapidly titanium-copper layered electrode composites, ZL201610821139.1

[16] A method for preparing SiC particle-reinforced Ti/Al3Timetal-intermetallic-laminate composites, ZL201610821138.7

[17] A technology of rapid manufacturing for continuous ceramic fiber homogeneous aluminum strips via ultrasonic consolidation, ZL201510677021.1

[18] A method for improving the room temperature plasticity and strength of Al3Ti intermetallic compounds, ZL201510459762.2

[19] A method for preparing NiTi fiber-reinforcedmetal-intermetallic-laminate composites for vibration and noise reduction, ZL201410384116.X

[20] A method of preparing a lightweightmetal-intermetallic-laminate composites, ZL201310563533.6

[21] A method for preparing molybdenum based alloy with enhanced oxidation resistance by selective laser melting, ZL201811355441.8


Chunhuan Guo