机械装备与控制工程系
suncy@ustb.edu.cn
010-62332261
机电楼1012B
本科生课程:工程材料学、工程材料的力学行为、塑性加工技术、知识工程概论
研究生课程:有限元分析及应用、非线性有限元
社会/学术兼职:
机械工业教育协会高等工程教育材料成型及控制工程专业教学委员会委员
机械工程学会塑性工程分会委员会委员
机械工程学会成组与智能集成技术分会委员会委员
北京市金属学会冶金设备分会委员会委员
河北省管道装备工程技术研究中心技术委员会副主任
塑性工程分会管材成形技术论坛学术委员会委员
塑性工程分会塑性理论论坛学术委员会委员
国家板带生产先进装备工程技术研究中心特聘教授
高效轧制国家工程研究中心特聘教授
教育经历:
1995.09-1999.07 太原理工大学,材料加工工程专业,获学士学位
2001.09-2004.03 西北工业大学,材料加工工程专业,获硕士学位
2004.09-2008.01 清华大学,材料科学与工程专业,获博士学位
工作经历:
1999.07-2001.08 太原重型机械集团有限工司,工程师
2008.01-2011.06 1066vip威尼斯,1066vip威尼斯,讲师
2011.06-2016.07 1066vip威尼斯,1066vip威尼斯,副教授
2012.01-2013.01 帝国理工学院,机械工程系,访问学者
2013.06-2016.07 1066vip威尼斯,1066vip威尼斯,副教授、破格博士生导师
2016.07-至 今 1066vip威尼斯,1066vip威尼斯,教授、博士生导师
简历:
主要围绕先进材料(TWIP钢、镁合金、镍基合金)多尺度力学行为及其塑性加工理论(热挤压、热成形、等温锻造、强塑变挤压成形)展开研究,一直致力于多尺度微结构演化及其联合增强增塑与成形过程性能调控的理论和应用,逐步形成了“微结构与性能调控”的特色研究思路。作为负责人,主持重点研发计划项目1 项、国家自然科学基金项目(重点、国合、面上、NSAF、青年等)9 项、装备预研项目(共性技术、快速扶持、联合基金等)6 项、04科技重大专项课题1项、工信部基础加强任务1项、北京市自然科学基金2 项等20余项国家级、省部级基础研究项目。在难变形合金多机制耦合力学行为的多尺度建模及形性协同调控成形技术研究方面,IJP、MC、JMPT、IJMS、MD、MSE-A、机械工程学报、金属学报等国内外重要期刊上发表论文近120余篇,其中SCI收录70篇,受邀参编英文专著1 部(Oxford 出版社),国家发明专利17项(授权15项),其中发表在机械工程、固体力学领域权威期刊“International Journal of Plasticity文章5篇,其中2篇被选为“Top 25 Hottest Articles”、“Mostdownload Articles”和2016年ESI论文。获得教育部科技进步二等奖(第四名)、NSAF 优秀结题奖2 次(2017、2021),受邀为精密成形技术通讯编委及IJP、IJMS、JMPT、MD、MSE-A、金属学报等数十个知名刊物审稿人。参加了ICTP、Metalforming、国际塑性论坛等国际国内学术会议,口头报告8次并承担大会共同主席、分会场主席10余次,参加翻译国际名著《有限元方法:基本原理》。担任国家科技奖励、重点研发计划、科技部“高层次人才”计划、国家自然科学基金、工信部基础加强、装备预研、国防基础科研、装备预研教育部联合基金等会评专家。
发表论文:
[1]王锴,王琴,温璐,尚勇,王明佳,孙朝阳.隧道掘进机滚刀刀圈模锻成形工艺的模拟与实验研究[J].精密成形工程, 2023, 15(2): 114-124.
[2]L Qian, S Xu, H Li, Y Zhou, C Sun, T Ma.Influences of stress states and loading directions on the anisotropic fracture of magnesium alloy AZ31B sheet under tension-dominated forming conditions[J].Archives of Civil and Mechanical Engineering, 2022, 22 (4), 1-18.
[3]X Zhou, C Sun, B Wang, J Jiang, Investigation and prediction of central cracking in cross wedge rolling[J]. The International Journal of Advanced Manufacturing Technology,2022,123 (1), 145-159.
[4]N Zhu, C Sun, Y Feng, X Li, Phase field simulation on grain growth with particles located on grain boundaries[J], Materials Science and Technology, 2022: 1-11.
