Rong-Chang Zeng's Publication

发表论文分类目录

曾荣昌

Review papers

1. Progress and challenge for magnesium alloys as biomaterials, R. C. Zeng*, W. Dietzel, F. Witte, N. Hort. Advanced Engineering Materials, 10(8), 2008:B3-B14. ESI高引论文（313次）

2. Layered double hydroxide coatings on magnesium alloys: a review. Lian Guo, Wei Wu, Yong-Feng Zhou, Fen Zhang*, Rong-Chang Zeng**, Jianmin Zeng.Journal of Materials Science and Technology (IF3.609). 34(2018)1455-1466.

3. Review of studies on corrosion of magnesium alloys. R.C. Zeng*, J. Zhang, W. Huang, W. Dietzel, K.U.Kainer, W. Ke.
   Transactionsof Nonferrous Metals Society of China, 16, 2006: S763-S771. SCI被引130次

4.  Research Progress of Graphene-Based Rubber Nanocomposites. Xin Liu, Le-Ying Wang, Li-FenZhao, Hai-Feng He, Xiao-Yu Shao, Guan-Biao Fang, Zhen-Gao Wan and Rong-Chang Zeng. Polymer Composites, 39(4), 2018: 1006–1022
   

5. 医用镁合金：成分、组织及腐蚀, 曾荣昌*、崔蓝月、柯伟,金属学报,DOI:10.11900/0412.1961.2018.00032.in press
   

6. 镁合金的最新发展及应用前景. 曾荣昌*, 柯伟,徐永波,韩恩厚, 朱自勇. 镁合金的最新发展及应用前景.金属学报,40(7), 2001: 673-685.SCI被引91次，CNKI被引1100次

7. 医用镁合金表面改性研究进展，曾荣昌*, 孔令鸿, 陈君, 崔洪芝, 刘成龙.中国有色金属学报，21(1),2011: 35-43.

8. 镁合金表面化学转化膜研究进展. 曾荣昌*，兰自栋.中国有色金属学报，19(3),2009: 397-403.

9. 医用可降解镁合金表面磷酸盐涂层研究进展. 殷正正、曾荣昌*、崔蓝月、邹玉红、李硕琦、张芬. 山东科技大学学报（自然科学版），2017, 36(2): 58-70.

Corrosion mechanism of Mg alloys

1. In vitro degradation of pure Mg in response to glucose. Rongchang Zeng*, Xiao-TingLi, Shuo-QiLi,Fen Zhang, En-Hou Han. Scientific Reports,5, 13026; doi: 10.1038/srep13026 (2015).

2. Corrosion and characterisation of dual phase Mg-Li-Ca alloy in Hank’s solution: the influence of microstructural features. Rong-Chang Zeng*, LuSun, Yu-FengZheng, Hong-Zhi Cui, En-Hou Han. Corrosion Science,79, 2014: 69-82.

3. In vitro corrosion of as-extruded Mg-Ca alloys—The influence of Ca concentration. Rongchang Zeng*, Wei-Chen Qi,Hong-Zhi Cui, Fen Zhang, Shuo-Qi Li,En-Hou Han.
   Corrosion Science, 2015,96 (2015) 23–31. IF5.154

4. Corrosion of magnesium alloy AZ31: The influence of bicarbonate, sulphate, hydrogen phosphate and dihydrogen phosphateions insaline solution. Rongchang Zeng*, Yan Hu, ShaokangGuan,Hongzhi Cui, Enhou Han. Corrosion Science, 86（2014）171-182.

5. Corrosion of friction stir welded magnesium alloy AM50. Rong-Chang Zeng, Jun Chen,Wolfgang Dietzel, Rudolf Zettler, Jorge F. dos Santos, M. Lucia Nascimento, Karl Ulrich Kainer. Corrosion Science, 51(2009)1738-1746.

6. In Vitro Corrosion Degradation Behaviour of Mg-Ca Alloy in the Presence of Albumin, C.L. Liu, Y.J. Wang, R.C. Zeng,X.M. Zhang,W.J. Huang, P.K. Chu. Corrosion Science, 52(10),2010:3341-3347.

7. In Vitro Degradationand Biocompatibility of Mg-Li-Ca Alloys − The Influence of Li Content .Lan-Yue Cui#, Lu Sun#, Rong-Chang Zeng*,Yu-Feng Zheng* and Shuo-Qi Li .Science China Materials (IF4.318), 2018, 61(4): 607-618. .

