必赢bwin线路检测中心

梁永超


教师简介

梁永超教授-博士(后)

研究方向:材料模拟、数据可视化、机器学习、图像识别办公地点:必赢bwin线路检测中心西校区崇理楼

联系方法:20113248@qq.com


主要经历

2014年在湖南大学物理与微电子科学学院取得博士学位,于当年进入必赢bwin线路检测中心电子科学与技术博士后工作站就职,出站后于2017年必赢bwin线路检测中心任教,2017年成为硕士导师,2018年评为副教授,2021年评为教授2022年成为博士生导师。2023年评为必赢bwin线路检测中心第六届我心目中的好导师及国华优秀教师奖。本人对学生兢兢业业,相处融治,以学生为重心开展教学科研工作,每个研究生甚至本科生以第一作者发表高水平SCI论文,获得各种国家级省级竞赛奖项,并拿到奖学金。欢迎自主学习能力强,认真负责,有科研理想的同学加入团队。


主要贡献

主持的科研项目:

[1]必赢bwin线路检测中心创新创业教育项目,XIG2023006,基于成果驱动的Python 教学模式改革,2023/09-2025/08,4万元,在研

[2]贵州省科协科技创新智库课题,GZKX2023ST004,基于大数据驱动下贵州省大学生就业质量的决策研究,2023/06-2024/06,5万元,在研

[3]必赢bwin线路检测中心研究生全国科技竞赛培育项目(重点),YKJP202301,基于机器学习对非晶合金的智能选材,2023/06-2024/09,2万元,在研

[4]必赢bwin线路检测中心培育项目,[2020]33号,基于机器学习对非晶形成能力的预测,2021/09-2023/09,5.5万元,在研

[5]国家自然科学基金地区基金,11964005,Mg基合金拓扑密堆纳米团簇与力学性能关系的模拟研究,2020/01-2023/12,40万元,在研

[6]必赢bwin线路检测中心高等教育研究项目,GDGJYT2020011,数据可视化在非晶结构教学中的应用 2020/07-2022/07,1万元,结题

[7]MgCuY非晶金属结构组元间的遗传特性及隐含序,黔科合平台人才[2017]5788-81,2018.03-2020.03,3万元,已结题

[8]贵州省科技合作计划项目,黔科合LH字[2015]7645号,Mg基合金凝固过程中纳米团簇与性能关系的模拟研究,2015/12-2017/12,6万元,已结题

[9]必赢bwin线路检测中心引进人才科研项目,贵大人基合字(2014)34号(自然科学),Mg基合金纳米团簇结构的模拟和计算,2015/01-2016/12,3万元,已结题

参与的科研项目:

[1]国家自然科学基金地区基金,51671004,纳米团簇的连通性对TiAI金属玻璃力学性能的影响机制,2018/01-2021/12,38万元,在研

[2]国家自然科学基金地区科学基金项目,51661005,非晶形成能力的拓扑密堆团簇表征研究,2017.01-2020.12,42万元,已结题

[3]国家自然科学基金青年项目,61605153,双纵模自偏频激光陀螺稳频技术研究,2017/01-2019/12,19.00万元,已结题

[4]国家自然科学基金青年项目,61605153,双纵模自偏频激光陀螺稳频技术研究,2017/01-2019/12,19.00万元,已结题

主要发表学术论著:

(一)第一作者:

[1] Liang Yong-chao*, Xian Gang, Zhou Li-li, Tian Ze-an, Chen Qian, Mo Yun-feiLiu Rang-su, Gao Ting-hong, Xie Quan, He Mu, Influence of cluster correlationon nanoclusters in Fe-Ni amorphous alloys, Journal of Aloys and Compounds,2022,891:161953.(SCI)

[2]Liang Yong-chao*, Ma Rui-bo, Zhou Li-li, He Mu, Tian Ze-an, Mo Yun-fei.Microstructure Evolution of Ni-Co Alloys DuringCrystallization andAmorphization Process, Journal of Superconductivity and Novel Magnetism,2021,34:3377-3383.(SCI)

[3]Liang Yong-chao, Zhang Yue-hong, Yu Bang-yi, Liu Rang-su, Xie Quan, TianZe-an*, The deformation and transformation of icosahedron in MgoZnso metallicglasses, Chemical Physics Letters, 2018, 703:39-43.(SCI)

