潘钢华，男，中国共产党党员。博士、教授、博士生导师。1982年7月毕业于南京工学院土木工程系建筑材料专业，1992年获东南大学硕士学位，1998年获该校博士学位。2001年作为高级访问学者赴德国斯图加特大学访问研究。

长期从事无机非金属材料的教学、研究、产品开发、建材产品检验和试验等工作。主讲《热工基础及设备》、《土木工程材料》、《建筑功能材料》和《水泥基复合材料》等课程。研究领域涉及纳米材料在水泥基中的应用、固废资源化利用、高性能水泥混凝土及制品、新型墙体材料，纤维水泥与混凝土、建筑保温隔热材料、商品水泥砂浆及其外加剂、特种砂浆、石膏砂浆及其外加剂、建设工程检测技术等方面。主持编制了江苏省工程建设标准《预拌砂浆技术规程》（DGJ32/TJ196-2015）（2015年）；《复合发泡水泥板外墙外保温系统应用技术规程》（苏DGJ/TJ 174-2014）；编写教材《土木工程材料》（2001年）。

主持或参与了国家重点研发计划项目、“973”项目子题、国家自然科学基金项目，国家支撑项目、国家住建部、省住建厅科技项目等共10余项研究，参与了南京长江二桥和苏通大桥等重大工程高性能混凝土项目研究，完成了多项与政府部门和企业合作的产学研项目和工程应用技术研究项目。

目前正在承担国家自然科学基金面上项目“固废基原位生长纳米SiO2等可控制备关键技术及其对水泥基材料改性机理的研究”（批准号：52078124），国家重点研发项目“协同互补利用大宗固废制备绿色建材关键技术研究与应用”（项目编号：2017YFC0703100）的子课题研究，该子课题名称为“固废基复合发泡保温板制备技术及工程”。此外，还正在承担固体废弃物资源化利用、新型建筑节能材料、再生混凝土性能提升技术、特种砂浆关键技术等多项产学研合作项目的研究。

获得教育部科技进步奖1项，南京市和扬州市科技进步奖各1项。在国内外核心期刊发表论文100余篇，其中SCI和EI论文60余篇，获得发明专利授权18项，实用新型专利授权2项，主持编制江苏省工程建设标准2部，参与编写教材2部。

代表性论文：

1、Renjie Mi a,b,c,d,Ganghua Pan a,c,d,*, Yang Li a,c,d, Tong Kuang a,c,d，

 Carbonationdegree evaluation of recycled aggregate concrete using carbonation zone widths， Journal of CO2 Utilization，journal homepage:www.elsevier.com/locate/jcou

2、Jiufu Zhang a,b, GanghuaPan a,b,⇑, Yun Yan c，Earlyhydration, mechanical strength and drying shrinkage of lowcarbon alkali-activatedTi-extracted residues-fly ash cement and mortars，Construction and Building Materials 293 (2021) 123517

3、Jiufu Zhang a,b, GanghuaPan a,b,⇑, Xiaofang Zheng a,b, ChenChen a,b，Preparation and characterization of ultra-lightweight flyash-based cement foams incorporating ethylene-vinyl acetate emulsion and waste-derivedC-S-H seeds，Construction and Building Materials 274 (2021) 122027

4、Feifei Zhou a,b, GanghuaPan a,b,⇑, Renjie Mi a,b, MimiZhan a,b，Improving the properties of concrete using in situ-grownC-S-H，Construction and Building Materials 276 (2021) 122214

5、Renjie Mi1; Ganghua Pan2; and Tong Kuang3，Reducing the Carbonation Zone and Steel Corrosion ZoneWidths of Recycled Aggregate Concrete by Optimizing Its Mixing Process，J. Mater. Civ. Eng., 2021, 33(5): 04021061

6、Renjie Mi a,b,c, K.M.Liew b,*, Ganghua Pan a,c,d,**, Tong Kuang a,c,d，

 Carbonation resistancestudy and inhomogeneity evolution of recycled aggregate concretes under loadingeffects，Cement and Concrete Composites 118 (2021) 103916

7. GanghuaPan*, Mimi Zhan, Minghua Fu, Yaping, Xiaojun Lu.CO2 curing effect on thedemolition recycled fine aggregates enhanced by calcium hydroxide pre-soaking，Construction & BuildingMaterials. 154 (2017) 810–818

8. GanghuaPan*, Qizhen Shen, Jiao Li. Microstructure of cement paste at differentCO2 concentrations. Magazine of Concrete Research. 2018, 70(3), 154–162

9. Zhan M, Pan G*, Wang Y, et al. Ultrafast carbon nanotube growth bymicrowave irradiation[J]. Diamond and Related Materials, 2017, 77:65-71；

10.Mimi Zhan, Ganghua Pan*, Feifei Zhou, Renjie Mi, Surendra P. Shah. In situ-Grown Car-on Nanotubes Enhanced Cement-Based Materials with Multifunctionality. Cement and Concrete Composites, 108(2020): 103518

11. Zhan M, Pan G, Wang Y, et al. “Recycled aggregate mortarenhanced by microbial calcite precipitation”. Magazine of Concrete Research, 2019,72(12):622–633.

12.Yaping Wang, Ganghua Pan*. Early-age hydration and rheologicaldevelopment of cement paste with in-situ nanomodified FA [C]//SixthInternational Symposium on Nanotechnology in Construction (NICOM6), Hong Kong,2018.12.2~2018.12.6；

13.Mi Renjie, Pan Ganghua*, Liew K.M.*, Kuang Tong. Utilizing recycledaggregate concrete in sustainable construction for a required compressivestrength ratio, Journal of Cleaner Production, 2020, 276, 124249.