[5]W Cai, C Sun, C Wang, L Qian, Y Li, MW Fu, Modelling of the intergranular fracture of TWIP steels working at high temperature by using CZM–CPFE method[J], International Journal of Plasticity,2022,156, 103366
[6]W Cai, C Wang, C Sun, L Qian, MW Fu, Microstructure evolution and fracture behaviour of TWIP steel under dynamic loading[J], Materials Science and Engineering: A,2022, 851, 143657
[7]X Li, L Qian, J Sun, N Zhu, C Sun, A non-sequential isothermal local-loading forming process for large-scale rib-web components[J], Journal of Manufacturing Processes,2022, 79, 666-677
[8]X Guo, N Mao, C Sun, C Wang, Y Cui, Z Xiong, Distribution of dislocation-twin interaction in TWIP steel under different loading modes[J], Materials Today Communications, 2022,103820
[9]J Wang, Z Xiao, X Wang, Y Sun, C Sun, Ductile fracture behavior in micro-scaled progressive forming of Magnesium-Lithium alloy sheet[J], The International Journal of Advanced Manufacturing Technology,2022, 1-14
[10]C Wang, C Sun, W Cai, L Qian, X Guo, MW Fu, Evolution of partial dislocation slip–mediated deformation twins in single crystals: a discrete dislocation plasticity model and an analytical approach[J], International Journal of Plasticity,2022,152, 103230
[11]N Zhu, C Sun, L Qian, M Wang, X Li, Novel process combined extrusion and severe plastic deformation for plate component with rib-web structure of magnesium alloys[J], The International Journal of Advanced Manufacturing Technology,2022, 119 (5), 3647
[12]C Wang, W Cai, C Sun, X Li, L Qian, J Jiang, Strain rate effects on mechanical behavior and microstructure evolution with the sequential strains of TWIP steel[J], Materials Science and Engineering: A,2022, 835, 142673
[13]L Qian, Z Cui, C Sun, S Geng, Z Sun, Investigation of deformation compatibility and power consumption during KOBO extrusion of bimetallic composite tube[J], The International Journal of Advanced Manufacturing Technology,2022, 118 (9), 3477
[14]Z Su, C Sun, M Wang, L Qian, X Li, Modeling of microstructure evolution of AZ80 magnesium alloy during hot working process using a unified internal state variable method[J], Journal of Magnesium and Alloys,2022, 10 (1), 281-294
[15]刘杨, 李志强, 赵冰, 杨涛, 孙朝阳. TA32钛合金超塑性变形行为及本构模型[J].稀有金属材料与工程. 2022, 51(10): 3753-3761.
[16]蔡旺;王春晖;孙朝阳;马晋遥;李月敏;钱凌云;张跃飞. 耦合温度效应晶体塑性的TWIP钢变形行为研究[J].机械工程学报.2022,58(20):283-293
[17]Sun, Chaoyang, Wang, Mingjia, Qian, Lingyun and Wang Fu, Ming. Extrusion Forming of Metallic Parts and Structures[M]. In: Francisca G. Caballero (ed.), Encyclopedia of Materials: Metals and Alloys. 2022, vol. 4, pp. 144-159. Oxford: Elsevier.
[18]钱凌云; 马腾云; 安鹏; 纪婉婷; 孙朝阳. 金属薄板面内压剪变形的损伤断裂行为[J].工程学报.2021,43(2):263-272.
[19]栗琳,温薇,孙朝阳. 基于微信小程序实验室资源开放平台探索[J]. 实验室研究与探索.2021, 40(2):248-251.
[20]Kai Zhang, Jinghua Zheng, Christopher Hopper, Chaoyang Sun, Jun Jiang. Enhanced plasticity at cryogenic temperature in a magnesium alloy[J]. Materials Science and Engineering: A. 2021, 8: 141001.
[21]徐宁宁, 孙朝阳, 钱凌云, 倪克志, 蔡旺. 镁合金扭-挤成形载荷的主应力法求解模型[J]. 机械工程学报, 2021,57(04):73-82.
[22]钱凌云,纪婉婷,王小灿,孙朝阳,马腾云.不同应力状态下的高强钢板断裂机理及预测[J].机械工程学报,2020,56(24):72-80..
[23]蔡旺,钱凌云,孙朝阳,张帅,李明,姚松林.基于CPFE-MK模型的TWIP钢板成形极限预测[J].塑性工程学报,2021,28(06):53-60.
[24]王春晖,孙朝阳,郭祥如,魏云灿,蔡旺.单晶铜塑性变形的二维离散位错动力学模拟研究[J].工程科学学报:2021,43(10):1366-1375.
[25]Chunhui Wang, Chaoyang Sun, Lingyun Qian, Wang Cai. Dynamic mechanical behavior induced by high strain rate and adiabatic temperature rise of twinning induced plasticity (TWIP) steel[J]. Materials Science and Technology (United Kingdom), 2021, 37(3): 280-290.
[26]X.T. Li, L.Y. Qian, C.Y. Sun, W. P. Ning. The effect of loading mode on isothermal local loading forming of magnesium alloy rib-web component[J]. The International Journal of Advanced Manufacturing Technology. 2021, (114):7-8:2485-2497.
[27]N.Y. Zhu, C.Y. Sun, Y.L. Li, L.Y. Qian, S.Y. Hu, Y. Cai, Y.H. Feng. Modeling discontinuous dynamic recrystallization containing second phase particles in magnesium alloys utilizing phase field method [J]. Computational Materials Science, 2021, 200:110858.
[28]Guo, XR,Sun, CY, Wang, CH , Jiang, J, Fu, MW. Study of dislocation-twin boundary interaction mechanisms in plastic deformation of TWIP steel by discrete dislocation dynamics and dislocation density-based modeling[J]. International journal of plasticity. 2021.145:103076.