8. In vitro and in vivo investigation on biodegradable Mg-Li-Ca alloys for bone implant application. Xia Dandan,  Liu Yang,  Wang Siyi,  Zeng Rongchang, Liu yunsong, Zheng Yufeng, Zhou Yongsheng.  Science China Materials (IF3.956),10.1007/s40843-018-9293-8.

9. Corrosion of an extruded magnesium alloy ZK60 component-The role of microstructural features, Rongchang Zeng, K.U.Kainer, C.Blawert, W.Dietzel.
   Journal of Alloys and Compounds, 509, 2011: 4462-4469.

10. Corrosion mechanism was studied by corrosion morphology and the equivalent circuits. Effect of the second phases on corrosion behavior of the Mg-Al-Zn alloys. Hui Feng, Shuhong Liu, Yong Du,Ting Lei, Rongchang Zeng, Tiechui Yuan.
    Journal of Alloys and Compounds, 695(2017)2330–2338.IF3.014

11. In vitro degradation of pure magnesium―The effects of glucose and/or amino acid. Yu Wang, Lan-Yue Cui, Rong-Chang Zeng*, Shuo-Qi Li *, Yu-Hong Zou, En-Hou Han. Materials (IF2.728), 2017, 10, 725; doi:10.3390/ma10070725.

12. Exfoliation corrosion of extruded Mg-Li-Ca alloy. Zi-You Ding, Lan-Yue Cui, Rong-Chang Zeng*, Yan-Bin Zhao, Shao-Kang Guan, Da Kui Xu*, Cun-Guo Lin.  Journal of Mateials Science and Technology (IF2.764), 2018, doi: 10.1016/j.jmst.2018.05.014, in press.
    

13. New insights into the effect of Tris-HCl and Tris on corrosion of magnesium alloy in presence of bicarbonate, sulfate, hydrogen phosphate and dihydrogen phosphate ions. Lan-YueCui, Yan-Hu, Rong-Chang Zeng*, Yong-Xin Yang, Dan-Dan Sun,Shuo-Qi Li, Fen Zhang, En-Hou Han. Journal of Materials Science &Technology. DOI: 0.1016/j.jmst. 2017.01.005.

14. In vitro degradation of pure Mg for esophageal stents in artificial saliva.  Rongchang Zeng*,XiaotingLi, Lijun Liu, Shuoqi Li, Fen Zhang. Journal of Materials Science & Technology. 2016,32(5): 437–444. IF2.267

15. Corrosion of artificial aged magnesium alloy AZ80 in 3.5 wt % NaCl solution. R.C. Zeng, W. Ke, E.H. Han. Journal of Materials Science and Technology, 23(3), 2007: 363-368.

16. In vitro corrosion of magnesium alloy AZ31– a synergetic influence of glucose and Tris, Ling-Yu Li, Bin-Liu, Rong-Chang Zeng^*, Shuo-Qi Li, Fen-Zhang, Yu-Hong Zou, George Jiang, Xiao-Bo Chen, Shao-Kang Guan, Qing-Yun Liu*. Frontiers of Materials Science. 2018, https://doi.org/10.1007/s11706-018-0424-1.
    

17. In vitro corrosion of Mg-6Zn-1Mn-4Sn-1.5Nd/0.5Yalloys. Rong-Chang Zeng, Lei Wang,Ding-Fei Zhang,Hong-Zhi Cui, En-Hou Han. Frontiers of Materials Science, 8(3), 2014: 230-243 (Cover article)

18. Preface for thespecial issue on light metals as biomaterials. Guang-Ling Song ,Rong-Chang Zeng. Frontiers of Materials Science, 8(3), 2014: 199-199.

19. In vitro corrosion ofMg–1.21Li–1.12Ca-1Y alloy. RongchangZeng*,Weichen Qi, Fen Zhang, Hongzhi Cui,Yufeng Zheng. Progress in Natural Science: Materials International, 24(5), 2014: 492–499.

20. In vitro corrosion of pure magnesium and AZ91 alloy-The influence of thin electrolyte layer thickness. Rong-Chang Zeng*,Weichen Qi, Fen Zhang, Shuoqi Li. Regenerative Biomaterials, (2016)3(1): 49-56.

21. pH value in simulated occluded cell for magnesium alloys, Rongchang Zeng, Jun Chen.
    Transactions of Nonferrous Metals Society of China, 17, 2007: s193-s199.

22. Electrochemical behavior of magnesium alloys in simulated body fluids, Rongchang Zeng, Jun Chen. Transactions of Nonferrous Metals Society of China, 17, 2007: s166-s169.

