叶正茂
教授/博士生导师/硕士生导师
通讯地址:[570228]海南省海口市人民大道58号 海南大学 热带海洋工程材料及评价全国重点实验室
E-mail:mse_yezm@163.com
基本情况
主要从事绿色低碳材料制造与应用的科研与教学工作。围绕研究方向,先后主持国家自然科学基金面上项目、国家重点研发计划子课题、国家“十三五”重点研发计划子项、省自然基金等纵向项目,以及企业联合项目多项。获得国家发明专利五十余项,参与获得“国家技术发明二等奖”等省部级奖励四项,在国内外专业期刊发表论文八十余篇,参与制定国家及行业标准四项,参编行业权威工具书《硅酸盐辞典》。先后获得山东省优秀研究生导师、黄河三角洲产业领军人才、第十届中国硅酸盐学会青年科技奖获得者等荣誉。兼任中国硅酸盐学会理事、《硅酸盐学报》编委等。
研究方向
[1] 低碳胶凝材料制备及工程应用
[2] CO2资源化利用
[3] 燃料电池技术
长期招收材料科学与工程、土木工程材料相关研究方向的博士后、博士研究生与硕士研究生,期待您的加盟!
主讲课程
[1]水泥混凝土化学
[2]无机材料物理化学
[3]无机非金属材料工艺学
教育经历
2007年-2011年,武汉理工大学,材料物理与化学专业 博士
2001年-2004年,南京工业大学,材料学专业 硕士
1993年-1997年,山东建材学院,无机非金属材料专业 本科
工作经历
1997年 山东建材学院 材料科学与工程系 助教
2002年 山东建材学院 材料科学与工程系 讲师
2007年 济南大学 材料科学与工程学院 副教授
2009年 美国Colorado大学 Boulder校区 访问学者
2012年 济南大学 材料科学与工程学院 教授
2025年 海南大学 热带海洋工程材料及评价全国重点实验室/土木建筑工程学院 教授
社会兼职
中国硅酸盐学会 理事
《硅酸盐学报》、《建筑材料学报》编委会委员
中国硅酸盐学会固废分会 理事
中国建筑学会建材分会专业委员会 委员
中国硅酸盐学会水泥品种及性能专业委员会 副主任委员
主持项目
1.国家自然科学基金面上项目, MgO@GO核壳结构材料的膨胀调控机制及其对水泥收缩裂缝影响研究
2.国家自然科学基金面上项目, 石墨烯的导热性能及分布效应对水泥浆体早期收缩的影响机制研究
3.国家自然科学基金面上项目, 海洋附着生物对硫铝酸盐水泥混凝土表面结构及耐侵蚀性能的影响机理研究
4.国家“十三五”重点研发计划子项,修补/防护用硫铝酸盐水泥基材料关键技术
5.国家“973”预研计划子课题,高性能硫铝酸盐水泥特种材料组成体系与物理化学基础研究
6.国家“十一五”科技支撑计划子项,用于既有建筑改造的混凝土表面高性能防护体系的研究
7.山东省重点研发计划(重大创新工程)子项,高性能交通复合修补材料研发及其应用关键技术与示范
8.济南市高校院所科研带头人工作室项目,新型石墨烯二维材料的应用研究
9.山东省自然科学基金,利用钢渣吸收工业废气中CO2制备建筑材料的碳化机理研究
10.山东省教育厅,山东省教育厅科研基金,CO2碳酸化制备建材化利用研究
11.中国建材集团 关键核心技术攻关“揭榜挂帅”项目,低碳粉磨水泥应用性能研究
12.企业项目:固体氧化物燃料电池的研发
13.企业项目:超高性能混凝土(UHPC)的制备与性能研究
14.企业项目:一种不饱和酯及其制备方法和在缓释型聚羧酸超塑化剂制备中的应用
15.企业项目:水泥熟料质量优化技术
16.企业项目:先进陶瓷衬板制备技术
17.企业项目:一种新型的二乙醇单异丙醇胺制备方法
18.山东省研究生教育质量提升计划项目,全英文教学模式在博士研究生培养环节中的探索与实践
近年部分论文
1、Yang Qingchun , Ye Zhengmao *, Chang Jun *, Fight fire with fire: Mechanistic study of alumina increasing of high-temperature liquid-phase viscosity to suppress the deteriorative effect of potassium on Portland cement clinker , Construction and Building Material, 2026.506,145044
2、Yang Qingchun , Ye Zhengmao *, Chang Jun *, Study on the influence of Na2O/K2O ratio on the gypsum-optimized portland cement clinker process, Construction and Building Material, 2025.504,144669
3、杨庆春,...,叶正茂*,高钾硅酸盐水泥熟料中 C2S-α'L的形成及其对水化性能的影响,硅酸盐学报,2025.8.12
4、Jun Jiang, . Jiaming Wu * , ... , Zhengmao Ye*, Mechanisms of mechanical performance variations in cement with diethanol-isopropanolamine addition: Insights from a hydration perspective, Journal of Building Engineering,2025.107,112747
