IEEE Member number: 98781519
ACM Member number: 2974309
Url of my orcid https://orci
Archiving of my research (First author only)
1. My doctoral thesis
王尚. 轧制带钢无酸除鳞的抛丸冲击工艺仿真与实验研究[D].北京科技大学,2019.
2. Papers achievements (Only the first author & Reverse time order)
————The following papers are submitted in the associate professor stage
[28]Wang S, Wang X, Peng F. Digital Resource Development and Teaching Application Based on Finite Element Method[C]//Proceedings of the 2023 6th International Conference on Big Data and Education. 2023:67-72.【Ei Compendex; Accession number:20233814750213】https://doi.org/10.1145/3608218.3608221
[27]Wang S, Wang X, Zhang Y. Simulation Study on Lightweight Design of Aluminum Alloy Tube Buffer for Automobile[C]//Journal of Physics: Conference Series. IOP Publishing, 2023, 2566(1): 012062.【Ei Compendex; Accession number:20233914797424】https://doi.org/10.1088/1742-6596/2566/1/012062
[26]Wang S, Wang X, Peng F. Research on the Application of Finite Element Method in Engineering Mechanics Teaching[C]//2023 The 8th International Conference on Information and Education Innovations. 2023: 19-24.【Ei Compendex; Accession number:20233814742881】https://doi.org/10.1145/3594441.3594446
[25]Wang S, Wang X, Yu H. Simulation of material mechanics tensile experiment based on finite element technology[C]//Proceedings of the 2023 9th International Conference on Frontiers of Educational Technologies. 2023: 109-114. 【Ei Compendex; Accession number:20233614688314】https://doi.org/10.1145/3606150.3606168
[24]Wang S, Wang X, Zhang Y. Numerical analysis of energy absorption capacity of aluminum alloy tubular buffer based on finite element analysis[C]//3rd International Conference on Applied Mathematics, Modelling, and Intelligent Computing (CAMMIC 2023). SPIE, 2023, 12756: 693-698. 【Ei Compendex; Accession number:20233814734324】 https://doi.org/10.1117/12.2686261
[23]Wang S, Liang M, Zhang Y. Numerical analysis of tensile fracture of aluminum alloy based on birth-death element method[C]//3rd International Conference on Applied Mathematics, Modelling, and Intelligent Computing (CAMMIC 2023). SPIE, 2023, 12756: 747-752. 【Ei Compendex; Accession number:20233814734331】 https://doi.org/10.1117/12.2686264
[22]Wang S. Research on the application of simulation technology in structural improvement of mechanical products[C]//Second International Conference on Advanced Manufacturing Technology and Manufacturing Systems (ICAMTMS 2023). SPIE, 2023, 12744: 499-504.【Ei Compendex; Accession number:20233714731390】 https://doi.org/10.1117/12.2688791
[21]Wang S, Wang X, Peng F. Teaching Experiment of Engineering Mechanics Based on Finite Element Technology[C]//Proceedings of the 2023 4th International Conference on Education Development and Studies. 2023: 17-22. 【Ei Compendex; Accession number:20232714332069】https://doi.
[20]Wang S, Peng F, Wang X. Application of Simulation Technology in Vocational Education Skills Competition[C]//Proceedings of the 2023 14th International Conference on E-Education, E-Business, E-Management and E-Learning. 2023: 100-105. 【Ei Compendex; Accession number:20232214172816】https://doi.
[19]Wang S, Peng F, Zhen X. Finite Element Modeling and Simulation of Torsion Experiment and Teaching Practice in Vocational Colleges[C]//Proceedings of the 2023 14th International Conference on E-Education, E-Business, E-Management and E-Learning. 2023: 82-86. 【Ei Compendex; Accession number:20232214172817】https://doi.
[18]Wang S, Peng F. Simulation Calculation of the Support Column Deformation of the Precision Crane Based on Abaqus[C]//Journal of Physics: Conference Series. IOP Publishing, 2023, 2492(1): 012013. 【Ei Compendex; Accession number:20232214160690】https://doi.
[17]Wang S, Wang X, Peng F. Teaching Practice of Engineering Mechanics Based on Finite Element Analysis[C]//2023 11th International Conference on Information and Education Technology (ICIET). IEEE, 2023: 103-108.【Ei Compendex; Accession number:20232014110857】https://doi.
[16]Wang S, Wang X, Peng F. Teaching Practice of Engineering Mechanics Based on Finite Element Method[C]//2023 IEEE 12th International Conference on Educational and Information Technology (ICEIT). IEEE, 2023: 262-267.【Ei Compendex; Accession number:20232014090206】https://doi.
[15]Wang S, Peng F, Wang X, et al. Numerical Analysis and Process Parameter Optimization of Impact Descaling[C]//2023 IEEE 6th Information Technology, Networking, Electronic and Automation Control Conference (ITNEC). IEEE, 2023, 6: 272-276.【Ei Compendex; Accession number:20231613942854】 https://doi.