[29]Lingyun Qian, Wanting Ji, Chaoyang Sun, Gang Fang, Junhe Lian. Prediction of edge fracture during hole-flanging of advanced high-strength steel considering blanking pre-damage[J]. Engineering Fracture Mechanics, 2021, 248:107721.
[30]M. J. Wang, C. Y. Sun, M.W. Fu, Z. L. Liu, L. Y. Qian. Study on the dynamic recrystallization mechanisms of Inconel 740 superalloy during hot deformation [J]. Journal of Alloys and Compounds. 2020, 820, 153325.
[31]Mingjia Wang, Chaoyang Sun, M.W. Fu, Zhongli Liu, Chunhui Wang. Microstructure and microtexture evolution of dynamic recrystallization during hot deformation of a nickel-based superalloy [J]. Materials and Design. 2020, 188, 108429.
[32]Mingjia Wang, Chaoyang Sun, M. W. Fu, Zhongli Liu, Chunhui Wang. Experimental investigations and constitutive modeling of the dynamic recrystallization behavior of Inconel 740 superalloy [J]. Materials Science and Engineering: A. 2020, 793, 139939.
[33]Y. Cai, C.Y. Sun, Y.L. Li, S.Y. Hu, E.I. Barker, L.Y. Qian. Phase field modeling of discontinuous dynamic recrystallization in hot deformation of magnesium alloys [J]. International Journal of Plasticity. 2020, 133, 102773.
[34]C.H. Wang, W.R. Wang, C.Y. Sun, Z.H. Sun, J.M. Zhang, Z.X. Su. Modeling of creep deformation in evaluated temperature of BSTMUF601 superalloy using the BP neural networks [J]. Rare Metal Materials and Engineering. 2020, 49(6): 1885-1893.
[35]D.H. Qin, M.J. Wang, C.Y. Sun, Z.X. Su, L.Y. Qian, Z.H. Sun. Interaction between texture evolution and dynamic recrystallization of extruded AZ80 magnesium alloy during hot deformation[J]. Materials Science and Engineering: A. 2020, 788, 139537.
[36]N. Guo, J. Wang, C. Y. Sun, Y. F. Zhang, M. W. Fu. Analysis of size dependent earing evolution in micro deep drawing of TWIP steel by using crystal plasticity modeling [J]. International Journal of Mechanical Sciences, 2020, 165, 105200.
[37]张佳明,孙朝阳,从云鹏. BSTMUF601板材焊接接头在高温持久应力下的组织转变特性试验研究, 热加工工艺.2020,49(9):19-23.
[38]A Wang, K Zhong, O El Fakir, C Sun, J Liu, LL Wang. Springback Analysis of AA5754 under Warm Stamping Conditions [J]. Engineering Science & Technology, 2020.1(1):39-53.
[39]Z.X. Su, C.Y. Sun, M.W. Fu, L.Y. Qian. Physical-based constitutive model considering the microstructure evolution during hot working of AZ80 magnesium alloy [J]. Advances in Manufacturing, 2019 (7): 30-41.
[40]钱凌云,王梦琦,孙朝阳,王小灿,核电主管道非对称双管嘴同时挤压成形工艺[J],工程科学学报, 2019,41(1):124-133.
[41]Lingyun Qian, Xiaocan Wang, Chaoyang Sun, Anyi Dai, Correlation of macroscopic fracture behavior with microscopic fracture mechanism for AHSS sheet [J], Materials, 2019, 12, 900.
[42]Su, Z.X. Li, N. Sun, C.Y. Zhao, J.Q. Wang, C.H. Qian, L.Y. Strain rate-dependent hardening with dislocation-twin interaction of Fe-Mn-Al-C steel using crystal plasticity[J]. Materials Science and Technology (United Kingdom), 2019, 35(12): 1743-2847.
[43]C.Y. Sun, Y.P. Cong, Q.D. Zhang, M.W. Fu, L. Li, Element diffusion model with variable coefficient in bimetallic bonding process. Journal of Materials Processing Technology.2018, 253:99-108.
[44]Mingjia Wang, Zhongli Liu, Wenrui Wang, Chaoyang Sun, Lingyun Qian. Hot workability integrating processing and activation energy maps of Inconel 740 superalloy, Materials Today Communications. 2018(14): 188-198.
[45]郭祥如, 孙朝阳, 王春晖, 钱凌云, 刘凤仙. 基于三维离散位错动力学的FCC单晶压缩应变率效应研究, 金属学报, 10.11900/0412.1961.2017.00553.
[46]Y. Cai, C.Y. Sun, W. R. Wang, Y.L. Li, L. Wan, L.Y. Qian. A novelty isothermal forming process with sensitivity analysis and multi-stage variable speed for magnesium components, Materials Science & Engineering A, 2018(729):9-20.