5、Yanguo Gan, Zhengmao Ye *,Jiaming Wu * , Effect of graphene oxide on hydration activity of spherical magnesium oxide, Advances in Cement Research,2025.(37)11, 611-619
6、Yang, Shangyun, ..., Ye Zhengmao*,Li, Jiajie *, In-situ preparation of tightly Contacting 3D fiber network composite electrolytes for high-performance 7、all-solid-state lithium batteries, Journal of Electroanalytical Chemistry,2025.979, 118915
8、Jun Jiang, Zhengmao Ye*, ..., Impact of triethanolamine on the hydration of Portland cement in the presence of high pozzolanic activity supplementary cementitious materials,Cement and Concrete Composites, 2024.01,147,105435
9、Qingchun Yang , Jiaming Wu * , ... , Zhengmao Ye *,Study on the solidification and hydration release behavior of K+ ions in high-potassium cement clinkers under different silica modulus,Cement and Concrete Research,2024.09,186,107661
10、Guojian Jing, ... , Zhengmao Ye*,Introducing reduced graphene oxide to enhance the thermal properties of cement composites,Cement and Concrete Composites , 2020.05,109,103559
11、Jun Jiang, ..., Zhengmao Ye*, Hydration of Portland cement in the presence of triethanolamine and limestone powder: Mechanical properties and synergistic mechanism,Construction and Building Material, 2024.08,438,137323
12、Guojian Jing, ... , Zhengmao Ye*,From graphene oxide to reduced graphene oxide: Enhanced hydration and compressive strength of cement composites, Construction and Building Material, 2020,07,248,118699
13、Guojian Jing, ... , Zhengmao Ye*,The non-uniform spatial dispersion of graphene oxide: A step forward to understand the inconsistent properties of cement composites, , Construction and Building Material, 2020.11,2264,120729
14、Jun Jiang,...Xiaolei,Lu*,Zhengmao Ye*, Performance optimization and hydration characteristics of BOF slag-based autoclaved aerated concrete (AAC), Cement and Concrete Composites, 2022.08,147,105435
15、Shuxian Wang*,Shuwei Ma,Jiaming Wu,Zhengmao Ye*,Xin Cheng,A promising temperature sensing strategy based on highly sensitive Pr3+-doped SrRE2O4 (RE = Sc, Lu and Y) luminescent thermometers, Chemical Engineering Journal,2020.05,393, 124564
