金沙9159游乐场(中国)有限公司-环球百科

彭思远，男，博士，厦门理工学院讲师。厦门市高C高层次人才、厦门市留学人员（厦门留学人员编号：厦人留120211954），2018-2020年获国家公派留学（CSC）赴美国马萨诸塞州立大学-阿姆斯特分校（Umass-Amherst）进行博士生联合培养。2021年12月毕业于华南理工大学材料加工工程专业。2022年2月进入金沙9159游乐场(中国)有限公司-环球百科材料成型及控制工程系工作。

近年来主要从事3D打印技术和粉末冶金技术研究，在高熵合金、高强韧铝基合金、非晶合金等有较深入的研究。目前已在《Nature》、《Materials Today》、《Scripta Materialia》、《Materials Research Letters》、《Nano Research》、《Journal of Alloys and Compounds》等期刊发表SCI论文18余篇，已申请或授权专利6项。

主要研究领域：

[1] 粉末冶金和增材制造技术制备高强韧高熵高温合金

[2] 高强韧铝基合金、非晶合金的组织-性能-强化机制研究

[3] 相图及热力学计算

近年来主持的项目：

[1] 厦门市自然科学基金青年项目，主持，2023-2026

[2] 福建省教育厅项目-中青年教师教育项目，主持，2023-2025

[3] 厦门理工学院高层次人才项目，主持，2022-2024.

近年来发表的学术论著：

[1] Siyuan Peng¹, Shuai Feng¹, Zhenfei Jiang, Jie Ren, Shengbiao Zhang, Yanfang Liu, Liang Zhang, Wenyi He, Zhongqiang Liu, Shuai Guan*, Zhiyu Xiao*, Wen Chen*, High strength and ductility in a dual-phase hetero-structured AlCoCrFeNi_2.1 eutectic high-entropy alloy by powder metallurgy, Materials Research Letters, 2024 (IF=8.6, 中科院1区)

[2] Jie Ren, Yin Zhang, Dexin Zhao, Yan Chen, Shuai Guan, Yanfang Liu, Liang Liu, Siyuan Peng, Fanyue Kong, Jonathan D. Poplawsky, Guanhui Gao, Thomas Voisin, Ke An, Y. Morris Wang, Kelvin Y. Xie, Ting Zhu*, Wen Chen*. Strong yet ductile nanolamellar high-entropy alloys by additive manufacturing[J]. Science, 2022. IF=47.7

[3] John J. Bowen, Shahryar Mooraj, Jacob A. Goodman, Siyuan Peng, Dayton P. Street, Benito Roman-Manso, Emily C. Davidson, Kara L. Martin, Lisa M. Rueschhoff, Scott N. Schiffres, Wen Chen*, Jennifer A. Lewis*, Matthew B. Dickerson*. Hierarchically Porous Ceramics via Direct Writing of Preceramic Polymer-Triblock Copolymer Inks. Materials Today, 2022. IF=31.0

[4] Siyuan Peng, Shahryar Mooraj, Rui Feng, Liang Liu, Jie Ren, Yanfang Liu, Fanyue Kong., Additive manufacturing of three-dimensional (3D)-architected CoCrFeNiMn high-entropy alloy with great energy absorption. Scripta Materialia, 190, pp.46-51, 2021.

[5] Shuai Feng, Shuai Guan, Xiangkui Liu, Siyuan Peng, Kewei Dong, Yang Yang, Xinsheng Chen, Yuzheng Liang, Qipeng Wang, Yanfang Liu, Yong Peng, Kehong Wang, Wen Chen, Jian Kong, Lightweight Co-free eutectic high-entropy alloy with high strength and ductility by casting, Materials Research Letters, 2024.

[6] Zhenfei Jiang, Weiping Chen, Chenliang Chu, Zhiqiang Fu, Julia Ivanisenko, Hao Wang, Siyuan Peng, Yemao Lu, Enrique J Lavernia, Horst Hahn, Directly cast fibrous heterostructured FeNi_0.9Cr_0.5Al_0.4 high entropy alloy with low-cost and remarkable tensile properties, Scripta Materialia, 2023.

[7] Zhenfei Jiang, Weiping Chen, Taoqian Cheng, Zhiqiang Fu, Siyuan Peng, Shuai Guan, As-cast Co-free Al_{0. 4}Ni_{0. 4}CrFe high entropy alloy with hierarchical coherent precipitates and remarkable mechanical properties, Materials Today Communications, 2023.