23. Corrosion behavior of magnesium alloy AX53 in simulated body fluids, Jun WANG, Rongchang ZENG, Jun CHEN, Rongshi CHEN.
    Materials Science Forum, 610-613 (2009)1174-1178.

24. 医用Mg-Ca和Mg-Li-Ca合金腐蚀研究，曾荣昌、郭小龙、刘成龙、崔洪芝、陶武、刘云逸、李博文.金属学报，2011,47(11): 1477-1482.

25. pH值对挤压镁合金AM60腐蚀的影响，曾荣昌、周晚秋、韩恩厚、柯伟.金属学报，44(3), 2005: 307-311.

Surface modification of Mg alloys

Corrosion-resistant MAO coatings on Mg alloys

1. In Vitro Corrosion and Cytocompatibility of a Microarc Oxidation Coating and Poly(L-lactic acid) Composite Coating on Mg-1Li-1Ca Alloy for Orthopaedic Implants. Zeng, Rongchang*;Cui, Lanyue;Jiang, Ke; Liu, Rui; Zhao, Baodong; Zheng, Yufeng. ACS Applied Materials & Interfaces, 2016, 8 (15):10014–10028. IF7.145

2. Corrosion resistance of a self-healing micro-arc oxidation /polymethyltrimethoxysilane composite coating on magnesium alloy AZ31. Lan-YueCui, Shang-Dong Gao,Ping-Ping Li,Rong-Chang Zeng^*, Fen Zhang, Shuo-Qi Li^*, and En-Hou Han. Corrosion Science. 2017, 118: 84–95.

3. Degradation mechanism of micro-arc oxidation coatings on biodegradable Mg-Ca alloys-The influence of porosity, Lan-YueCui, Rong-Chang Zeng*,Shao-Kang Guan, Wei-Chen Qi, FenZhang, Shuo-Qi Li, En-Hou Han. Journal of Alloys and Compounds, 2017, 695: 2464-2476.

4. Corrosion resistance of a superhydrophobic surface on micro-arc oxidation coated Mg-Li-Ca alloy. C.L. Zhang, F. Zhang, L. Song, R.C. Zeng, S.Q. Li, E.H. Han. Journal of Alloys and Compounds (IF3.133), 728 (2017) 815-826.

5. In vitro corrosion of micro-arc oxidation coating on Mg-1Li-1Ca alloy — The influence of intermetallic compound Mg₂Ca, Journal of Alloys and Compounds, Zi-You Ding, Lan-Yue Cui, Xiao-Bo Chen, Rong-Chang Zeng*, Shao-Kang Guan, Shuo-Qi Li, Fen Zhang, Yu-Hong Zou, Qing-Yun Liu. 2018, accepted.

6. Self-degradation of micro-arc oxidation/chitosan composite coating on Mg-4Li-1Ca alloy (Share link). Chi Yu, Lan-Yue Cui, Yong-Feng Zhou, Zhuang-Zhuang Han, Xiao-Bo Chen, Rong-Chang Zeng*, Yu-Hong Zou, Shuo-Qi Li, Fen Zhang, En-Hou Han, Shao-Kang Guan. Surface and Coatings Technology (IF2.589). 344 (2018) 1–11.

7. Corrosion resistance of a superhydrophobic micro-arc oxidation coating on Mg-4Li-1Ca alloy. Lan-Yue Cui, Han-Peng Liu, Wen-Le Zhang, Zhuang-Zhuang Han, Mei-Xu Deng,Rong-Chang Zeng*, Shuo-Qi Li, Zhen-Lin Wang. Journal of Materials Science & Technology (IF2.764), 2017, 33: 1263-1271.(National Science Review, Research Highlights)

8. In vitro degradation of MAO/PLA coating on Mg-1.21Li-1.12Ca-1.0Y alloy. Rong-Chang ZENG,Wei-Chen QI,Ying-Wei SONG, Qin-Kun HE, Hong-Zhi CUI, En-Hou HAN.Frontiers of Materials Science, 2014. 8(4): 343-353.

9.  Characterization and wear resistance of macro-arc oxidation coating on magnesium alloy AZ91 in simulated body fluids, J. Chen, R. C. Zeng*, W. J. Huang,Z. Q. Zheng, Zhenlin Wang, Jun Wang.Transactions of Nonferrous Metals Society of China, 18, 2008:s361-s364.