16、Qingchun Yang,...,Jiaming Wu* , Zhengmao Ye*,Study on the composition and hydration properties at early stages of high-sodium Portland cement clinker under the synergistic effects of SO3,Construction and Building Material, 2023.08,327,126921
17、Fangsheng Liu, ...Zhengmao Ye* ,Dehua Dong*,Zongping Shao*,Elevated-temperature bio-ethanol-assisted water electrolysis for efficient hydrogen production, Chemical Engineering Journal,2022.01. 434,134699
18、Xiangyu Han, ..., Jiaming Wu* , Shuxian Wang*, Zhengmao Ye*,Modulation strategy of manganese valence state in yttrium gallium garnet,Ceramics International,2022.08,48,34658–34667
19、Jinpu Zhang,...,Shuxian Wang*,Zhengmao Ye*,Unraveling the valence states of manganese ions and the effects of composition variation and post-processing in YGG1-x-LuGGx:Mn garnet optical sensor,Chemical Engineering Journal,2021.05,411,128448
20、NDZILA Jaures,Zhengmao Ye*, Shuxian Wang,*..., Study on the hydration properties of two polymorphs of Sr4Al6SO16,Ceramics International,2021.01,10,47,13820-13826
21、Jinpu Zhang,...,Shuxian Wang*,Zhengmao Ye*,Studying crystal-field splitting difference of Eu3+ ions from orthorhombic to cubic Ca4Al6SO16,Ceramics International,2020.04,46,5998-6005
22、Shuwei Ma,Shuxian Wang*,...,Zhengmao Ye*,Site engineering of Ce3+-doped calcium scandate phosphors and understanding of relevant red-shifted emitting from green to yellow,Ceramics International,2020.12,46,20004-20011
23、Shuxian Wang, ... , Zhengmao Ye*,Exploring impurity phases derived from the introduction of vanadium ions in yttrium gallium garnet,Ceramics International,2020.11,16,46,25996-26003
24、Shuxian Wang*,Shuxin Liu,Jinpu Zhang,Zhengmao Ye*,Xin Cheng,Trace detection of impurity phase in preparation of ye'elimite by Eu3+ fluorescence prober,Sensors & Actuators: B. Chemical,2019.10,296,126607
25、Xiaolei Lu,Zhengmao Ye*,...,Xin Cheng*,Study on the preparation and properties of belite-ye'elimite-alite cement,Construction and Building Material, 2018.09,182,399-405
26、Tengpeng Wang, ...,Zhengmao Ye* ,Dehua Dong*,Effect of NiO/YSZ cathode support pore structure on CO2 electrolysis via solid oxide electrolysis cells,Journal of the European Ceramic Society,2018.12,38(15),5051-5057
27、杨庆春,...,吴佳明*,叶正茂*,低铝硅比条件下硫铝酸盐水泥熟料中钙铝黄长石相的演变及形成动力学,硅酸盐学报,2022.6,50,1972-1977
