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王優(yōu)強

發(fā)布人:機汽學(xué)院時間:2022-09-06瀏覽:

 王優(yōu)強    教授    博士生導(dǎo)師  
最高學(xué)歷:  博士研究生  
從事專業(yè):  摩擦學(xué)與表面工程  
聯(lián)系電話:  18660279607  
電子信箱:  wyq1970301@126.com  
工作單位:  青島理工大學(xué)機械與汽車工程學(xué)院  
通信地址:  青島經(jīng)濟技術(shù)開發(fā)區(qū)嘉陵江東路777號  
 
個人簡介
王優(yōu)強,男,山東沂水人,中共黨員。博士,教授,博士生導(dǎo)師。山東省專業(yè)學(xué)位研究生教育教學(xué)指導(dǎo)委員會委員。中國機械工程學(xué)會高級會員,石油學(xué)會會員,金屬學(xué)會會員。1995年4月參加工作,1998年評為講師,2000年晉升副教授并評聘為碩士研究生導(dǎo)師,2003年晉升教授,2012年評聘為博士生導(dǎo)師。多年來一直從事摩擦學(xué)與表面工程、鋁鎂合金加工表面完整性、石油機械可靠性等方面的研究與教學(xué)工作,主持完成包括中央軍委科技委項目、國家自然科學(xué)基金面上項目等國家級項目8項,山東省自然科學(xué)基金等省部級項目12項,橫向課題多項;獲中國人民解放軍、中國商業(yè)聯(lián)合會,山東省、青島市等科技獎勵9項,授權(quán)國家專利97項,軟件著作權(quán)12項;主編教材1部;在國內(nèi)外學(xué)術(shù)期刊上發(fā)表學(xué)術(shù)論文200余篇,其中SCI收錄50余篇,EI收錄30余篇。中文核心期刊百余篇,培養(yǎng)已畢業(yè)全日制博士、碩士研究生70余名。國家重點研發(fā)計劃和國家自然科學(xué)基金項目評審專家,《摩擦學(xué)學(xué)報》、《軸承》、《機械傳動》、《石油礦場機械》等編委。
教育經(jīng)歷
1988.9-1992.7  青島理工大學(xué)   冶金機械專業(yè)   工學(xué)學(xué)士
1992.9-1995.3  東北大學(xué)          機械學(xué)專業(yè)      工學(xué)碩士
1996.9-1999.6  北京石油大學(xué)   機械工程專業(yè)   工學(xué)博士
工作履歷
1995.4-1996.7    青島理工大學(xué)機械與汽車工程學(xué)院,  教師、助教
1999.9-2000.7    青島理工大學(xué)機械與汽車工程學(xué)院,  教師/教研室主任、講師
2001.9-2003.7    天津大學(xué)機械工程學(xué)院,                   博士后、副教授
2003.9-2005.11  中國石化勝利油田采油院,                博士后、教授
2005.12-至今        青島理工大學(xué)機械與汽車工程學(xué)院, 教師/副院長、教授

學(xué)術(shù)兼職
2022年3月-至今   山東省專業(yè)學(xué)位研究生教育指導(dǎo)委員會委員
2021年9月-至今  《摩擦學(xué)學(xué)報》編委
2020年9月-至今  《軸承》編委
2023年9月-至今  《機械傳動》編委
教學(xué)情況
主授課程
1、博士課程:機械工程科學(xué)進展,現(xiàn)代信號分析與處理
2、碩士課程:工程摩擦學(xué),流體潤滑數(shù)值分析,機械工程前沿,專業(yè)英語
3、本科課程:機械工程專業(yè)英語,測控技術(shù)與儀器專業(yè)導(dǎo)論
教材編寫
《機械工程專業(yè)英語》副主編
教改項目
《流體潤滑數(shù)值分析》山東省研究生優(yōu)質(zhì)課程
科研情況
研究領(lǐng)域
摩擦學(xué)與表界面工程,鋁鎂金屬材料處理與加工
科研項目
1.中國長江電力股份有限公司項目:“透平油XXX對推力X摩擦學(xué)及傳熱性能影響的仿真試驗研究”,2024.10~2026.05,135萬元,第1位。
2.中央軍委科技委軍工保密項目: “XX環(huán)境下XX齒輪XXXX表面XXX潤滑調(diào)控方案與機理研究”,2019.10~2022.10,200萬元,第1位。
3.山東省自然科學(xué)基金面上項目(ZR2021ME063):“齒輪仿生功能表面熱磁流固耦合智能精準潤滑調(diào)控機制研究”,2022.01~2024.12,10萬元,第1位。
4.國家自然科學(xué)基金項目(51575289):“水潤滑橡膠軸承多因素耦合動靜壓協(xié)同潤滑承載機制研究”,2016.01~2019.12,62萬元,第1位。
5.國家自然科學(xué)基金項目(51175275):“低粘度多介質(zhì)三體接觸軟彈流潤滑理論與實驗研究”,2012.01~2015.12,58萬元,第1位。