[8] Siyuan Peng, Bo Cui, Tungwai Leo Ngai, Yanfang Liu, Zhiyu Xiao, Wen Chen. Lamellar-structured Al-based Alloys with High Strength and Plasticity[J], Journal of Alloys and Compounds 865, pp 158927, 2021.

[9] W Zhang, L Liu, S Peng, J Ren, F Wu, J Shang, M Chen, Y Zhang, Z Zhao et. al. The tensile property and notch sensitivity of AlCoCrFeNi_2.1high entropy alloy with a novel “steel-frame” eutectic microstructure[J]. Journal of Alloys and Compounds. 2021.

[10] Mooraj Shahryar, Zhen Qi, Cheng Zhu, Jie Ren, Siyuan Peng, Liang Liu, Shengbiao Zhang et al. 3D printing of metal-based materials for renewable energy applications[J]. Nano Research (2020): 1-28.

[11] Mooraj Shahryar, Samuel Welborn, Shuyang Jiang, Siyuan Peng, Jintao Fu, Sarah Baker, Eric B. Duoss, Cheng Zhu, Eric Detsi, and Wen Chen. Three-dimensional hierarchical nanoporous copper via direct ink writing and dealloying[J]. Scripta Materialia 177 (2020): 146-150.

[12] Ji Li., Siyuan Peng, Z. G. Zheng, J. L. Zuo, D. C. Zeng, Z. G. Qiu, M. Xiao, J. W. Chen, and H. Y. Yu., The degradation performance of the Fe₇₈Si₁₃B₉ and (FeCoNi)₇₈Si₁₃B₉ high-entropy amorphous alloy ribbons[J]. Journal of Alloys and Compounds 815, 152347, 2020.

[13] Ji Li, Chen, J.W., Zheng, Z.G., Qiu, Z.G., Peng, S.Y., Zhou, S.H. and Zeng, D.C., Excellent degradation performance of the Fe78Si11B9P2 metallic glass in azo dye treatment[J]. Journal of Physics and Chemistry of Solids, p.109546. 2020.

[14] Siyuan Peng, Zhiyu Xiao, Tungwai Leo Ngai, Zhongqiang Liu, Weiwen Zhang. Experimental investigation and thermodynamic analysis of glass forming ability of the Al–Co–Sm ternary system. Journal of Non-Crystalline Solids, 65-71. 2018.

[15] Siyuan Peng, Zhongxi Zhu, Wenbo Ma, Qilin Xu, Meiliang Chen, Fucheng Yin. The 600 °C and 800 °C isothermal sections of the Zn–V–Sb system. International Journal of Materials Research, 107(1): 21-27, 2016.

[16] Siyuan Peng, Meiliang Chen, Zhongxi Zhu, Wenbo Ma, Xinming Wang, Fucheng Yin. Experimental investigation of the Zn–Co–Sb system at 450 °C. International Journal of Materials Research, 107(4): 340-347, 2016.

[17] Zeyu Dai, Zhongxi Zhu, Wenbo Ma, Siyuan Peng, Fucheng Yin. The Zn-Rich Corner of the Zn–Al–V–Sb Quaternary System at 450 and 600 °C. Journal of Phase Equilibria and Diffusion, 2016, 37(5): 574-580.

[18] Zhongxi Zhu, Siyuan Peng, Wei Zhu, Qilin Xu, Meiliang Chen, Fucheng Yin. Experimental investigation of the Zn–V–Sb system at 450 °C. Journal of Phase Equilibria and Diffusion, 36: 120-126, 2015.

近年来获申请或授权专利情况：

[1] 国家发明专利：一种结合直写3D打印及热等静压技术制备高熵合金的方法[P]. 福建，申请号：CN202410108071.7.

[2] 国家发明专利：结合粉末热挤压及热处理制备高强韧共晶高熵合金的方法[P]. 福建，申请号：CN202410104315.4.

[3] 国家发明专利：一种铁基非晶合金条带及其在印染污水降解处理中的应用[P]. 广东，授权号：CN108220824B, 2021-05-14.

[4] 国家发明专利：一种Al-Ni-Co-Sm系铝基非晶合金薄带及其制备方法[P]. 广东省，授权号：CN107236912B, 2019-08-20.

[5] 国家发明专利：一种铝合金条带及其在印染污水处理中的应用[P]. 广东省，授权号: CN107988529B, 2018-05-04.

[6] 国家发明专利：一种非晶合金带材及其制备方法与在染料废水处理中的应用[P]，广东省, 授权号: CN107988568B, 2019-10-18.

联系方式

Email：PengSY2014@hotmail.com; 2022000003@xmut.edu.cn

通讯地址：福建省厦门市集美区理工路600号厦门理工学院综合楼1205