[14]Wang S, Liang M, Zhang Y, et al. Finite Element Analysis of Hollow Shaft under Torsion and Teaching Practice in Higher Vocational Colleges[C]//2022 3rd International Conference on Education, Knowledge and Information Management (ICEKIM). IEEE, 2022: 656-661.【Ei Compendex; Accession number:20230713591800】https://doi.
[13]Wang S, Liang M, Zhang Y, et al. Finite Element Modeling and Simulation of Tensile Experiment and Teaching Practice in Vocational Colleges[C]//2022 3rd International Conference on Education, Knowledge and Information Management (ICEKIM). IEEE, 2022: 580-585.【Ei Compendex; Accession number:20230713591569】https://doi.
[12]Wang S, Zhu Q, Zhen X. Application of Modeling and Simulation Technology in Teaching Practice of Engineering Mechanics[C]//Proceedings of the 2022 5th International Conference on Education Technology Management. 2022: 110-116. 【Ei Compendex; Accession number: 20232114128379】https://doi.
[11]Wang S, Liang M, Feng Z. The Application of Simulation in the Design of Skills Competition Entry in Vocational Colleges[C]//Proceedings of the 14th International Conference on Education Technology and Computers. 2022: 170-174. 【Ei Compendex; Accession number:20230913635668】https://doi.
[10]Wang S, Liang M, Ma J, et al. Finite Element Simulation of Torsion Experiment and Teaching Practice in Higher Vocational Colleges[C]//2022 3rd International Conference on Education, Knowledge and Information Management (ICEKIM). IEEE, 2022: 571-575.【Ei Compendex; Accession number:20230713591723】https://doi.
[9]Wang S, Liang M. Finite Element Modeling and Simulation of Three-point Bending Experiment and Teaching Practice in Vocational Colleges[C]//2022 3rd International Conference on Education, Knowledge and Information Management (ICEKIM). IEEE, 2022: 533-538.【Ei Compendex; Accession number:20230713591654】https://doi.
[8]Wang S, Liang M. Simulation of Steel Beam Bending and Teaching Practice in Higher Vocational Colleges[C]//2022 3rd International Conference on Education, Knowledge and Information Management (ICEKIM). IEEE, 2022: 640-645.【Ei Compendex; Accession number:20230713591754】https://doi.
————————
[7]Wang S, Wang S, Li X. Finite element simulation of projectile impact descaling based on birth-death element method[C]//Seventh International Conference on Electromechanical Control Technology and Transportation (ICECTT 2022). SPIE, 2022, 12302: 828-836. 【Ei Compendex; Accession number:20225113269867】https://doi.
[6]Wang S, Liang M, Wang X, et al. Finite element simulation of hot rolled strip’s residual stress under projectile impact[C]//International Conference on Mechanisms and Robotics (ICMAR 2022). SPIE, 2022, 12331: 43-49. 【Ei Compendex; Accession number:20224813166744】https://doi.
[5]Wang S, Wang X, Liang M, et al. Finite element simulation of the effect of tangential velocity on blast descaling[C]//International Conference on Mechanisms and Robotics (ICMAR 2022). SPIE, 2022, 12331: 1118-1125. 【Ei Compendex; Accession number:20224813166784】https://doi.
————The following are the papers submitted in the lecturer stage
[4]Wang S, Jiang S, Wang X, et al. Exploration on Teaching Reform of Material Mechanics in Vocational Colleges Based on Experimental Analysis[C]//2021 2nd International Conference on Information Science and Education (ICISE-IE). IEEE, 2021: 1582-1587. 【Ei Compendex; Accession number:20221611985341】https://doi.
[3]Wang S, Wang X, Feng Z, et al. Exploration on Teaching of Material Mechanics in Higher Vocational Colleges Based on Expansion of Finite Element Theory[C]//2021 2nd International Conference on Information Science and Education (ICISE-IE). IEEE, 2021: 1535-1539. 【Ei Compendex; Accession number:20221611985243】https://doi.
[2]Wang S, Zhao J, He H, et al. Simulation Calculation of Strip Descaling Based on Birth-Death Element Method[C]//Journal of Physics: Conference Series. IOP Publishing, 2022, 2174(1): 012080. 【Ei Compendex; Accession number:20220711647690】https://doi.
[1]Wang S, Wang X, Ma J, et al. Experimental Study on Card-type Intelligent Teaching System Based on Combination of Online and Offline[C]//2021 2nd International Conference on Information Science and Education (ICISE-IE). IEEE, 2021: 1205-1209. 【Ei Compendex; Accession number:20221611985130】https://doi.
Wang S, Hao R C, Liu H G, et al. Fracture Behavior of the Hot Rolled Strip’s Surface Scale Layer from Different Impacts Angles[C]//Key Engineering Materials. Trans Tech Publications Ltd, 2022, 905: 67-72.【Waiting to Ei Compendex】https://doi.