6.國家自然科學(xué)基金項目(50875137):“沖擊激勵對真實齒面潤滑薄膜振蕩及表層應(yīng)力的瞬態(tài)影響研究”,2009.01~2011.12,32萬元,第1位。
7.國家自然科學(xué)基金項目(51705270):“基于形變補償晶體取向及多介質(zhì)微量潤滑的鋁合金高速切削殘余應(yīng)力控制機理研究”,2018.01~2020.12,25萬元,第2位(博士生主持)。
8.國家自然科學(xué)基金項目(50175054):“納米固體顆粒對薄膜潤滑連續(xù)性影響的研究”,2002.01~2004.12,第3位。
9.山東省重點研發(fā)計劃項目(2019GHY112068):“基于仿生硅藻典型殼壁結(jié)構(gòu)的減振降噪水潤滑復(fù)合橡膠軸承關(guān)鍵技術(shù)研究”, 2019.01~2021.12,20萬元,第1位。
10.山東省自然科學(xué)基金項目(ZR2019PEE028):“油水氣三相射流微量潤滑對7055鋁合金超聲波滾壓加工表層納米化影響機理研究”,2019.07~2022.06,第2位(博士生主持)。
11.山東省自然科學(xué)基金項目(Y2007F30):“沖擊載荷對齒輪薄膜潤滑連續(xù)性影響的研究”,2008.01~2010.12,第1位。
12.山東省自然科學(xué)基金項目(ZR2016EEP03):“基于表面微織構(gòu)刀具和油水氣三相流的航空用高強鋁合金高速切削潤滑機理研究”,2016.11~2018.06,第2位(博士生主持)。
13.山東省自然科學(xué)基金重點項目(Z2003F01):“齒輪在真實條件下的薄膜潤滑機理研究”,2003.01~2006.12,第2位。
14.山東省高等學(xué)??萍加媱濏椖浚╕07JY17):“沖擊載荷對漸開線直齒圓柱齒輪薄膜潤滑連續(xù)性影響的研究”,2007.01~2009.12,第1位。
15.山東省高等學(xué)??萍加媱濏椖浚↗17KA031):“基于多介質(zhì)微量潤滑的高速切削殘余應(yīng)力生成機理研究”,2017.07~2019.06,第2位(博士生主持)。
16.青島市科技發(fā)展計劃項目(06-2-2-19-jch):“真實條件下漸開線圓柱齒輪動態(tài)混合潤滑研究”,2007.01~2008.12,第1位。
17.青島市科技發(fā)展計劃項目(12-1-4-4-(2)-jch):“海水潤滑軸承彈流潤滑理論分析及摩擦磨損特性研究”,2012.01~2014.09,第1位。
18.青島經(jīng)濟技術(shù)開發(fā)區(qū)項目(2012-2-056) :“綠色潤滑低噪減振復(fù)合塑膠軸承應(yīng)用基礎(chǔ)研究”,2012.01~2014.06,第1位。
19.中石化勝利油田有限公司項目(YKB0411):“有桿泵井管桿磨蝕機理及應(yīng)用研究”,2004.01~2006.01,80萬元,第1位。
科研論文
1.Wei Lu*, Youqiang Wang*, Chenbing Ni*,Chengguo Zong, Longxiang Liu and Baoguo Zhang.Surface characteristics and crystallographic texture evolution of aviation aluminum alloy in high-speed machining based on visco-plastic self-consistent model. Journal of Advanced Manufacturing Systems, 2025,1-21.DOI: 10.1142/S0219686725500234
2.Dejian Liu, Chenbing Ni*, Youqiang Wang*, Lida Zhu, Zhongpeng Zheng,Wei Lu, Naixin Zhang, Xingbao Huang,Cutting force modeling in high-speed machining of selective laser melted Ti6Al4V alloys based on a modified constitutive model considering thermally activated effect. 2025, 68(3):1320202:1–1320202:18.DOI:10.1007/s11431-024-2840-4
3.Yibing Ren ,  Youqiang Wang*, Xuezhao Wang , Ying Xu. Effects of aging processes on the dynamic impact mechanical behavior of Mg-Gd system alloys. Metals. 2024, 14(10):1102. DOI:10.3390/met14101102.
