果春焕

1.一种轻质金属间化合物基层状复合材料的制备方法，ZL201310563533.6
2.用于减振降噪的NiTi纤维增强金属间化合物基层状复合材料的制备方法，ZL201410384116.X
3.一种提高Al3Ti金属间化合物室温塑性及强度的方法，ZL201510459762.2
4.连续陶瓷纤维均布铝带材超声波固结快速制造技术，ZL201510677021.1
5.SiC颗粒增强金属间化合物基层状复合材料Ti/Al3Ti的制备方法，ZL201610821138.7
6.一种钛铜层状电极复合材料快速制备方法，ZL201610821139.1
7.基于超声波固结成形辅助复合材料Ti/Al3Ti快速制备技术，ZL201610835450.1
8.一种提高SiC纤维增强Ti/Al3Ti金属间化合物基层状复合材料界面强度的方法，ZL201710086013.9
9.一种改善钛铝层状复合材料组织和提高力学性能的方法，ZL201710725348.0
10.改善增材制造金属组织与性能的超声微锻造复合装置与增材制造方法，ZL201710725336.8
11.一种空心球与铝合金基隔声材料的制备方法, ZL201810620893.8
12.Ultrasonic micro-forging combined apparatus for improving structure and performance of additive manufactured metal method，US11,110,513B2
13.选区激光熔化增材制造快速制备金属复合材料成型件的方法，ZL201811250989.6
14.一种Al3Ti-316 L不锈钢复合制造的增材制造方法，ZL201910633436.7
15.壁厚均匀的金属空心球批量制备方法，ZL201811582941.5
16.一种复合空心球的制备方法，ZL201910449285.X
17.一种控制FeAl金属间化合物层状复合材料缺陷和开裂的方法，ZL201911305408.9
18.一种金属空心球复合材料的铸造模具及其制备方法，ZL202010232994.5
19.具有网格增强结构的金属空心球复合材料的制备方法，ZL202010232984.1
20.激光熔丝增材制造钛合金构件组织细化和等轴晶转化方法，ZL202010282733.4
21.一种超声冲击锻造装置，ZL202010395384.7
22.一种超声冲击辅助超高速激光熔覆制备非晶涂层的方法，ZL202010233001.6
23.一种估算金属增材制造超声冲击处理作用层深度的方法，ZL201811251010.7
24.一种金属空心球复合材料增减材制造的方法, ZL202110690601.X
25.一种梯度功能减振降噪复合材料增减材复合制造方法, ZL202110687452.1
26.一种金属空心球球壁孔隙率的测量方法，ZL202010204210.8

近三年发表的SCI论文情况：
2023年：
[1] M.Y. Xiao, F.C. Jiang, C.H. Guo, H.L. Song, T. Dong. Investigation on Microstructure and Mechanical Properties of Fe-based Amorphous Coatings Prepared via Laser Cladding Assisted with Ultrasonic Vibration. Optics and Laser Technology, Accept
[2] H.L. Song, F.C. Jiang, C.H. Guo, Q. Sun, H.X. Li, Z.L. Yang, L.Y. Li, M.X. Diao, Z.C. Zhang. Effect of ultrasonic vibration on the microstructure and microhardness of laser cladding Fe-based crystalline/amorphous composite coatings. Materials Letters. 2023, 335, 133780.
[3] X.B. Zhu, F.C. Jiang, C.H. Guo, Z. Wang, T. Dong, H.X. Li. Prediction of melt pool shape in additive manufacturing based on machine learning methods. Optics and Laser Technology. 2023, 159:108964.
2022年：
[1] M.X. Diao, C.H. Guo, Q.F. Sun, F.C. Jiang L.Y. Li, J.F. Li, D. Xu, C.M. Liu, H.L. Song. Improving mechanical properties of austenitic stainless steel by the grain refinement in wire and arc additive manufacturing assisted with ultrasonic micro-forging. Materials Science & Engineering A. 2022, 857, 144044.
[2] L.B. Sun, C.H. Guo, L.J. Huang, F.C. Jiang, K. Xu, R.S. Huang. Effect and mechanism of inter-layer ultrasonic impact strengthening on the anisotropy of low carbon steel components fabricated by wire and arc additive manufacturing. Materials Science and Engineering A. 2022, 848,143382.