[47]Yun Cai; Li Wan; Zonghao Guo; Chaoyang Sun; Daijun Yang; Qingdong Zhang; Yulan Li. Hot deformation characteristics of AZ80 magnesium alloy: Work hardening effect and processing parameter sensitivities, Materials Science & Engineering A, 2017 (687) :113-122.
[48]Chaoyang Sun, Bin Wang, Denis J. Politis, Liliang Wang, Yun Cai, Xiangru Guo, Ning Guo. Prediction of earing in TWIP steel sheets based on coupled twinning crystal plasticity model. International Journal of Advanced Manufacturing Technology. 2017, 89(9):3037-3047.
[49]Chaoyang Sun, Yu Xiang, Geng Liu, Xun Zuo, Mengqi Wang, Qingdong Zhang. Extrusion limit diagram of IN 690 super-alloy tube based on hot processing map. International Journal of Advanced Manufacturing Technology. 2017, 89(9):3419-3428.
[50]Ailing Wang, Kai Zhong, Omer El Fakir, Jun Liu, Chaoyang Sun, Li-Liang Wang, Jianguo Lin, Trevor Dean. Springback analysis of AA5754 after hot stamping: experiments and FE modelling. International Journal of Advanced Manufacturing Technology. 2017, 89(5):1339-1352.
[51]N. Guo, C.Y. Sun, M.W. Fu. Size effect affected earing in micro deep drawing of TWIP steels using dislocation based crystal plasticity model. Procedia Engineering. 2017 (207) 2072-2077.
[52]X.R. Guo, C.Y. Sun, R. Li, N. Guo, Y.C. Wei, Z.X. Su, S.P. Yan. A dislocation density based model for twinning induced softening of TWIP steel. Computational Materials Science. 2017,139 : 8-15.
[53]Guo, N., Sun, C.Y., Fu, M.W., Han, M.C., 2017a. Misorientation-dependent twinning induced hardening and texture evolution of TWIP steel sheet in plastic deformation process. Metals, 2017, 7(9), 348.
[54]N. Guo, C.Y. Sun, M.W. Fu, X.R. Guo. Crystal plasticity based modeling of slip-twinning associated strain hardening for copper single crystal in large plastic deformation, IOP Conference Series: Materials Science and Engineering, CMSE 2017, Beijing, China.
[55]M. C. Han, C. Y. Sun, B. Shi, N. Guo. Strain rate and orientation dependent strain hardening of Mg-9Li-Al using crystal plasticity. Materials Science and Technology (United Kingdom) 2017(1):1-15.
[56]Qingdong Zhang, Xiao Lin, Qiang Cao, Chaoyang Sun, Liyuan Zhang, Boyang Zhang. Flatness evolution of cold-rolled high-strength steel strips during quenching process. Advances in Mechanical Engineering, 2017, 9(12):1-14.
[57]C.Y. Sun, N. Guo, M.W. Fu, S.W. Wang. Modeling of slip, twinning and transformation induced plastic deformation for TWIP steel based on crystal plasticity. International Journal of Plasticity. 2016 (76) :186-212.
[58]C.Y. Sun, N. Guo, M.W. Fu, C. Liu. Experimental investigation and modeling of ductile fracture behavior of TRIP780 steel in hot working conditions. International Journal of Mechanical Sciences. 2016(110): 108-115.
[59]Chaoyang Sun, Li Li, Mingwang Fu, Qingjun Zhou. Element diffusion model for bimetallic hot deformation metallurgical bonding process. Materials & Design. 2016(94):433-443.
[60]Nan Li, Chaoyang Sun, Ning Guo, Momhamed M, Jianguo Lin, Takeki M, Chao Liu. Experimental investigation of boron steel at hot stamping conditions. Journal of Materials Processing Technology.2016(228):2-10.
[61]C.Y. Sun, Y. Xiang, M.W. Fu, Z.H. Sun, M.Q. Wang, J. Yang. The combined lateral and axial extrusion process of a branched component with two asymmetrically radial features. Materials & Design. 2016 (111):492-503.
[62]Zexing Su, Li Wan, Chaoyang Sun, Yun Cai, Daijun Yang. Hot deformation behavior of AZ80 magnesium alloy towards optimization of its hot workability. Materials Characterization. 2016 (122):90-97.
[63]Sun Chaoyang, Liu Dong, Fu Mingwang, Yang Jing. Investigation of extrusion limit of Incoloy028 alloy tube by combining numerical and analytical methods. International Journal of Advanced Manufacturing Technology. 2016(83) :177-185.
[64]Chaoyang Sun, Xun Zuo, Yu Xiang, Jing Yang. Investigation on hot deformation behavior and hot processing map of BSTMUF601 super-Alloy. Matels.2016,6(3),70.
[65]Chaoyang Sun, Yu Xiang, Qingjun Zhou, D.J. Politis, Zhihui Sun, Mengqi Wang. Dynamic Recrystallization and Hot Workability of 316LN Stainless Steel. Matels.2016,6(7),152.
[66]Jing Guo, Zhiming Wang, Xuesheng Li, Chaoyang Sun, Erdong Gao, Hongbo Li. A comparison of the fracture resistances of endodontically treated mandibular premolars restored with endocrowns and glass fiber post-core retained conventional crowns, The journal of advanced prosthodontics, 2016,8(6):489.