28、Xiaoyu Xie, ...Zhengmao Ye*,Dehua Dong*,Nanofibrous perovskite ceramics with in-situ exsolved Ni3Fe alloy nanoparticles for catalytic CO2 methanation,Journal of Alloys and Compounds,2023.10,970,172490
29、Xiangyu Han, ... , Shuxian Wang*, Zhengmao Ye*,Insight into Eu3+-Doped Phase-Change K3Lu(PO4)2 Phosphate toward Data Encryption,Inorganic Chemistry,2023.06,62, 19, 9273-9758
30、Changqing Hu,..., Jiaming Wu* , Shuxian Wang*, Zhengmao Ye*,
Fluorescence modulation in Pr3+-doped MGd2O4 (M = Sr, Ba) by the site engineering strategy,Journal of Luminescence,2023.11,255,119582
31、Yuxia Ma,..,Zhengmao Ye* ,Dehua Dong*,Electrospun nanofibrous Ni/LaAlO3 catalysts for syngas production by high temperature methane partial oxidation,International Journal of Hydrogen Energy,2022.01,6,47,3867-3875
32、NDZILA Jaures,Zhengmao Ye*, Shuxian Wang*...,Structural analysis and phase transformation of doped strontium sulfoaluminate,Journal of Alloys and Compounds, 2021.10,877, 160154
33、Xiangyu Han, ... , Shuxian Wang*, Zhengmao Ye*,Enhancing the Photoluminescence Property of Pr3+ Ions by Understanding the Polymorphous Influence of the K3Lu(PO4)2 Host,Inorganic Chemistry,2021.09,60, 19, 14978–14987
34、Yumei Li*,Zhengmao Ye*,Peng Lu,Lingchao Lu,Pyomelanin produced by Streptomyces sp. ZL-24 and its protective effects against SH-SY5Y cells injury induced by hydrogen peroxide,Scientific Reports,2021.08,16649
35、Changqing Hu,..., Shuxian Wang*, Zhengmao Ye*,Preparation and characterization of Gd-3(ScAl)(2)Al3O12:Ce3+ garnet phosphors towards high-color-rendering white-light illumination,Journal of Luminescence,2021.07,235,118062
36、Jiaming Wu,...,Shuxian Wang*,Zhengmao Ye*,Self-doping in ScOOH oxyhydrates and relevant temperature sensing exploration combined with lanthanide fluorescence probes,Journal of Luminescence,2021.03,231,117836
37、Shuwei Ma,...,Shuxian Wang*,Zhengmao Ye*,Synthesis, crystal structure and photoluminescence properties of novel Ba3Lu4O9:Ce3+ orange-red phosphors for white light emitting diodes,Journal of Alloys and Compounds,2020.04,819,153047
38、Shuxian Wang*,Shuwei Ma,Guanggang Zhang,Zhengmao Ye*,Xin Cheng,High-Performance Pr3+-Doped Scandate Optical Thermometry: 200 K of Sensing Range with Relative Temperature Sensitivity above 2 %·K−1, ACS Applied Materials & Interfaces,2019.12,11,45,42330−42338
