1.    国家自然科学基金面上项目：高延性自愈合水泥基复合材料阻尼演变规律及提升机制（52479129），2025.01-2028.12，排名：1/4

2.    浙江省自然科学基金探索项目：再生骨料CO2强化对再生混凝土碳化所致钢筋锈蚀的影响及机理（LY20E080012），2020.01-2022.12，排名：1/6

3.    住房与城乡建设部科技研发项目：碱激发再生微粉固化脱水淤泥的路用性能及固化机理   （2021-K-123），2021.01-2023.12，排名：1/7

4.    国家自然科学基金青年项目，再生混凝土材料及其构件阻尼性能与阻尼机理研究（51308340），2014.01－2016.12，排名：1/7

5.   绍兴市“三位一体”产学研协同攻关专项项目：超高性能SMA-ECC材料产业化制备核心技术及工业化应用，2025.09-2027.08，校方主持（校企联合）

6.   绍兴市产业关键技术联合攻关专项项目：多源建筑固废制备再生粉体关键技术及多路径产业化应用研究，2024.01-2025.12，排名2/7

7.     绍兴市产业关键技术联合攻关专项项目：既有建筑低碳改造关键技术和综合解决方案，2024.01-2025.03，校方主持（校企联合）

8.    企业横向项目：商品混凝土、装配式建造新材料、新部品和新技术研发，2020.07-2023.06，排名1/5

9.    企业横向项目：绍兴无废城市研发展示中心绿色建造关键技术，2021.06-2023.05，排名1/4

10.  政府服务项目：绍兴市农村房屋安全隐患排查整治专家团队服务项目，2021.10-2022.12，排名1/9

一、期刊论文

1.    Liang C, Bao J, Gu F, et al. Determining the importance of recycled aggregatecharacteristics affecting the elastic modulus of concrete by modeled recycledaggregate concrete: Experiment and numerical simulation[J]. Cement and ConcreteComposites, 2025,162:106118.

2.    Liang C, Zhao Q, Du X, et al. Damping properties of recycled concreteincorporated with emulsion-coated or carbonated recycled aggregates[J].Construction and Building Materials, 2025,494:143394.

3.     Gao Y, Wang Z, Zhao J, et al. Mechanical,freeze-thaw resistance and heavy metals leaching properties of alkali-activatedrecycled concrete powder solidified sludge[J]. Construction and Building Materials,2024,447:138154.

4.     Chen H, Fu Y, Jin B, et al. Enhancingenergy dissipation in mortar utilizing recycled brick fine aggregateimpregnated with polymer emulsion under uniaxial cyclic load[J]. Journal ofBuilding Engineering, 2024,97:110857.

5.     Liang C, Liu X, Zhang Y, et al.Development of eco-friendly engineered cementitious composites (ECC) with bothwaste glass powder and aggregate: A comprehensive investigation[J]. Journal ofBuilding Engineering, 2024,95:110339.

6.     Hou S, Fang C, Chen S, et al. Effect ofrecycled brick powder on corrosion of reinforced concrete under the action ofchloride or carbonation[J]. Journal of Materials in Civil Engineering,2024,36(10):4024301-4024306.

7.     Liang C, Li B, Guo M, et al. Effects ofearly-age carbonation curing on the properties of cement-based materials: Areview[J]. Journal of Building Engineering, 2024,84:108495（高被引）.

8.    Liang C, Wang S, Cai Z, et al. Effects of CO2 curing methods on frostresistance and mechanical properties of recycled aggregate concrete[J]. CaseStudies in Construction Materials, 2024,20:e2973.

9.    Liang C, Chen H, Li R, et al. Effect of additional water content andadding methods on the performance of recycled aggregate concrete[J].Construction and Building Materials, 2024,423:135868.

10. Wu H, Liang C*, Yang D, et al. Development of sustainable geopolymermaterials made with ground geopolymer waste powder as renewable binder up to100%[J]. Construction and Building Materials, 2023,400:132746.

11. Liang C, Liu X, Zhang Z, et al. Utilizing waste geopolymer powder aspartial cement replacement for sustainable cement mortar: Micro-macroproperties and modification[J]. Journal of Materials Research and Technology,2023,25:2738-2757.

12. 鲍聪, 赵晓钦, 樊伟, 梁超锋*，占海华. 再生PET塑料骨料砂浆的弯曲韧性及阻尼特性[J]. 复合材料学报, 2023,40(04):2343-2354.

13. Wu H, Liang C*, Zhang Z, et al. Utilizing heat treatment for makinglow-quality recycled aggregate into enhanced recycled aggregate, recycled cementand their fully recycled concrete[J]. Construction and Building Materials, 2023,394:132126.