4.Ying Xu, Kai An*, Youqiang Wang*, Yi Sui, Wei Tong , Haixian Liu , Yongquan Qing. Designing robust Ni-P/CeO2 superhydrophobic composite coating for synergistically enhanced corrosion protection and friction reduction performance. American Chemical Society.2024,40(32):16771-16782. DOI:10.1021/acs.langmuir.4c01133.
5.Haoran Guo , Youqiang Wang*, Haiyang Zhang , Kai An*.  Recent advances and strategies in mechanical stability of superhydrophobic surfaces. Progress in Organic Coatings. 2024, 194(9):108595. DOI:10.1016/j.porgcoat.2024.108595
6.Xue-zhao Wang, You-qiang Wang*, Chen-bing Ni, Yu-xin Fang, Xiao Yu,Ping Zhang. The effect of T4 and T6 heat treatments for dynamic impact behavior of casting Mg-Gd-based alloys[J].Vacuum 205,2022,111450.
7.Yu Xiao,Wang Youqiang*,Zhang Ping,Zhai Yanchun,Li Liying. Surface integrity and wear evolution of high strength aluminum alloy after high-speed oblique cutting[J]. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2022,236(5).
8.Zheng Yi,Wang Youqiang*,Liu Jixin. Research on structure optimization and motion characteristics of wearable medical robotics based on Improved Particle Swarm Optimization Algorithm[J]. Future Generation Computer Systems,2021.
9.Yu Xiao, Wang Youqiang*, Zhang Ping, Wang Xuezhao, Yue Xiujie. Surface integrity of high strength aviation aluminum alloy in CURP treatment[J]. The International Journal of Advanced Manufacturing Technology, 2022:1-12.
10.Fang Yuxin, Wang Youqiang*, Zhang Ping, Luo Heng. Research on chip formation mechanism and surface morphology of particle-reinforced metal matrix composites[J]. The International Journal of Advanced Manufacturing Technology,
2021,117(11-12):1-12.
11.Zhang Ping*, Zhang Qiang, Fang Yuxin, Yue Xiujie, Yu Xiao, Wang Youqiang. Research on the mechanism of surface damage of Ni-based high-temperature alloy GH4169 based on nano-cutting[J]. Vacuum,2021,:110439-.
12.Zheng Yi,Wang Youqiang*,Liu Jixin. Analysis and experimental research on stability characteristics of squatting posture of wearable lower limb exoskeleton robot[J]. Future Generation Computer Systems,2021,125.
13.Jian Guang xiao,Wang You qiang*,Zhang Ping,Li Yun kai,Luo Heng. Analysis of lubrication performance for internal meshing gear pair considering vibration[J]. Journal of Central South University,2021,28(1).
14.Li Yunkai,Wang Youqiang*,Zhang Ping,Jian Guangxiao,Luo Heng,Yu Xiao. UHMWPE Modified by Halogenating Reagents: Study on the Improvement of Hydrophilicity and Tribological Properties[J]. Tribology Transactions,2022,65(2).
15.Zhang Ping*,Cao Xian,Zhang Xiancheng,Wang Youqiang. Effects of cutting parameters on the subsurface damage of single crystal copper during nanocutting process[J]. Vacuum,2020.
16.Yi Zheng,Youqiang Wang*,Jixin Liu,Haiyan Jiang,Qingchao Yue. Knee joint vibration signal classification algorithm based on machine learning[J]. Neural Computing and Applications,2020,33(3).
17.Jing-jing Zhao, Jin-xiang Liu*, You-qiang Wang. Effect of reversing duration time and commutation meshing state on the elastohydrodynamic lubrication of reciprocating spur gear rack[J]. Lubrication Science. 2022;1–11.
18.Jing‐jing Zhao,You‐qiang Wang*,Ping Zhang,Guang‐xiao Jian. A Newtonian thermal elastohydrodynamic lubrication model for ferrofluid‐lubricated involute spur gear pair[J]. Lubrication Science,2020,32(2).
19.Heng Luo, Youqiang Wang*, Ping Zhang. Simulation and experimental study of 7A09 aluminum alloy milling under double liquid quenching[J]. Journal of Central South University. 2020, 27(2): 372-380.