[67]J.Guo, Z. Wang, X. Li, C.Y. Sun, E. Gao, H.B.Li. A comparison of the fracture resistances of endodontically treated mandibular premolars restored with endocrowns and glass fiber post-core retained conventional crowns. The journal of advanced prosthodontics.2016. 8(6):489 .
[68]孙朝阳, 李亚民, 祥雨, 杨竞. 316LN高温热变形行为与热加工图研究. 稀有金属材料与工程2016,45(3):688-695.
[69]蔡赟, 孙朝阳, 万李, 阳代军, 苏泽兴. AZ80镁合金热变形中动态再结晶行为研究. 金属学报.2016.52(09), 1123-1132.
[70]孙朝阳, 郭祥如, 郭 宁, 杨 竞, 黄 杰. 耦合孪生的 TWIP钢多晶体塑性变形行为研究. 金属学报. 2015(51): 1507-1515.
[71]孙朝阳, 郭祥如, 黄 杰, 郭 宁, 王善伟, 杨竞. 耦合孪生的 TWIP钢单晶体塑性变形行为模拟研究. 金属学报. 2015(03): 357-363.
[72]孙朝阳, 石兵, 武传标, 叶乃威, 马天军, 徐文亮, 杨竞. BSTMUF601合金的高温蠕变变形机制. 金属学报. 2015(03): 349-356.
[73]杨竞, 黄杰, 孙朝阳, 郭宁, 王斌. 耦合孪生晶体塑性模型硬化参数的灵敏度分析. 工程科学学报. 2015(37): 1076-1083.
[74]徐文亮, 马天军, 孙朝阳. 马弗炉用镍基合金高温性能研究. 宝钢技术. 2015(03):26-29.
[75]Yang Jing, Cai Yun, Sun Chaoyang, Guo Xiangru, Wang Bin. Investigate earing of TWIP steel sheet during deep-drawing process by using crystal plasticity constitutive model. ICNFT2015. DOI: 10.1051/matecconf/20152112002.
[76]孙朝阳,李立,周庆军,杨竞. Q235/316L双金属冶金复合界面元素扩散研究. 第十四届全国塑性工程学术年会论文集. 2015,10.
[77]孙朝阳, 郭宁, 郭祥如, 王斌. 滑移/孪生/相变耦合的晶体塑性有限元模型及应用. 第十四届全国塑性工程学术年会论文集. 2015,10.
[78]Chaoyang Sun, Geng Liu, Qingdong Zhang, Rui Li, Liliang Wang. Determination of hot deformation behavior and processing maps of IN 028 alloy using isothermal hot compression test. Mater. Sci. Eng., A, Struct. Mater., Prop. Microstruct. Process. 2014, 595: 92-98.
[79]Luan, J., Sun, C.Y., Li, X., Zhang, Q. Constitutive model for AZ31 magnesium alloy based on isothermal compression test. Materials Science and Technology (United Kingdom). 2014.30(2): 211-219.
[80]Li Nan, Sun Chaoyang, Guo Ning, et al. Damage investigation of boron steel at hot stamping conditions. Procedia Engineering. 2014. 81(0): 1744-1749.
[81]Jing Yang, Qingjun Zhou, Chaoyang Sun, Dong Liu. Investigation of the mandrel's stress states and wear conditions during tube hot extrusion of IN690 superalloy. Key Materials Engineering. 2014:111-118.
[82]孙朝阳, 黄杰, 郭宁, 杨竞. 基于位错密度的Fe-22Mn-0.6C型TWIP钢物理本构模型研究. 金属学报. 2014(09): 1115-1122.
[83]孙朝阳, 陈桂才, 武传标, 徐文亮, 马天军, 杨竞. 典型耐热镍基合金抗高温氧化行为研究. 腐蚀科学与防护技术. 2014(04): 345-349.
[84]毛艺伦, 张清东, 张晓峰, 孙朝阳. 金属管材曲线型凹模挤压力的基础流函数法求解. 工程力学. 2014, 02:210-213.
[85]Sun C. Y., Bai Q., Lin J., Matsumoto T., Dean T. A., The effect of process and model parameters in temperature prediction for hot dtamping of boron steel. Advances in Mechanical Engineering. 2013:1-10.
[86]P. Zeng, H.F. Du, J.Q. Zhao, L.P. Lei, G. Fang, C.Y. Sun, Y.Gao, Advances on experiment, measure and numerical simulation for behaviors of material processes. Applied Mechanics & Materials. 2013. 302(2):595-598.
[87]杨竞, 武传标, 孙朝阳, 叶乃威, 娄奇袭, 大型光亮退火马弗炉加热段温度场模拟. 1066vip威尼斯学报. 2013(05):667-673.
[88]叶乃威, 吕晓兵, 孙朝阳. 大型不锈钢带光亮退火马弗材料研制及应用. 重型机械. 2013,05(20):37-41.