[4]Liang Yong-Chao, Liu Rang-Su, Xie Quan, Tian Ze-An, Mo Yun-Fei, ZhangHai-Tao, Liu Hai-Rong, Hou Zhao-Yang, Zhou Li-Li, Peng Ping, Structuralevolutions and hereditary characteristics of icosahedral nano-clusters formed inMg70Znso alloys during rapid solidification processes, Scientific Reports, 20177:43111.(SCI)

[5] Liang Yong-Chao, Tian Ze-An, Liu Rang-Su, Gao Ting-Hong, Guo Xiao-Tian,Mo Yun-Fei, Xie Quan, lcosahedron-forming ability of MgZn alloys studied bymolecular dynamics simulations, Journal ofAlloys and Compounds, 2017,700:61~66.(SCI)

[6]Liang Yong-Chao, Liu Rang-Su , Mo Yun-Fei, Liu Hai-Rong, Tian Ze-An,Zhou Qun-yi, Zhang Hai-Tao, Zhou Li-Li, Hou Zhao-Yang, Peng Ping, Influenceof icosahedral order on the second peak splitting of pair distribution function forMg70Znso metallic glass, Journal of Alloys and Compounds, 2014,597: 269-274.(SCI)

[7]梁永超*,张铎恩,冷速对CuioAgo合金凝固结构的影响,原子与分子物理学报,2021.38(2):026007-6.(中文核心)

[8]梁永超*,先刚,于邦毅,张铎恩,Fe1oNigo和FegoNi10合金结晶过程微观结构的模拟,材料热处理学报,2021,42(20):160-166.(中文核心)

[9]梁永超*,冉晨阳,AuzoSiso合金类Si结构的模拟研究,低温物理学报2020,41:0236.(中文核心)

[10]梁永超*,张跃红,于邦毅,周稳,冷速对Cu7oNiso合金凝固结构的影响,必赢bwin线路检测中心学报(自然科学版),2018,35(2):36-40.(普刊)

[11]梁永超*,先刚.数据可视化在非晶结构教学的应用.创新教育研究,20208(4):557-562.(教改论文)

[12]梁永超*,王硕,杨立行,祁明英.疫情背景下Python编程线上教学模式探讨必赢bwin线路检测中心学报教育与文化论从,2020卷:244-246.(教改论文)

(二)本人研究生发表的文章(通讯作者):

[1]Peisheng Xing, Yuanwei Pu, Zhiwen Lin, Yongchao Liang*, Qian Chen, LiliZhou, Zean Tian. Enhancement of optical properties of two-dimensional BizTezSeby biaxial strain based on first-principles[J], Physica B: Condensed Matter, 2023667:415164.(SCI)

[2]Chao Yang, Liang Yong-chao*, Li-li Zhou, Qian Chen, Bei Wang, Li Zhang.Jia-jun Ma, Ting-hong Gao, Quan Xie. Study on mechanical properties ofhigh-entropy crystalamorphous composites with pre-existing hole[J], Journal ofAlloys and Compounds, 2023, 959: 170565.(SCI)

[3]Yu Zhou, Liang Yong-chao*,Lili Zhou, Zean Tian, Qian Chen, Yunfei Mo.Effects of pore diameter and B2-NiTi crystal on plasticity of amorphous Ni-Tialloy based on molecular dynamics simulation[J]. Journal of Materials Researchand Technology, 2023, 24: 9601-9611.(SCI)

[4]Yu Zhou, Liang Yong-chao*, Li-li Zhou, Yun-fei Mo, Reng-lai Wu, Ze-an Tian.Effect of topologically close-packed clusters on the pair distribution function ofamorphous Zr under different pressures[I]. Journal of Non-CrystallineSolids,2023,612:122354.(SCI)

[5]Liu yun-chun, Liang Yong-chao*, Chen Qian, Zhang Li, Ma Jia-jun, Wang Bei.Gao Ting-hong,Xie Quan, Study on the dislocation mechanism of Ni47Co53alloy during rapid solidification[J]. Chinese Physics B, 2023.32: 066104(SCI)

[6]Zhou Yu, Liang Yong-chao*, Zhou Li-li, Chen Qian, Zhang Li, Ma Jia-jun, GaoTing-hong, Lu Fei. Influence of icosahedron and icosahedron-like on plasticdeformation of CosoMnso alloy under compressive conditionsI.Journal ofNon-Crystalline Solids, 2022,597:121896.(SCI)