[3] M.X. Cao, F.C. Jiang, C.H. Guo, Y.C. Li, T.M. Yu, R.N. Qin. Interface characterization and mechanical property of an aluminum matrix syntactic foam with multi-shelled hollow sphere structure. Ceramics International. 2022, 48(13), 18821-18833.
[4] M.X. Cao, F.C. Jiang, R. Zhou, R.N. Qin, H.X. Zhang, Z.Q. Wang, C.H. Guo. A novel bio-inspired metal hollow sphere filled TC4/Al sandwich composite: fabrication and compressive properties. Materials Today Communications. 2022, 31, 103349.
[5] T.M. Yu, F.C. Jiang, Y.Y. Chen , M.X. Cao, C.H. Wang, R.N. Qin, C.H. Guo. Acoustic properties of polyurethane composite with both millimeter-scale closed cavity and nanometer-scale semi closed cavity. Materials Today Communications. 2022, 31, 103295.
[6] R.N. Qin, F.C. Jiang, M.X. Cao, Y.C. Li, H.X. Zhang, C.H. Guo. Preparation, microstructure and compressive property of NiTi alloy hollow spheres fabricated by powder metallurgy. Materials Today Communications. March 2022, 30:103039.
[7] C.H. Wang, C.H. Guo, R.N. Qin, F.C. Jiang，Fabrication and characterization of layered structure reinforced composite metal foam. Journal of Alloy and Compound. 2022, 895(2):162658.
[8] T.M. Yu, F.C. Jiang, M.X. Cao, C.H. Wang, R.N. Qin, C.H. 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.
[9] C.H. Wang, F.C. Jiang, R.N. Qin, T.M. Yu, C.H. 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.
[10] R.N. Qin, C.H. Guo, F.C. Jiang, Y.C. Li, M.X. Cao, D.S. 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, 860:144321.
2021年：
[1] C.M. Liu, H.B. Gao, L.Y. Li, J.D. Wang, C.H. Guo, F.C. Jiang. A review on metal additive manufacturing: modeling and application of numerical simulation for heat and mass transfer and microstructure evolution. China Foundry. 2021, 18, 317-334.
[2] C.H. Wang, C.H. Guo, F.C. 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.
[3] X. Wu, F.C. Jiang, Z.Q. Wang, D. Yuan, G.H. Gao, C.H. Guo. Mechanical behavior and microstructural evolution of a bainite-based quenching-partitioning (BQ&P) steel under high strain rates. Materials Science and Engineering A. 2021, 818, 141414.
[4] M.Y. Xiao, H.B. Gao, L.B. Sun, Z. Wang, G.R. Jiang, Q.S. Zhao, C.H. Guo, L.Y. Li, F.C. Jiang. Microstructure and mechanical properties of Fe-based amorphous alloy coatings prepared by ultra-high speed laser cladding. Materials Letter. 2021, 297(3):130002.
[5] D. Yuan, X.J. Sun, L.B. Sun, Z.C. Zhang, C.H. Guo, J.D. Wang, F.C. Jiang. Improvement of the grain structure and mechanical properties of austenitic stainless steel fabricated by laser and wire additive manufacturing assisted with ultrasonic vibration. Materials Science and Engineering A. 2021, 813, 141177.
[6] C.P. Zhou, J.D. Wang, C.H. Guo, C.Z. Zhao, G.R. Jiang, T. Dong, F.C. Jiang. Numerical study of the ultrasonic impact on additive manufactured parts. International Journal of Mechanical Sciences. 2021, 197(7672):106334.
[7] D. Yuan, S.Q. Shao, C.H. Guo, F.C. Jiang, J.D. Wang. Grain refining of Ti-6Al-4V alloy fabricated by laser and wire additive manufacturing assisted with ultrasonic vibration. Ultrasonics Sonochemistry. 2021, 73: 105472.
[8] F.C. Jiang, L.B. Sun, R.S. Huang, H. Jiang, G.Y. Bai, X.P. Qi, C.M. Liu, Y. Su, C.H. Guo, J.D. Wang. Effects of Heat Input on Morphology of Thin Wall Components Fabricated by Wire and Arc Additive Manufacturing. Advanced Engineering Materials. 2021, 23:2001443.
[9] P. Li, Z.Q. Wang, M.X. Diao, C.H. Guo, J.D. Wang, C.Z. Zhao, F.C. Jiang. Dynamic recrystallization and recovery in very high-power ultrasonic additive manufacturing. Advanced Engineering Materials. 2021, 23:2000958.