Wang S, Liu H G, Hao R C, et al. Deformation behavior of strip steel matrix under shot blasting impact descaling[M]//Advances in Materials Science and Engineering. CRC Press, 2021: 731-738.【Waiting to Ei Compendex】https://doi.
————The following papers were submitted for doctoral-study
Wang S, Li W, Wang X, et al. Impact tensile cracking behavior of oxide scale in Q235 strip iron[C]//MATEC Web of Conferences. EDP Sciences, 2018, 189: 08002.【Ei Compendex】
王尚,杨荃,王晓晨,何海楠,单忠德.弹丸冲击速度对带钢表面鳞层破坏行为影响[J].哈尔滨工程大学学报,2018,39(04):766-771.【Ei Compendex】
Shang W, Xiaochen W, Quan Y, et al. Destructive behavior of iron oxide in projectile impact[C]//IOP Conference Series: Materials Science and Engineering. IOP Publishing, 2017, 282(1): 012011.【Ei Compendex】
王尚,杨荃,任云鹤,王晓晨,单忠德.热轧带钢氧化铁皮拉伸开裂行为[J].工程科学学报,2017,39(10):1540-1545.DOI:10.13374/j.issn2095-9389.2017.10.012.【Ei Compendex】
3. Patent achievements(Only the first author)
王尚,刘华刚,郝瑞参,马金茹,冯志新,朱青松,魏玉辉,闫泰初. 一种模块化任务式学习系统[P]. 北京市:CN113223352B,2022-11-29.
王尚. 一种带钢无酸除鳞装置[P]. 北京市:CN112743456B,2022-04-08.
王尚,刘华刚,郝瑞参,朱青松,冯志新,王天兵,金宗学. 一种滑雪场送货小车[P]. 北京市:CN215851438U,2022-02-18.
王尚,刘华刚,郝瑞参,张亚娟,冯志新,杨荃,王晓晨. 一种用于热轧带钢抛丸除鳞的边部补偿装置及除鳞系统[P]. 北京市:CN214516787U,2021-10-29.
王尚. 一种工作角度可调的带钢无酸除鳞装置[P]. 北京市:CN214237748U,2021-09-21.
王尚,郝瑞参,刘华刚,冯志新,朱青松,孙哲,张亚娟,梁美芹,杨荃,王晓晨. 一种热轧带钢减酸除鳞装置[P]. 北京市:CN213592648U,2021-07-02.
4. Papers achievements (not the first author)
Li X, Wang S, Liang M. Modeling and Simulation of Combined Bending-torsion Experiment Based on ABAQUS[C]//Journal of Physics: Conference Series. IOP Publishing, 2022, 2403(1): 012045.【Waiting to Ei Compendex】
Liang M, Wang S, Ma J. Modeling and Simulation of Torsional Resistance of Hollow Shaft with Small Diameter Based on ABAQUS[C]//Journal of Physics: Conference Series. IOP Publishing, 2022, 2403(1): 012044.【Waiting to Ei Compendex】
5. General papers (indexed by Google Academic)
Wang S. Application Research of Simulation Technology in Vocational Education Technical Skills Competition[C]//2022 3rd International Conference on Big Data and Informatization Education (ICBDIE 2022). Atlantis Press, 2022: 182-194.
Wang S, Ma J, Liu H, et al. Exploration on Teaching Practice of Material Mechanics Course for the Run-through External Cultivation in Vocational College[C]//2021 4th International Conference on Humanities Education and Social Sciences (ICHESS 2021). Atlantis Press, 2021: 1406-1410.
Wang S, Feng Z. Promotion of Skills Competition on Construction of Teaching Staff in Higher Vocational Colleges[C]//2022 7th International Conference on Social Sciences and Economic Development (ICSSED 2022). Atlantis Press, 2022: 1252-1257.
Wang S, Wang X, Ma J. Application of Modeling and Simulation Technology in Vocational Education Skills Competition[C]//2nd International Conference on Internet, Education and Information Technology (IEIT 2022). Atlantis Press, 2022: 882-888.
Wang S, Wang X, Feng Z. Application Research of Modeling and Simulation Technology in the Design of Skills Competition Entries[C]//2nd International Conference on Internet, Education and Information Technology (IEIT 2022). Atlantis Press, 2022: 697-705.
Wang S, Wang X, Feng Z. Thoughts on Development of Vocational Education at Undergraduate Level[C]//2021 International Conference on Education, Language and Art (ICELA 2021). Atlantis Press, 2022: 166-170.
Wang S, Wang X, Feng Z, et al. Thoughts on Construction of Practical Training Base in Vocational Colleges[C]//2021 International Conference on Education, Language and Art (ICELA 2021). Atlantis Press, 2022: 367-371.