[89]曹 强, 张清东, 张晓峰, 孙朝阳. Q460D钢马氏体相变塑性的实验研究. 材料科学与工艺. 2013(06): 104-108.
[90]Sun C.Y., Liu G., Zhang Q. D., Li R., Lin J. G., Extrusion limit for AZ31Mg alloy tubes based on numerical simulation. Steel research international. 2012, Special edition: 871-874.
[91]Li R, Sun C.Y, Zhang Q. D. An experimental study on lubrication behavior of glass lubricants during hot plastic deformation of Ni-based alloys. Advanced Materials Research. 2012, 591-593:960-964.
[92]孙朝阳, 栾京东, 刘赓, 等. AZ31镁合金热变形流动应力预测模型. 金属学报. 2012, 48(7): 853-860.
[93]李 瑞, 程 浩, 孙朝阳, 张清东. IN690合金管材热挤压中玻璃垫润滑行为的仿真研究. 机械工程学报. 2012, 48(08): 49-53.
[94]Sun C.Y., Liu J.R., Li R., Zhang Q.D., Dong J.X. Constitutive relationship of IN690 superalloy by using uniaxial compression tests. Rare Metals. 2011, 30(1): 81-86.
[95]Sun C.Y., Liu B., Li R., Zhang Q.D., Non-uniform deformation characteristic of IN 690 superalloy tube in glass lubricated hot extrusion. Advanced Materials Research. 2011(145):332-339.
[96]Mao Y.L., Zhang Q.D., Sun C.Y., Study on extrusion forming of superalloy tube under different dies. Advanced Materials Research. 2011(145): 380-385.
[97]Li R., Cheng H., Sun C.Y., Zhang Q.D., An experimental Study on lubrication behavior of glass during deformation process of Incoloy800H. The second international conference on mechanic automation and control engineering. 2011: 5545- 5548.
[98]孙朝阳, 刘金榕, 李瑞, 张清东. Incoloy 800H高温变形流动应力预测模型. 金属学报. 2011.47(02): 191-196.
[99]孙朝阳, 刘斌, 李瑞, 张清东. IN690合金管热挤压温升与挤压力的研究. 材料科学与工艺. 2011,19(4):52-58.
[100]毛艺伦, 张清东, 孙朝阳. 高温合金管材挤压变形及挤压工艺的流函数法研究. 1066vip威尼斯学报. 2011(04):449-454.
[101]李瑞, 张建民, 孙朝阳, 张清东. IN690合金管坯热挤压变形区形状参数优化. 锻压技术. 2011,36(05):166-169.
[102]叶乃威, 孙朝阳, 张建民. 卷筒轴端疲劳失效分析及其改进. 重型机械. 2011,09(20):62-65.
[103]Sun C.Y., Zhang Q.D. Temperature distributing of superalloy IN718 during tube hot extrusion. Advanced Materials Research.2010 (83-86): 157-164.
[104]Sun C.Y., Zhang P.C., Zhang Q.D., et.al. Mechanism and technology for eliminating curl in stainless steel tension leveling. In:proceedings of the 10th international conference on steel rolling. Beijing, 2010(10):206.
[105]孙朝阳, 杨学贵, 李瑞. 热处理模拟参数的实验分离. 清华大学学报. 2010, 07: 989-994.
[106]孙朝阳, 李瑞, 张清东. 工艺参数对IN690合金管材热挤压出口温度的影响. 1066vip威尼斯学报. 2010(32):1483-1488.
[107]孙朝阳, 张栋, 张清东, 等. 不锈钢带拉矫过程变形行为的数值模拟研究. 钢铁. 2010, 08: 51-55.
[108]叶乃威, 孙朝阳, 娄奇袭. 国产不锈钢全氢罩式退火炉的关键技术及实现. 工业炉. 2010,32:8-11.
[109]叶乃威, 杨安, 孙朝阳. 不锈钢带钢光亮退火马弗炉缺陷分析及修复.冶金设备.2010,179:40-45.
[110]Sun C. Y., Fang G., Lei L. P., Zeng P. Micro-thermomechanical constitutive model of transformation induced plasticity and its application on armour steel. Materials Science and Engineering A. 2009, 499(1-2): 18-22.
[111]Zhang X. F., Zhang Q. D., Sun C.Y. Gauge and tension control in unsteady state of cold rolling using mixed H2 and H∞ control. In: IEEE international conference on control and automation, New Zealand, 2009.
[112]孙朝阳, 方刚, 雷丽萍, 曾攀. 非热弹性马氏体相变的细观本构模型. 材料科学与工艺. 2009(08):445-449.
[113]Sun C. Y., Fang G., Lei L. P., Zeng P. Micromechanics model of martensitic transformation-induced plasticity. Journal of Materials Processing Technology. 2008, 201(1-3): 226-231.
[114]孙朝阳, 方刚, 雷丽萍, 曾攀. 装甲钢马氏体相变塑性的实验研究. 塑性工程学报. 2008(01):70-75.
[115]孙朝阳, 方刚, 雷丽萍, 曾攀. 温度和相变影响的弹塑性本构关系及应用. 材料热处理学报. 2008(01):162-166.