39、Jingjing Wang, ...,Zhengmao Ye* ,Dehua Dong*,Catalytic CeO2 washcoat over microchanneled supporting cathodes of solid oxide electrolysis cells for efficient and stable CO2 reduction,Journal of Power Sources,2019.02,412,344-349
40、Tengpeng Wang, ...,Zhengmao Ye* ,Dehua Dong*,Essential microstructure of cathode functional layers of solid oxide electrolysis cells for CO2 electrolysis,Journal of CO2 Utilization,2019.06,32,214-218
41、Shuxin Liu,Shuwei Ma,Shuxian Wang*,Zhengmao Ye*,Exploring crystal-field splittings of Eu3+ ions in gamma- and beta-SrGa2O4,JOURNAL OF LUMINESCENCE,Journal of Luminescence,2019.06,210,155-163
42、Shuwei Ma,Shuxin Liu,Shuxian Wang*,Zhengmao Ye*,Fast preparation of Ce3+-activated scandate for high-color- rendering warm white-light illumination by cation exchange,Journal of Luminescence,2019.08,212,361-367
43、Libo Yu,Jingjing Wang,Zhengmao Ye* ,...,Dehua Dong*,Electrochemical conversion of CO2 over microchanneled cathode supports of solid oxide electrolysis cells,Journal of CO2 Utilization,2018.06,26,179-183
44、Zhengxin Wang, Jiaming Wu * , ... , Zhengmao Ye *,Optimization of Ultra-High Performance Concrete Based on Response Surface Methodology and NSGA-II,Materials,2025.(17)19, 4885
45、Ma, Xiaojun,...,Ye Zhengmao *,Li jiajie *,Flexible Composite Electrolyte Membranes with Fast Ion Transport Channels for Solid-State Lithium Batteries,Polymers, 2024, 16, 565
46、Jiaming Wu*,...,Zhengmao Ye*, An Eco-Friendly Acid Leaching Strategy for Dealkalization of Red Mud by Controlling Phase Transformation, Materials, 2022.02,15,580
47、Shuxian Wang,..., Zhengmao Ye*,Haohai Yu*,Huaijin Zhang*,Rational Design of a Nd3+-Mn4+ Co-doped Luminescent Thermometer: Towards High-Sensitivity Temperature Sensing,ChemPhotoChem,2021.02,5,455-465
48、Guojian Jing,...,Shuxian Wang*,Zhengmao Ye*,Comprehensive evaluation of formation kinetics in preparation of ternesite from different polymorphs of Ca2SiO4. Journal of Solid State Chemistry,2020.12,292,121725
49、NDZILA Jaures Syntyche,...,Shuxian Wang*,Zhengmao Ye*, Regulation of Fe3+-doped Sr4Al6SO16 crystalline structure. Journal of Solid State Chemistry,2020.08, 288, 121415
50、Guojian Jing,,..., Shuxian Wang*, Zhengmao Ye*Enhanced dispersion of graphene oxide in cement matrix with isolated-dispersion strategy. Industrial & Engineering Chemistry Research, 2020.05,59,10221-10228