[7]Zhou Li-li*, Wang Cun-jing , Han Lei , Li Yang-ze , Liang Yong-chao*, TianZe-an ,Mo Yun-fei,Xie Xiao-lu. Topologically close-packed structurecharacteristics of the plastic deformation regions of amorphous Cus4.sZrss.s[J]Journal of Materials Research and Technology, 2022, 21: 749-760.(SCI)

[8]Yuan-wei Pu, Yong-chao Liang*, Yun-fei Mo, Li-li Zhou, Ze-an Tian, Qian Chen.Li Zhang, Jia-jun Ma, Ting-hong Gao, Quan Xie. Effect of medium-range orderednanoclusters on compression deformation of MgssCuzsY1o metallic glasses[J]Journal ofAlloys and Compounds, 2022,924:166582.(SCI)

[9]Pu Yuan-wei, Li-li Zhou, Liang Yong-chao*, Tian Ze-an, Chen Qian, Zhang Li,Ma Jia-jun, Mo Yun-fei, Liu Rang-su,Gao Ting-hong, Xie Quan. Effect oftopologically close-packed clusters on Glass-Forming Ability of rapidlysupercooled MgCuY alloy. Journal of Materials Research and Technology, 202218:5053-5061.(SCI)

[10]Fei Lu, Yongchao Liang*, Xingying Wang, Tinghong Gao, Qian Chen, YunchunLiu, Yu Zhou, Yongkai Yuan, Yutao Liu. Prediction of amorphous forming abilitybased on artificial neural network and convolutional neural networkComputational Materials Science,2022,210:111464.(SCI)

[11]戴松利,梁永超*,马家君.过渡金属元素Sc、Cr和Mn对Mg2Ge 掺杂的第一性原理研究.无机化学学报,2022,38(4):637-644.(SCI)

[12]Rui-bo Ma, Li-li Zhou, Yong-chao Liang*, Ze-an Tian, Yun-fei Mo, Qian Chen.Rang-su Liu, Ting-hong Gao and Quan Xie. Microstructure evolution and plasticdeformation of Ni47Coss alloy under tension, CrystEngComm, 2022, 24,893-900(SCI)

[13]Rui-bo Ma, Li-li Zhou, Yong-chao Liang*, Qian Chen, Ze-an Tian, Rang-su Liu.Yun-fei Mo, Ting-hong Gao and Quan Xie, The effect of HCP on the formationof twin boundaries and dislocations in Ni-Co alloys, Current Applied Physics,2021.29:18-23.(SCI)

[14]Ran Chen-yang, Zhou Li-li, Liang Yong-chao*, Mo Yun-fei, Chen Qian, TianZe-an, Liu Rang-su,Gao Ting-hong and Xie Quan, Stdy on Si-like andtopologically close-packed structures during rapid solidification of Au-Si alloys.Journal of Non-Crystalline Solids, 2021,563: 120787. (SCI)

[15]Duo-en Zhang,Li-li Zhou, Yong-Chao Liang*,Ze-an Tian, Rang-su Liu,Ting-Hong Gao, Quan Xie and Qian Chen, Study on topologically close-packedand crystal clusters of CuoAggo alloy at the critical crystalline cooling rate.CrystEngComm,2020,22:7888-7895.(SCI)

[16]Bang-yi Yu, Yong-chao Liang*, Ze-an Tian, Rang-su Liu, Ting-hong Gao, QuanXie,Yun-fei Mo, MD simulation on crystallization mechanisms of rapidlysupercooled Fe-Ni alloys, Journal ofCrystal Growth, 2020, 535:125533.(SCI)

[17]Bang-yi Yu, Yong-chao Liang*,Ze-an Tian, Yue-hong Zhang, Quan Xie.Ting-hong Gao, Yun-fei Mo, MD study on topologically close-packed andconfiguration entropy of Mg*Also metallic glasses under rapid solidification,Journal ofNon-Crystalline Solids, 2019,522:119578.(SCI)

[18]Yue-hong Zhang,Yong-chao Liang,Bang-yi Yu, Ze-an Tian, Quan Xie,Ting-hong Gao, Jia-jun Ma, Qian Chen, Yun-fei Mo, Effect of composition onthe microstructure of Mgao-xCu, alloys during rapid solidification, MaterialsResearch Express, 2019,6: 115216.(SCI)