14.Mi Renjie, Pan Ganghua*, Liew K.M.*. Predicting carbonation servicelife of reinforced concrete beams reflecting distribution of carbonation zones,Construction and Building Materials, 2020, 255, 119367.

15.Mi Renjie, Pan Ganghua*, Shen Qizhen. Carbonation modelling forcement-based materials considering influences of aggregate and interfacialtransition zone, Construction and Building Materials, 2019, 229, 116925

16.Mi Renjie, Pan Ganghua*, Li Yang, Kuang Tong, Lu Xiaojun.Distinguishing between new and old mortars in recycled aggregate concrete undercarbonation using iron oxide red, Construction and Building Materials, 2019,222, 601-609.

17.Mimi Zhan，Ganghua Pan*，Yaping Wang，Minghua Fu,，Xiaojun Lu. Effect ofpresoak-accelerated carbonation factors on enhancing recycled aggregatemortars，Magazine of Concrete Research.2017,69(16), 838–849

18. MimiZhan, Ganghua Pan*, Yaping Wang, Tong Kuang, Feifei Zhou，Ultrafast carbon nanotube growth bymicrowave irradiation, Diamond & Related Materials 77 (2017) 65–71

19. QizhenShen,Ganghua Pan*, Huagang Zhan.Effect of interfacial transition zone on thecarbonation of cement-based materials. Journal of Materials in Civil Engineering.J. Mater. Civ. Eng., 2017, 29(7): 04017020

20. QizhenShen1, Ganghua Pan2, *The Carbonation of Cement-Based Materials with DifferentAggregate Content，MaterialsScience Forum Submitted: 2017-03-18，ISSN: 1662-9752, Vol. 902, pp 74-78

21. Qizhenshen,Ganghua Pan*, Bingfeng Bao. Influence of CSH carbonation on the porosityof cement paste. Magazine of concrete research . 2016：68（10）, 504-514.

22. Qizhenshen,Ganghua Pan*; Huagang Zhang.Test method to simulate the influence of theinterface on the concrete carbonation process. Journal of Wuhan University ofTechnology-Materials Science Edition .2016:31(3),594-598.

23. KeshuWan*, Qiong Xu, Yudong Wang, Ganghua Pan .3D spatial distribution of thecalcium carbonate caused by carbonation of cement paste. Cement and ConcreteComposites. 2014:45(1), 255-263.

24. Han,Jiande*; Sun, Wei; Pan, Ganghua; Wang Caihui .Monitoring the Evolution ofAccelerated Carbonation of Hardened Cement Pastes by X-Ray ComputedTomography .Journal of Materials In Civil Engineering, 2013:25(3),347-354.

25. Han,Jiande; Pan, Ganghua; Sun, Wei*.In situ dynamic XCT imaging of themicrostructure evolution of cement mortar in accelerated carbonation reaction.Magazine of Concrete Research. 2012:64(11): 1025-1031.

26. HanJiande; Sun Wei*; Pan Gaughua; Wang Caihui; Rong Hui.Application of X-rayComputed Tomography in Characterization Microstructure Changes of Cement Pastesin Carbonation Process . Journal of Wuhan University ofTechnology-Materials Science Edition.2012:27(2), 358-363.

27. HanJiande; Sun Wei*; Pan Ganghua.Nondestructive microstructure analysis ofthe carbonation evolution process in hardened binder paste containingblast-furnace slag by X-ray CT. Journal of Wuhan University ofTechnology-Materials Science Edition. 2013: 28(5),955-962.

授权发明专利：

1.专利名称：凹凸棒石粘土型复合砂浆外加剂

专利号：ZL 2005 10039008.X

2.专利名称：复合型渗透结晶防水剂

专利号：ZL 2008 10196373.5

3.专利名称：复合型预拌砂浆专用水泥

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4.专利名称：通用硅酸盐水泥抗碳化性能和混合材掺量的测试方法

专利号：ZL 2010 1 0017143.5

5.专利名称：X射线扫描无损检测水泥基材料三维碳化深度的演化方法

专利号：ZL 2012 1 0017713.X

6.专利名称：复合型水泥基抗泛碱外加剂

专利号：ZL 2013 1 0238233.0

7.专利名称：一种碳化水泥基材料中碳酸钙空间分布的定量表征方法

专利号：ZL 2013 1 0189839.X

8.专利名称：表征水泥基材料集料基材界面对碳化速度影响的试验方法

专利号：ZL 2014 1 0393466.2

9.专利名称：一种利用二氧化碳强化再生混凝土细骨料的方法

专利号：ZL 2015 1 0587289.6

10.专利名称：一种再生自硬性胶凝材料及其制备方法

专利号：ZL 2015 1 0910156.8

11.专利名称：一种石膏矿渣发泡水泥保温板及其制备工艺

专利号：ZL 2015 1 0393532.0

12.专利名称：碳化混凝土再碱化用表面涂料及制备和使用方法

专利号：ZL 2015 1 0077074.X

13.专利名称：一种再生活性掺合料及其制备方法

专利号：ZL 2015 1 0549555.6

14.专利名称：一种利用微生物沉积碳酸钙强化再生混凝土细骨料的方法

专利号：ZL 2016 1 0180571.7

15. 专利名称：用于区分碳化再生混凝土中新老砂浆的再生骨料及其制备方法

   专利号：ZL 2016 1120 5237.9

16.专利名称：一种固体废弃物表面原位生长纳米颗粒的制备方法。

专利号：ZL 201711143543.9

17. 专利名称：一种利用二氧化碳预处理锯末的方法

专利号：ZL 2017 10390408.8

18、专利名称：一种矿物掺合料表面原位生长水化硅酸钙的方法

    专利号：ZL201810226554.1