51、Xiaolei Lu,Shuxian Wang,Zhengmao Ye*,Xin Cheng*...,Study on the hydration product of ettringite in cement paste with ethanol-diisopropanolamine,Journal of Thermal Analysis and Calorimetry,2020.01, 139,2,1007-1016
52、 Xiaolei Lu,...,Shuxian Wang*,Zhengmao Ye*,Xin Cheng*,Phase Identification of γ- and β-Ca2SiO4 via the Rear-Earth Fluorescence Probe,Journal of Physical Chemistry C,2019.06,123,22,13877-13884
53、Guojian Jing,Zhengmao Ye*, ... ,Effects of graphene oxide on the hydration behavior of ye’elimite,Journal of material science,2019.10, 54,12582-12591
54、Chuanhai Li,...,Zhengmao Ye*,Xin Cheng*,The effect of gypsum on the hydration of alite-belite-ferrite phase system,Journal of Thermal Analysis and Calorimetry,2019.04,136,2,717-724
55、Yuke Lou,Zhengmao Ye*,...,Xin Cheng*,Influence of synthesis methods on ettringite dehydration,Journal of Thermal Analysis and Calorimetry,2019.02,135,4,2031-2038
56、Guojian Jing, Zhengmao Ye*,... ,A ball milling strategy to disperse graphene oxide in cement composites,New Carbon Materials,2019.12,34,6,569-577
57、Shuxin Liu,...,Shuxian Wang*,Zhengmao Ye*,Modulation of two ye'elimite phases via Ga3+ cation substitution,Crystengcomm,2018.07,20,3755-3764
58、Libo Yu,Jingjing Wang,Zhengmao Ye* ,...,Dehua Dong*,A nanocatalyst network for electrochemical reduction of CO2 over microchanneled solid oxide electrolysis cells,Electrochemistry Communications,2018.01,86,72-75
59、NDZILA Jaures,...,Shuxian Wang*, Zhengmao Ye*,The effect of Fe3+ ion substitution on the crystal structure of ye’elimite,Ceramics-Silikáty,2020.02,64,1,18-28
60、Jiaming Wu,...,Zhengmao Ye*,Xun Hu*,Design of graphene oxide by a one-pot synthetic route for catalytic conversion of furfural alcohol to ethyl levulinate,Journal of Chemical Technology and Biotechnology,2019.10,94,10,3093-3101
61、Shuxian Wang,Shuwei Ma,Shuxin Liu,Zhengmao Ye*,Facile Post-Synthesis of a Ce3+-Doped CaxSr1-xSc2O4 Phosphor by Means of Cation Exchange,Chemistryselect,2018.04,3,16,4387-4392
62、Xiaolei Lu,...,Zhengmao Ye*,Effect of ferrite phase on the formation and coexistence of 3CaO center dot 3Al(2)O(3)center dot CaSO4 AND 3CaO center dot SiO2 minerals,Ceramics-Silikáty,2018.03,62,1,67-73