14. Pan B, Mao Y, Hou S, Liang C*, Gao Y*. Corrosion mechanism of recycledmortar prepared from CO2-treated hardened cement paste powder[J]. Constructionand Building Materials, 2023,384:131321.

15. Wu H, Liang C*, Wang C, Ma Z*. Propertiesof green mortar blended with waste concrete-brick powder at various components,replacement ratios and particle sizes[J].  Construction and Building Materials, 2022,342:128050.

16. Liang C, You J, Gu F, et al. Enhancing the elastic modulus of concreteprepared with recycled coarse aggregates of different quality by chemicalmodifications[J]. Construction and Building Materials, 2022,360:129590.

17. Hou S, Che Y, Lu N, et al. Sustainable utilization of hybrid recycledpowder and recycled polyethylene terephthalate fiber in mortar: Strength,durability and microstructure[J]. Journal of Building Engineering,2023,63:105541.

18. Liang C, FuY, Wang C*, Gao Y, Zhao J. Damping of rubberized recycled aggregate concreteand damping estimation of its elements by finite element analysis, CompositeStructures. 2022, 281：114967.

19.  Liang C, Cai Z, Wu H, Xiao J*, et al. Chloridetransport and induced steel corrosion in recycled aggregate concrete: Areview[J]. Construction and Building Materials. 2021, 282: 122547.

20.  Liang C, Xiao J, Wang C, et al. Hysteretic energyand damping variation of recycled aggregate concrete with different cycliccompression loading levels[J]. Journal of Building Engineering. 2021, 44:102936.

21.  Liang C, Xiao J*, Wang C, et al. Frequency-dependentdamping properties of recycled aggregate concrete. Journal of Materials inCivil Engineering. 2021, 33(7): 4021160.

22.  Liang C,  XiaoJ*, Wang Y, et al. Relationship between internal viscous damping and stiffnessof concrete material and structure. Structural Concrete. 2021, 1-19.

23.  Ma Z, Tang Q, Wu H, Xu J, Liang C*. Mechanicalproperties and water absorption of cement composites with various fineness andcontents of waste brick powder from C&D waste [J]. Cement and ConcreteComposite, 2020, 114: 103758.

24.  Liang C, Lu N, Ma H, et al. Carbonation behavior ofrecycled concrete with CO2-curing recycled aggregate under variousenvironments[J]. Journal of CO2 Utilization. 2020, 39: 101185.

25.  Liang C, Pan B, Ma Z, et al. Utilization of CO2curing to enhance the properties of recycled aggregate and prepared concrete: Areview. Cement and Concrete Composite, 2020, 105:103446

26.  Liang C, Ma H, Pan Y, et al.. Chloride permeabilityand the caused steel corrosion in the concrete with carbonated recycledaggregate [J]. Construction and Building Materials, 2019, 218: 506-518

27. Liang C，Liu T, Xiao J, et al. The dampingproperty of recycled aggregate concrete [J]. Construction and BuildingMaterials, 2016, 102: 834-842

28. Liang C，Liu T, Xiao J, et al. Effect of stressamplitude on the damping of recycled aggregate concrete [J]. Materials, 2015,8(8): 5298-5312

29. 梁超锋，刘铁军，肖建庄，等. 钢筋及其锈蚀对混凝土构件阻尼的影响[J]. 工程力学. 2017, 34(3):101-107

30. 梁超锋，刘铁军，肖建庄，等. 再生混凝土悬臂梁阻尼性能与损伤关系的试验研究[J]. 土木工程学报, 2016, 49(7):100-106

二、发明专利

1.    梁超锋，张彧铭，陆俊，等. 一种桁架钢筋混凝土预制板的垫木定位装置及其使用方法. ZL 202110093437.4

2.    梁超锋，宋科，凌升河，等. 一种碳化再生微粉的一体化工业化制备装置. ZL202010894059.5

3.    毛奇奇，桑伟，梁超锋，等. 一种全自动石子水洗筛分分类一体化设备，ZL2021113379783

4.    LiangChaofeng, Li Ran, Hou Shaodan, Gao Yueqing, He Zhihai, Yang Jincheng, Tian,Yuan. Method and device for testing the content of residual carbon dioxide gasin carbon dioxide-cured recycled aggregate, South Africa Patent. 2021/09511

5.    高越青，梁超锋，陆俊，等. 一种利用废弃预拌混凝土制备再生水泥砂浆粉的一体化装置，ZL 202110489718.1