20.Heng Luo,Youqiang Wang*,Ping Zhang. Effect of cutting parameters on machinability of 7075-T651 aluminum alloy in different processing methods[J]. The International Journal of Advanced Manufacturing Technology,2020,110(7).
21.Ping Zhang,Youqiang Wang*,Xiancheng Zhang. Energy absorption and impact resistance of sandwich composite alloy structures under dynamic impact[J]. Journal of Alloys and Compounds,2020,831.
22.Huang Xingbao*,Zhang Xiao,Wang Youqiang. A theoretical investigation on the lubrication mechanism of moving particles in elliptical contact[J]. Physica Scripta,2020,95(7).
23.Guangxiao Jian,Youqiang Wang*,Ping Zhang,Yinong Xie,Jingjing Zhao. Analysis of lubricating performance for involute spur gear under vibration[J]. Lubrication Science,2020,32(7).
24.Xingbao Huang*,Bintang Yang,Youqiang Wang. Influences of transient impact and vibration on the lubrication performance of spur gears[J]. Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology,2020.
25.Heng Luo,Youqiang Wang*,Ping Zhang. Effect of cutting and vibration parameters on the cutting performance of 7075-T651 aluminum alloy by ultrasonic vibration[J]. The International Journal of Advanced Manufacturing Technology,2020,107(17).
26.Xingbao Huang*,Bintang Yang,Youqiang Wang,Changjiang Zhou. Influences of impulse excitation and vibration on thermoelastohydrodynamic characteristics of spur gear drive[J]. Lubrication Science,2020,32(6).
27.Zhang Ping*,Wang Youqiang,Wang Qing,Yu Xiao. Dislocation damage and adiabatic shear mechanisms of 7055 aluminum alloy during cutting process[J]. International Journal of Damage Mechanics,2020,29(8).
28.Ping Zhang, Youqiang Wang*, Xiancheng Zhang. Energy absorption and impact resistance of sandwich composite alloy structures under dynamic impact[J]. Journal of Alloys and Compounds. 2020,Aug: 831.
29.Ping Zhang*,Youqiang Wang,Xiao Yu,Heng Luo. The mechanical behaviors and energy absorption mechanisms of Al–Cu–Mn alloy under dynamic penetration at wide temperature ranges and large angles[J]. Journal of Alloys and Compounds,2020,815(C).
30.Xingbao Huang*,Bintang Yang,Youqiang Wang. A nano-lubrication solution for high-speed heavy-loaded spur gears and stiffness modelling[J]. Applied Mathematical Modelling,2019,72.
31.Ping Zhang,Youqiang Wang*,Yinong Xie,Yabo Zhou. A study on the dynamic shock performance of 7055-T6I4 aluminum alloy based on experimental and simulation[J]. Vacuum,2018,157.
32.Ping Zhang,Youqiang Wang*,Heng Luo,Shenwen Long,Cong Wei. Research on the Large Plastic Deformation Damage and Shock Resistance of 7055 Aluminum Alloy[J]. JOM,2019,71(7).
33.Ping Zhang,Youqiang Wang*,Weihui Li,Qing Wang,Yuanyuan Li. A study on microstructure evolution and corrosion resistance of cutting layer metal of 7055 aluminum alloy based on extreme environment[J]. Materials and Corrosion,2018,69(10).
34.Ping Zhang,Youqiang Wang*. Effects of heat treatment on the nanoscale precipitation behavior of 7055 aluminum alloy under dynamic shock[J]. Vacuum,2018,152.
35.Ping Zhang,Youqiang Wang*. A study on chip and microstructure of 7055 aluminum alloy's 3D HSC based on FEM and experiment[J]. Vacuum,2018,152.
36.Zhang Ping,Wang Youqiang*. Effects of shear strain and annealing on the nano-precipitate phase and crystal orientation of 7055 aluminum alloy during cutting process[J]. Vacuum,2018,151.
37.Zhang Ping,Wang Youqiang*,Liu Wenhui. Finite element analysis of TC17 Ti alloy under high-speed cutting based on its friction model of deformation zone[J]. The International Journal of Advanced Manufacturing Technology,2018,96(1).
38.Ping Zhang,Youqiang Wang*,Wenhui Liu. The HSC machining mechanism for TC17 under multimedia mixed minimum quantity lubrication[J]. The International Journal of Advanced Manufacturing Technology,2018,95(1).