63、Guojian Jing, Zhengmao Ye*,... ,Incorporating graphene oxide into lime solution: A study of flocculation and corresponding improvement,Materiales de Construccion,2018.09,68,331
64、Xiaolei Lu,...,Zhengmao Ye*,Research on properties and the hydration of Portland limestone cement with diethanol-isopropanolamine,Ceramics-Silikáty,2018.08,62,3,233-239
专利
1、叶正茂; 卢晓磊,一种早强抗裂固废基贝利特胶凝材料及其制备方法,ZL 202511011481.0
2、叶正茂;杨庆春;吴佳明;蒋军,一种自碳化增强高钾硅酸盐水泥熟料及其制备方法与应用,ZL 202410944823.3
3、叶正茂;杨庆春;吴佳明;蒋军,一种具有负碳功能的硅酸盐水泥碳化早强剂及其制备方法和应用,ZL 202410886491.8
4、李加杰; 叶正茂; 董德华,一种榫卯固态电极及其制备方法和应用, ZL 202410124870.3
5、叶正茂; 孙晓杰; 吴佳明; 卢晓磊; 牛腾,一种水性混凝土脱模剂原液及其室温制备方法与应用,ZL 202210457365.1
6、叶正茂; 孙晓杰; 吴佳明; 卢晓磊; 牛腾,一种混凝土表面优化剂及其制备和使用方法,ZL 202210488108.4
7、李加杰; 刘方升; 叶正茂; 董德华,一种一步烧结制备直孔固态捚电池陶瓷电解质的方法及其应用,CN202210885993.X
8、李加杰; 刘方升; 叶正茂; 董德华,一种固态锂电池陶瓷复合电解质及其制备方法与应用,ZL202210887447.X
9、王树贤; 叶正茂; 胡常庆; 马树伟; 王文波,一种温敏荧光粉及其制备方法和应用,ZL202010069165.X
10、叶正茂; 景国建; 李旭; 李全亮; 王树贤; 程新,一种石墨烯/水泥基材料的制备方法及分散装置和应用,ZL 201910641221.X
11、叶正茂; 景国建; 巩新; 王树贤; 程新,一种石墨烯/水泥分散装置及石墨烯改性水泥基材料的制备方法和应用,ZL 201910614672.4
12、叶正茂; 景国建; 冯浩然; 李全亮; 王树贤; 程新,一种高导热水泥熟料及其水泥制品的制备方法和应用,ZL201910625018.3
13、吴佳明; 叶正茂; 卢晓磊; 王蓓蓓; 李全亮,一种赤泥基水泥混凝土后期强度增强胶凝材料的制备方法及其应用,ZL201910641221.X
14、叶正茂; 卢晓磊; 杜保立; 付兴华; 雷田雨,一种含醇胺基团的不饱和酯的制备方法及所得产品和应用,ZL201811000733.x
15、叶正茂; 卢晓磊; 雷田雨; 杜保立; 付兴华,一种早强型聚羧酸减水剂及其制备方法,ZL201811000732.5
16、叶正茂; 景国建; 冯浩然; 程新; 王树贤,混凝土表面防护的方法及所得表面防护型混凝土,ZL201810544804.6
17、王树贤; 叶正茂; 刘树新; N•杰利思; 陈嘉欣; 程新,一种无水硫铝酸锶正交与立方相晶型调控的方法,ZL201810866057.8
18、王树贤; 叶正茂; 吴佳明; 卢晓磊,一种发光特性可控的荧光粉制备方法及所得荧光粉,ZL201811222605.X
19、王树贤; 叶正茂; 马树伟; 刘树新,一种白光LED用黄色荧光粉的制备方法及其应用,ZL201811067382.4
20、王树贤; 叶正茂; 马树伟; 刘树新; 张广刚,一种白光LED用黄光荧光粉及其制备方法,ZL201810227170.1
21、董德华; 王静静; 叶正茂; 于丽波,一种新型固体氧化物电解电池电极催化涂层的制备方法,ZL201810078244.X
22、叶正茂; 李传海; 卢晓磊; 王树贤; 程新,一种分相组合制备硫铝酸钙-阿利特-贝利特-铁相体系水泥熟料的方法,ZL201711458388.X
23、王树贤; 叶正茂; 刘树新; 张广刚,一种黄色荧光粉及制备方法和其在发光器件中的应用,ZL201710352345.7
24、程新; 叶正茂; 李传海; 卢晓磊,一种含硅酸三钙的硫铝酸盐水泥熟料及其制备方法,ZL201710390145.0
25、叶正茂; 景国建; 王振兴,一种控制磷酸铵镁水泥早期放热量大且集中的方法,ZL201611092868.4
26、叶正茂; 景国建; 王振兴; 王树贤; 程新,一种无缓凝剂耐水性磷酸铵镁水泥及其制备方法,ZL201611092870.1
27、叶正茂; 卢晓磊; 王业民,一种缓释型聚羧酸超塑化剂及其制备方法,ZL201610593905.3
28、卢晓磊; 叶正茂;程新,一种不饱和酯、其制备方法和在缓释型聚羧酸超塑化剂制备中的应用,ZL201610593904.9
29、叶正茂; 夏珍珍; 武斌; 于继海,滤纸法测定水泥粉体动态接触角的装置,ZL201520186766.3
30、卢晓磊; 景国建; 叶正茂; 程新,氧化石墨烯增强型水泥助磨剂的制备方法,ZL201510863128.5
31、叶正茂; 卢晓磊,一种新型的单乙醇二异丙醇胺制备方法,ZL201310359544.2