[10] P. Li, Z.Q. Wang, M.X. Diao, C.H. Guo, J.D. Wang, C.Z. Zhao, F.C. Jiang. Effect of processing parameters on bond properties and microstructure evolution in ultrasonic additive manufacturing (UAM). Materials Research Express. 2021, 8, 036507.
[11] T.M.Yu，F.C. Jiang，R.P. Zhang，M.X. Cao，R.N. Qin，C.H. Guo，Z.Q. Wang，Y.P. Chang. Effects of volume fraction and diameter of hollow spheres on acoustic properties of Metallic-Hollow-Sphere/Polyurethane (MHSP) acoustic composites. Composite Structures. 2021, 261, 113554.
[12] F.C. Jiang, T.M. Yu, C.H. Wang, M.X. Cao, Z.Q. Wang, Y.P. Chang, C.H. Guo, Acoustic/mechanical properties of polyurethane composites with syntactic hollow spheres. Polymers for Advanced Technologies. 2021, 32(3):1363-1371.
[13] T.M. Yu, F.C. Jiang, C.H. Wang, M.X. Cao, Z.Q. Wang, Y.P. Chang, C.H. Guo, Investigation on Fabrication and Microstructure of Ti-6Al-4V Alloy Hollow Spheres by Powder Metallurgy. Metals and Materials International. 2021, 27(5):1083-1091.
[14] T.M. Yu, F.C. Jiang, X. Cui, M.X. Cao, C.H. Guo, Z.Q. Wang, Y.P. Chang. Properties and Mechanism of a Novel Metallic-Hollow-Spheres/Polyurethane (MHSP) Acoustic Composite. Journal of Applied Polymer Science. 2021, 138: e49891.
2020年：
[1] C.H. Wang, F.C. Jiang, S.Q. Shao, T.M. Yu, C.H. Guo. Acoustic Properties of 316L Stainless Steel Hollow Sphere Composites Fabricated by Pressure Casting. Metals. 2020, 10, 1047.
[2] F.C. Jiang, X. Li, Z.Q. Wang, C.H. Guo, J.D. Wang. Interfacial characteristics and bending properties of a Ti6Al4V-Mg3AlZn laminate metal composite. Journal of Alloys and Compounds. 2020, 843, 156065.
[3] T.M. Yu, F.C. Jiang, Z.Q. Wang, Y.P. Chang, C.H. Guo. Acoustic Insulation and Absorption Mechanism of Metallic Hollow Spheres Composites with Different Polymer Matrix. Composite Structures. 2020, 248, 112566.
[4] L.B. Sun, F.C. Jiang, R.S. Huang, D. Yuan, Y. Su, C.H. Guo, J.D. Wang. Investigation on the Process Window with Liner Energy Density for Single-layer Parts Fabricated by Wire and Arc Additive Manufacturing. Journal of Manufacturing Processes. 2020, 56:898-907.
[5] L.B. Sun, F.C. Jiang, R.S. Huang, D. Yuan, C.H. Guo, J.D. Wang. Anisotropic Mechanical Properties and Deformation Behavior of Low-Carbon High-Strength Steel Component Fabricated by Wire and Arc Additive Manufacturing. Materials Science and Engineering A. 2020, 787, 139514.
[6] M.X. Cao , F.C. Jiang , C.H. Wang , H.Y. Cui , C.H. Guo, Y.P. Chang , Z.Q. Wang. Preparation, microstructure and mechanical property of double-layered metal-ceramic hollow spheres. Materials Science and Engineering A. 2020, 780:139188.
[7] L.B. Sun, F.C. Jiang, R.S. Huang, D. Yuan, C.H. Guo, J.D. Wang, Investigation of Microstructure and Mechanical Properties of Low-carbon Steel with High strength Fabricated by Wire and Arc Additive Manufacturing. Metals. 2020, 10(2):216.
[8] C.P. Zhou, F.C. Jiang, D. Xu, CH. Guo, C.H. Zhao, Z.Q. Wang, J.D. Wang. A calculation model to predict the impact stress field and depth of plastic deformation zone of additive manufactured parts in the process of ultrasonic impact treatment. Journal of Materials Processing Technology. 2020, 280, 116599.