39.Jing-jing Zhao,You-qiang Wang*. Reliability Analysis of ABB IRB 4600-40-255 Polishing Robot with Six Degree of Freedom[P]. Proceedings of the 2018 7th International Conference on Energy and Environmental Protection (ICEEP 2018),2018.
40.Ping Zhang,Youqiang Wang*,Qing Wang. On the precipitation behaviour of 7055 aluminium alloy during high-speed cutting[J]. Materials Science and Technology,2018,34(13).
41.Zhang Ping, Wang YouQiang*.The Influence of Heat Treatment on Nanoscale Microstructure and Crystal Orientation of 7055 Aluminum Alloy before and after High-speed Milling[J].Transactions of the Indian Institute of Metals, 2018, (1):1-15.
42.Zhang Ping,Wang Youqiang*. Research on High Speed Machining of TC17 Titanium Alloy under Extreme Environments, Transactions of the Indian Institute of Metals, 2017,(9):1101~1109.
43.Zhang Ping,Wang Youqiang*. Three-Dimensional Finite Element Simulation of High-Speed Cutting of 7055 Aluminum Alloy Based on ABAQUS[J]. International Journal of science, 2017,8(4):40~46.
44.You-Qiang Wang*, Xiu-Jiang Shi, Li-Jing Zhang. Experimental and numerical study on water lubricated rubber bearings[J].Industrial Lubrication and Tribology, 2014, 66(2): 282-288.
45.You Qiang Wang*, Zhi Cheng He, Wei Su. Effect of impact load on transient elastohydrodynamic lubrication of involute spur gears[J]. STLE Tribology Transactions, 2012, 55, (2):p155~162.
46.You-Qiang Wang* and Xue-Juan Yi. Non-Newtonian transient thermoelastohydrodynamic lubrication analysis of an involute spur gear[J]. Lubrication Science, 2010, Vol.22, No.10, p465-478.
47.You-Qiang Wang*, Hong-Qi Li, Jing-Wei Tong, Pei-Ran Yang. Transient thermoelastohydrodynamic lubrication analysis of an involute spur gear[J]. Tribology International, 2004,Vol.37, No.10, p773~782.
48.You-Qiang Wang*, Wen-Li Sun. Experimental study on the lubrication behaviors of seawater-lubricated thordon bearings, Key Engineering Materials[J]. 2012, Vol.500, p.297-300.
49.王優(yōu)強*,徐瑩,莫君,何彥,趙濤,倪陳兵.磁場作用下水基磁流體對TC4與Si3N4摩擦學(xué)性能影響的實驗研究[J].機械工程學(xué)報, 2024,60(07): 174-183.
50.王優(yōu)強*,董寧,劉前,黃興保.考慮固體顆粒和粗糙度的水潤滑飛龍軸承熱彈流潤滑性能分析[J].機械工程學(xué)報,2017,53(03):121-129.
51.王優(yōu)強*,卞榮.連續(xù)波狀粗糙度對直齒輪熱彈流潤滑的影響[J].機械工程學(xué)報,2009,45(08):112-118.
52.王優(yōu)強*,衣雪鵑,楊沛然.漸開線直齒輪瞬態(tài)微觀熱彈流潤滑分析[J].機械工程學(xué)報,2007(11):142-148.
53.王優(yōu)強*,楊沛然,佟景偉,李鴻琦.漸開線直齒圓柱齒輪非穩(wěn)態(tài)熱彈流潤滑分析[J].機械工程學(xué)報,2004(09):10-15.