32、卢晓磊; 叶正茂,一种新型的二乙醇单异丙醇胺制备方法,ZL201310359870.3
33、黄世峰; 徐东宇; 叶正茂; 芦令超; 李蜜蜜; 程新,一种声发射传感器及其制备方法和应用,ZL201310026643.9
34、程新; 黄世峰; 徐东宇; 叶正茂; 芦令超; 谢士会,用于土木工程结构监/检测的正交异性压电传感器及其制备方法和应用,ZL201310124430.X
35、程新; 黄世峰; 徐东宇; 叶正茂; 徐跃胜,一种传感器的固定方法,ZL201310588154.2
36、黄世峰; 叶正茂; 芦令超; 徐东宇; 周美娟; 程新,多基元压电复合材料及其制备方法和应用,ZL201110394990.8
37、黄世峰; 徐东宇; 叶正茂; 孙敏; 程新,一种1-3型弧形或圆环压电复合材料及其制备方法,ZL201110394992.7
38、黄世峰; 徐东宇; 叶正茂; 张宗振; 谢士会; 程新,1-3型正交异性水泥基压电复合材料及其制备方法和应用,ZL201110298753.1
39、葛慎光; 于京华; 周宗辉; 叶正茂; 朱元娜; 马冬生; 殷怀磊; 蔡绪灿; 闫纪宪,水泥材料自修复的分子自组装微球制备及应用,ZL201010524199.X
40、王守德; 芦令超; 黄世峰; 常钧; 叶正茂; 周宗辉; 程新,抗冻型水泥基应力传感器元件,ZL201020252935.6
41、周宗辉; 程新; 王金邦; 常钧; 叶正茂; 芦令超; 黄世峰,一种水泥混凝土及其制备方法和循环利用方法,ZL201010569489.6
42、程新; 常钧; 叶正茂; 周宗辉; 芦令超; 谭文杰,一种锶钡水泥煅烧复合矿化剂,ZL200910016215.1
43、黄世峰; 徐东宇; 叶正茂; 廖双双; 程新,2-2型水泥基压电复合材料,ZL200910020484.5
44、常钧; 叶正茂; 黄世峰; 吴昊泽; 丁亮; 潘正昭,一种利用造纸污泥生产建筑材料的方法,ZL200810159967.9
45、常钧; 黄世峰; 叶正茂; 吴昊泽; 张林菊; 刘梅; 丁亮,碳化养护废弃物制成的再生骨料,ZL200810139085.6
46、程新; 常钧; 叶正茂; 谭文杰; 芦令超,硫铝酸锶钙水泥,ZL200810139086.0
47、叶正茂; 常钧; 黄世峰; 周宗辉; 刘福田; 芦令超; 程新,一种水泥基混凝土界面剂,ZL200710015552.X
48、常钧; 黄世峰; 叶正茂; 刘福田; 周宗辉; 程新,碳化养护加气混凝土,ZL200710017006.X
49、芦令超; 张卫伟; 叶正茂; 常钧; 黄世峰; 周宗辉; 程新,贝利特-硫铝酸钡钙水泥,ZL200610045503.6
50、常钧; 叶正茂; 芦令超; 黄世峰; 程新,水泥混凝土,ZL200420052416.X
51、黄世峰; 常钧; 芦令超; 刘福田; 叶正茂; 王守德; 程新,水泥基压电复合材料,ZL200420052601.9
52、芦令超; 常钧; 程新; 刘福田; 叶正茂,钡铜水泥煅烧复合矿化剂,ZL200410023796.9
53、程新; 常钧; 芦令超; 黄世峰; 叶正茂; 刘福田,含钡硫铁铝酸盐水泥,ZL200310105554.X
54、程新; 叶正茂; 常钧; 芦令超; 黄世峰; 张德成; 徐荣华,一种水泥基防渗堵漏材料,ZL03139061.7
专著、标准
1、于兴敏;龙世宗;叶正茂;张文生;俞为民;闫培瑜;彭学平;蒋正武,行业工具书《硅酸盐辞典》(水泥及其他胶凝材料部分),中国建材工业出版社,2020.
2、魏丽颖;刘晨 ...;叶正茂;...;,国家标准:硅酸盐水泥熟料矿相X射线衍射分析方法(GB/T 40407-2021),中国标准出版社,2021.
3、王昕;颜碧兰;刘晨;叶正茂;...;,行业标准:硫铝酸钙改性硅酸盐水泥(JC/T1099-2023),中国建材工业出版社,2023.
4、翟冠杰...;叶正茂;...;,团体标准:粉煤灰地聚物胶凝材料(T/CBCA018-2024),化学工业出版社,2024.
5. 张声军;徐建民;叶正茂;...;,行业标准:建筑施工机械与设备 砂浆泵(JB/T 11854-2014),机械工业出版社,2014.
奖励或荣誉
教学:
1. 山东省优秀研究生指导教师(1/1),2021.
2. 山东省优秀博士论文指导教师(1/1),2021.
3. 山东省优秀博士论文指导教师(1/1),2020.
4. 山东省大学生科技创新大赛一等奖指导教师(1/1),2020.
5. 山东省研究生教育优秀成果奖二等奖指导教师(1/1),2020.
6. 济南大学青年教学能手(1/1),2008.
7.无机非金属材料工程专业教学改革与实践,山东省高等教育教学成果奖(二等奖)(4/5),2005.
科研:
1、黄河三角洲产业领军人才(1/1),2020.
2. 中国硅酸盐学会青年科技奖(1/1),2013.
3. 硫铝酸钡(锶)钙基特种水泥材料的制备及海工工程应用,国家技术发明二等奖(4/6),2010.
4. 硫铝酸钡钙水泥基修补材料及其工程应用,山东省科学技术进步一等奖(2/6),2009
5. 水泥基压电复合材料的制备、性能及其在混凝土结构监测中的应用,建筑材料科学技术二等奖(2/6),2009.
6. 高早强节能型贝利特-硫铝酸钡钙水泥及制备技术研究,山东省技术发明三等奖(2/6),2011.