[116]孙朝阳, 曾攀, 赵书行, 张清东. 装甲防护厚板淬火过程形状畸变的预测. 金属热处理. 2008(08):73-77.
[117]孙朝阳, 曾攀, 雷丽萍, 方刚. 基于物理模拟的相变塑性应变分离方法. 塑性工程学报. 2007(06): 161-165.
[118]冯榈, 杨合, 孙朝阳, 詹梅, 高涛. 板带不均匀压下面内弯曲过程失稳起皱的研究. 机械工程学报. 2005(04):189-194.
科研项目:
[1]镍基/铁基记忆合金复合管旋转挤压精确成形基础与组织性能调控,国家自然科学基金区域联合基金重点项目,U22A20186,202301-202612。
[2]碳钢/不锈钢双金属轴类零件楔横轧成形与固相焊合及其性能研究,国家重点研发计划-政府间国际科技创新合作项目,SQ2022YFE010183,202301-202412。
[3]轻质镁基纳米复合材料超声振动辅助剧烈塑性变形过程的细晶与增强机理研究, 国际(地区)合作与交流项目, 52161145407, 202201-2022412。
[4]镁合金构件剧烈塑变挤压联合深冷处理的组织遗传与细晶机理研究, 国家自然科学基金面上项目,No. 52175285,202201-202512。
[5]轻质材料****的原位表征与建模方法,装备预研基础研究项目群,2021.10-202212
[6]镁合金构件剧烈塑变挤压联合深冷处理的组织遗传与细晶机理研究, 北京市自然科学基金面上项目,3182025,201801-202012、负责人。
[7]镁锂合金热管成形技术,装备预研基金快速支持项目,2021-02-01-2021-07-31、负责人。
[8]极硬岩地层滚刀关键技术研究及应用,中铁工程装备集团隧道设备制造有限公司,2020-11-01-2022-09-30,负责人。
[9]典型钛合金空心点阵结构超塑性变形和扩散连接技术研究,航空制造研究院, 2019-01-01-2020-12-01,负责人。
[10]TWIP钢塑性变形过程的跨尺度塑性本构模型研究,国家自然科学基金国际(地区)合作与交流项目,No. 51911530209,2019-04-01-2021-03-31、负责人。
[11]镁合金构件扭-挤复合成形制造的基础研究,中央高校基本科研业务费,FRF-BD-18-003A, 201801-201912。
[12]缺口试样裂纹预制及高温瞬时拉伸合同书,厂协项目,2018-12-25-2019-12-25,负责人。
[13]基于位错动力学的高速冲击绝热剪切失效行为模拟研究,装备预研重点实验室基金,6142902180201, 2019.01-2020.12.
[14]基于多相场模型的镁合金强塑变挤压成形细晶机制研究,北京市自然科学基金面上项目,3182025,201801-202012、负责人。
[15] ***镁合金构件精密成形技术,十三五装备预研共性技术,2018-202012、负责人。
[16]镁合金构件强塑变挤压成形联合低温循环处理强韧化技术,装备预研教育部联合基金一般基金,41423030610,201710-201910、负责人。
[17]多晶金属材料动态力学行为的多尺度位错动力学塑性模型,国家自然科学基金NSFA联合基金项目,U1730121,201801-202012、负责人。
[18] 高强镁合金件等通道挤压与等温锻造复合成形过程的组织演化研究, 高性能复杂制造国家重点实验室开放基金,Kfkt2015-01、201601-201712、负责人。
[19] 微区位错与相变-孪生联合诱发塑性变形的跨尺度建模及应用,国家自然科学基金面上项目,51575039、201601-201912、负责人。
[20]基于微结构演化的孪生诱发塑性(TWIP效应)的跨尺度力学建模,中国科学院力学研究所非线性力学国家重点实验室开放基金,LNM201512、201501-201512,负责人。
[21]基于微结构演化的金属材料塑性本构模型研究,国家自然科学联合基金项目, U1330121,201401-201612,负责人(优秀结题项目)。
[22]核电大型复杂管件关键制造工艺及应用研究,04科技重大专项,2014ZX04014-51、201401-201612,子课题负责人。
[23]TWIP钢多机制作用塑性变形机理及成形性能研究,国家自然科学基金青年基金项目,51105029、201201-201412,负责人(优秀结题项目)。
[24]TWIP钢塑性变形的本构行为及其冲压成形性能研究,北京市自然基金面上项目,3112019、201101-201312,负责人。
[25]装甲钢贝氏体相变细观模型及其在淬火模拟中的应用,教育部新教师博士点基金项目,20100006120013、201101-201312,负责人。
[26]转子试验件力学性能实验测试,厂协项目,负责人。
[27]马弗管用BSTMUF601厚板焊接接头高温蠕变及持久性能研究,厂协项目,负责人。
[28]大型厚壁钢管、复合管热挤压模拟和仿真研究,厂协项目,负责人。
[29]稀土镁合金带高筋圆盖板等温超塑性成形工艺技术研究,厂协项目,负责人。
[30]森吉米尔轧机支承辊轴承设计和制造工艺的关键技术研究,厂协项目,负责人。
[31]特种合金大型无缝管热挤压工艺与模具技术研究,厂协项目,负责人。
[32]某厂高强钢矫直机矫直模型程序开发,厂协项目,负责人。
[33]某厂BSTMUF601材料退火马弗管高温变形规律及使用工艺研究,厂协项目,负责人。
[34]某厂马弗炉用BSTMUF601中板高温长期使用性能研究,厂协项目,负责人。
专利:
[1]孙朝阳, 刘斌, 张清东, 李瑞. 一种薄壁高温合金管材模拟挤压装置,中国:授权发明专利(CN 200910237678.0).