(三)本科生论文

[1]王硕,蒲丽丹,梁雪勇,王金康,梁永超*.重金属污染的卡尔曼预测及可视化系统研究[J].计算机科学与应用,2022,12(7):1719-1727.(RCCSE 中国核心学术期刊)

[2]Baofeng Tan, Yong-Chao Liang*, Qian Chen, Li Zhang, and Jia-Jun MaDiscovery of a new criterion for predicting glass-forming ability based onsymbolic regression and artificial neural network[J]. Journal of Applied Physics,2022,132(12):125104.(编辑精选为 Featured and Scilight)

[3]Meng-qi Wang, Yong-chao Liang*,Bo Sun, Yuan-wei Pu, Ji-xing Xie.Optimization of convolutional neural network for glass-forming ability predictionbased on particle swarm optimization. Materials Today Communications, 2023,36:106808.(SCI)

(四)软件著作权

[1]梁永超,软件著作权,基于人工神经网络和卷积神经网络的非品形成能力预测软件V1.0,证书号:软著登字第10715075号,登记号:2023SR0127904,开发完成日期:2022年05月12日,No.12137976,授权日期:2023年01月20日

[2]梁永超,软件著作权,基于符合回归和机器学习对材料关联数据的提取和预测软件 V1.0,证书号:软著登字第10715077号,登记号:2023SR0127906,开发完成日期:2022年08月16日,No.12137978,授权日期:2023年01月20日

(五)学生竞赛

[1]孙波,谢继兴,王梦琦,谭堡锋,康鹏,钢铁玻璃----基于机器学习对大块金属玻璃的研究,第十八届“挑战杯”全国大学生课外学术科技竞赛,贵州省一等奖;2023

[2]路时梁,张俊,黄胜,“虫”口夺粮促丰收--基于滑动注意力机制的害虫识别分类方法,第十八届“挑战杯”全国大学生课外学术科技竞赛,贵州省二等奖;2023

[3]罗佳瑞,涂之翀,宋俊霞,杨俊康,赵新予,蒋欣越,基于RRT+DWA 的农产品无人运输车--助力贵州“十四五”智慧交通运输体系建设,十八届“挑战杯”全国大学生课外学术科技竞赛,贵州省二等奖;2023

[4]姜子涵,马冰箫,林元城,COVID-19 疫情期间生活物资科学管理,中国光谷·华为杯第十九届中国研究生数学建模竞赛,国家二等奖;2023

[5]周宇,杨超,刘云春,草原放牧策略研究,中国光谷,华为杯第十九届中国研究生数

学建模竞赛,国家三等奖;2023

[6]杨超,软件类个人赛,蓝桥杯全国软件和信息技术专业人才大赛,贵州省三等奖;2023

[7]姜予涵,马冰箫,第十届大唐杯全国大学生新一代信息技术大赛,贵州省二等奖

[8]杨超,周宇,第十届大唐杯全国大学生新一代信息技术大赛,贵州省三等奖

[9]王硕,浦丽丹,第八届“大唐杯”全国大学生移动通信5G技术大赛,贵州省赛区本科组三等奖,2021/05/28:

[10]李成龙,林鲁立,李潇璇,第十七届“挑战杯”贵州省大学生课外学术科技作品竞赛,贵州省三等奖;2021

[11]蒲元伟,王立,陆飞,第十一届 MathorCup 高校数学建模挑战赛,三等奖,2021/06/02[12]蒲元伟,陆飞,郑悦,第十届届“认证杯”数学中国数学建模网络挑战赛,二等奖,2021

(六)学生大创项目

[1]祁明英等,贵大校园易APP平台开发,2019/06-2020/06

[2]王硕等,基于 django 架构的贵阳市城市规划平台,2020/06-2021/06

[3]李云龙等,ZealCloud 智能共享云,2021/06-2022/06

[4]孙波等,智能“医生”--基于大数据技术的智慧医疗一站式服务平台开启问诊新时代,2022/06-2024106

[5]谢继兴等,“趣”选址--基于大数据技术的商业选址分析平台,2022/06-2023/06

[6]王梦琪等,全民健身--人体动态识别姿态辅助系统,2022/06-2023/06