發(fā)明專利
(1) 王優(yōu)強; 栗心明; 董亮; 張曉亮; 丁含月; 楊興龍; 靳宗凱 ; 草莓成熟度識別及采摘分撿機, 2023-09-08, 中國, CN201810293952.5
(2) 王優(yōu)強; 王建; 范曉夢; 王濤 ; 一種能夠提高承載力的船舶艉軸承, 2018-5-15, 中國, ZL201610192933.4
(3) 王優(yōu)強; 黃興保; 劉前; 董寧 ; 帶有磁性鎳基合金涂層齒輪, 2017-2-22, 中國, CN201410842156.4
(4) 于曉; 王優(yōu)強; 張平; 鄭義; 宗成國 ; 一種能實現(xiàn)恒壓力自平衡的軸類零件表面強化裝置及機床, 2020-11-27, 中國, CN202011357647.1
(5)鄭義; 王優(yōu)強; 王雪兆; 莫君; 何彥;基于大數(shù)據(jù)控制的下肢康復(fù)機器人力平衡調(diào)節(jié)裝置,2022-4-29, 中國, CN202111638552.1
(6)王雪兆; 王優(yōu)強; 唐昌平; 倪陳兵; 房玉鑫; 于曉;一種抗沖擊的高強耐熱鎂稀土合金材料,2021-10-22, 中國, CN202110779348.5
(7)倪陳兵; 劉德建; 王優(yōu)強; 林飛; 王雪兆; 蘆偉; 張乃鑫;一種激光選區(qū)熔化Ti6Al4V銑削力預(yù)測方法,2024-5-6, 中國, CN202410549126.8
(8)安愷; 王優(yōu)強; 徐瑩; 倪陳兵; 鄭義; 郭浩冉;一種穩(wěn)定的含鈰超疏水耐蝕減摩涂層及其制備方法,2023-11-3, 中國,CN202311451387.8
(9)李維華; 焦偉; 王優(yōu)強;一種自走式生姜聯(lián)合收獲機,2022-2-24, 中國,CN202210174596.1
(10)王雪兆; 王優(yōu)強; 唐昌平; 倪陳兵; 房玉鑫; 于曉;一種抗沖擊的高強耐熱鎂稀土合金材料, 2022-2-11, 中國,CN202110779348.5
(11)李云凱; 王優(yōu)強; 羅恒; 菅光霄; 于曉,具有功能梯度仿生織構(gòu)的軸瓦及制備方法、和水潤滑軸承,2020-5-22, 中國, CN202010442329.9
(12)謝奕濃; 王優(yōu)強; 李云凱; 羅恒; 于曉;基于霍普金森壓桿加載技術(shù)的多工位高速切削試驗裝置,2019-6-21, 中國, ZL201920943031.9
(13)趙晶晶; 王優(yōu)強; 菅光霄; 于曉; 李云愷; 宋曉萍; 羅恒;一種垂直軸風(fēng)力發(fā)電機,2019-8-26, 中國, ZL201921388313.3
(14)劉新福; 王優(yōu)強; 張平; 周超; 石云; 何鴻銘;海洋深水油氣管道軸推式液壓驅(qū)動快速接頭裝置,2019-5-15, 中國, ZL201910404117.9
(15)莫君; 王優(yōu)強; 菅光霄; 胡宇; 左名玉; 房玉鑫;一種帶磁性表面織構(gòu)的磁流體潤滑齒輪,2020-1-21, 中國, ZL202020135175.4
(16)左名玉; 王優(yōu)強; 菅光霄; 胡宇; 房玉鑫; 莫君;一種新型的金屬骨架聚合物齒輪,2020-1-20, 中國, ZL202020130027.3
(17)胡宇; 王優(yōu)強; 菅光霄; 房玉鑫; 莫君; 左名玉;一種垂直風(fēng)力發(fā)電機的風(fēng)葉調(diào)節(jié)裝置,2020-1-20, 中國, ZL202020130041.3
(18)趙輝; 王優(yōu)強;一種帶有仿生復(fù)合表面織構(gòu)面板,2019-12-4, 中國, ZL201922147175.6
等共97件。
獲獎情況
1、中國商業(yè)聯(lián)合會科技進步一等獎,2018,1/9
2、山東省高等學(xué)校優(yōu)秀科研成果三等獎,2018,1/7
3、山東省教學(xué)成果獎二等獎,2022,1/9
4、山東省技術(shù)發(fā)明二等獎,2022,2/7
5、青島市科技進步一等獎,2021,2/6
招生信息
常年招收全日制博士后和師資博士后,每年招收博士生2名,碩士生5名。        

目前累計培養(yǎng)畢業(yè)全日制研究生70余名,在職非全日制研究生20余名。自設(shè)立研究生國家獎學(xué)金以來,每年皆有碩士研究生獲得國家獎學(xué)金,已有1名博士和12名碩士獲得研究生國家獎學(xué)金,1名博士生主持國家自然科學(xué)基金青年基金項目,1名博士獲得山東省優(yōu)秀博士學(xué)位論文,5名碩士獲得山東省優(yōu)秀碩士學(xué)位論文,4名碩士獲得山東省研究生優(yōu)秀科技創(chuàng)新成果獎,2名專業(yè)學(xué)位碩士獲得山東省優(yōu)秀實踐成果獎等榮譽稱號。

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