[2]孙朝阳, 王善伟, 张清东, 李瑞, 张聪, 刘斌. 一种热加工过程固态界面换热系数测定装置,中国:授权发明专利(CN 201210102026.8).
[3]孙朝阳, 武传标, 张清东, 李瑞, 杨竞. 一种大型光亮退火马弗管等蠕变寿命的设计方法,中国:授权发明专利(CN 201210291154.1).
[4]孙朝阳,周庆军,刘超,黄杰,杨竞,张清东. 一种大型多管嘴管道热挤压成形工艺制定与模具设计方法,中国:授权发明专利(CN 201310523169.0).
[5]孙朝阳,李亚民,刘东,周庆军,杨竞. 一种用于成形具有双管嘴凸台管件的挤压装置,中国:授权发明专利(CN 201410499582.2).
[6]孙朝阳, 王梦琦, 祥雨, 张龙, 杨竞. 一种单轴挤压双管嘴同时成形的原理、模具及工艺. 中国:授权发明专利(CN201610868471.3).
[7]孙朝阳, 张龙, 祥雨, 王梦琦, 孙志辉. 一种多管嘴厚壁管道挤压制坯制造方法和模具. 中国:授权发明专利(CN201610868472.8).
[8]孙朝阳,蔡贇,苏泽兴,孙志辉. 一种镁合金高筋薄腹板类零件的等温锻造方法. 中国发明专利(CN201710338311.2).
[9]孙朝阳,李广东,钱凌云,孙志辉,苏泽兴,蔡贇,李昕童, 一种扭-挤复合强塑变成形方法及工艺装置, 中国发明专利(CN202010006334.5).
[10]孙朝阳,李广东,钱凌云,蔡贇,李昕童,苏泽兴,朱南洋, 一种镁合金带筋筒形件强塑变挤压成形装置及方法, 中国发明专利(CN201810287671.9).
[11]孙朝阳,李广东,钱凌云,蔡贇,李昕童,苏泽兴,朱南洋,一种筋板类构件双侧变通道强塑变挤压方法及成形模具, 中国发明专利(CN201810224019.2).
[12]钱凌云,程兰月,孙志辉,孙朝阳,李月敏, 一种镁/铝合金双金属复合管成形模具及方法, 中国发明专利(CN201811378028.3).
[13]孙朝阳,徐宁宁,钱凌云,杨涛,纪婉婷, 一种高性能构件扭-挤成形的装置, 中国发明专利(CN202010006334.5).
[14]钱凌云, 马腾云, 安鹏, 孙朝阳, 纪婉婷, 一种板材压剪断裂分析试样用夹具及其方法和试样, 中国发明专利(CN202010518806.5).
[15]李昕童, 钱凌云,孙朝阳, 苏泽兴, 朱南洋, 温璐, 一种实现大型筋板件连续局部加载成形的模具及成形方法, 中国发明专利(CN202010485701.4).
[16]钱凌云, 岳颖, 孙朝阳, 崔政国, 冯英豪, 马腾云, 李明, 一种金属切屑固态回收装置, 中国发明专利(CN202121151356.7).
[17]栗琳, 孙浩, 刘新洋, 孙朝阳, 张佳明, 用于桌面机器人综合实验教学的视觉环形检测装置及方法, 中国发明专利(CN202011377072.X).
获奖与荣誉:
[1]《复杂结构全过程分析的原理和方法、模拟平台及典型工程应用》获得2010年“教育部科技进步二等奖”(第四名)。
[2]《多晶金属材料动态力学行为的多尺度位错动力学塑性模型》获得2021 国家安全学术基金会NSAF基金优秀结题奖
[3]《基于微结构演化的金属材料塑性本构模型研究》获得2017 NSAF国家安全学术基金会基金优秀结题奖
[4]《镁合金复杂四通管超声振动辅助多向挤压成形技术研究》2023年或中央军委科学技术委员会科技创新局优秀奖
[5]第二届“十佳导师”
[6]第七届“研师亦友—我最喜爱的导师”
[7]第六届“研师亦友—我最喜爱的导师”提名奖
[8]第五届“研师亦友—我最喜爱的导师”提名奖
[9]2021 “宝钢特等奖学金”获得者指导教师
[10]2016 “宝钢奖学金”获得者指导教师
[11]第十六届“校长奖章”获得者指导教师
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