Layer-by-layer assembled (antibacterial) coating on Mg alloys

1. Corrosion resistance and antibacterial properties of polysiloxane modified layer-by-layer assembled self-healing coating on magnesium alloy. Yanbin Zhao, Liqian Shi, Xiaojing Ji, Jichen Li, Zhuangzhuang Han, Shuoqi Li*, Rongchang Zeng**, Fen Zhang, Zhenlin Wang. Journal of Colloid & Interface Science (IF5.091), 526 (2018) 43–50..

2. In vitro corrosion resistance of a layer-by-layer assembled DNA coating on magnesium alloy. Lan-Yue Cui, Xiao-Hui Fang, Wei Cao, Rong-Chang Zeng *, Shuo-Qi Li*, Xiao-Bo Chen, Yu-Hong Zou, Shao-Kang Guan, En-Hou Han. Applied Surface Science (IF4.439), 457 (2018) 49–58. 
   

3. Corrosion resistance and adhesion strength of a spin-assisted layer-by -layer assembled coating on AZ31 magnesium alloy.Yan-Bin Zhao, Han-Peng Liu, Chang-Yang Li, Yong Chen, Shuo-Qi Li *, Rong-Chang Zeng*, Zhen-Lin Wang.  Applied Surface Science (IF3.387), 2018, 434: 787-795.
   

4. Corrosion resistance oflayer-by-layer assembled polyvinylpyrrolidone/polyacrylic acid and amorphous silica films on AZ31 magnesium alloys. Lan-YueCui, Rong-ChangZeng*, Shuo-Qi Li, Fen Zhang, En-Hou Han. RSC Advances, 2016, DOI: 10.1039/C6RA08613F.

5. Electrodeposition of TiO₂ layer-by-layer assembled composite coating and silane treatment on Mg alloy for corrosion resistance. Lan-Yue Cui,  Rong-Chang Zeng*,  Shuo-Qi Li et al. Surface & Coatings Technology(IF2.589). 324 (2017) 560–568.

6. In vitro corrosion and antibacterial performance of polysiloxaneandpoly(acrylic acid)/gentamicin sulfate composite coatings on AZ31 alloy. LijunLiu, Pingping Li, LiShen, YuhongZou, Kaijie Luo, Fen Zhang, Rong-ChangZeng*,Shuoqi Li. Surface and Coating Technology, 2016, 291(15): 7-14.

7. In vitro corrosion resistance and antibacterial properties of layer-by-layer assembled chitosan/ poly-L-Glutamic acid coating on AZ31 magnesium alloys. Lan-Yue Cui, Ji Xu, Na Lu, Rong-Chang Zeng*, Yu-hong Zou, Shuo-Qi Li*, Fen Zhang. Transactions of Nonferrous Metals Society of China (IF1.342), 27(2017) 1081−1086.

8. In vitro corrosion andantibacterial properties of layer-by-layer assembled GS/PSS coating on AZ31magnesium alloys. Rongchang ZENG, Lijun LIU, Kaijie LUO, Li SHEN, Fen ZHANG, Shuoqi LI, Yuhong ZOU. Trans. Nonferrous Met. Soc., 25(2015)4028−4039.

9. Corrosion Resistance of Biodegradable Polymeric Layer-by-layer Coatings on Magnesium Alloy AZ31. Lan-YueCui, Rong-ChangZeng*,Xiao-Xiao Zhu, Ting-Ting Pang, Shuo-Qi Li*,Fen Zhang. Frontiers of Materials Science,  2016, 10(2):134–146.

10. Self-Assembled Silane Film and Silver Nanoparticles Coating on Magnesium Alloys for Corrosion Resistance and Antibacterial Applications, R.C. Zeng, Lijun Liu, Shuoqi Li,Yuhong Zou, Fen Zhang, Yanan Yang, Hongzhi Cui,En-hou Han, Acta Metall. Sin. (Engl. Lett.), 26(6), 2013: 681-686.

11. 镁合金表面层层组装PSS/PAH膜诱导钙磷涂层. 崔蓝月，吴思思，徐丽粉，曾荣昌，李硕琦，张芬. 表面技术，2017，46(3)：34-39

    
    

LDH and superhydrophobic coatings on Mg alloys

1. Corrosion of molybdateintercalated hydrotalcite coating on AZ31Mgalloy. Rong-Chang Zeng*, Zhen-Guo Liu, FenZhang, Shuo-Qi Li, Hong-Zhi Cui, En-Hou Han. Journal of Materials Chemistry A,2014, 2,13049–13057.

2. Corrosion resistance of Mg-Al-LDH coating onmagnesium alloy AZ31. Fen Zhang, Zhen-Guo Liu,Rong-Chang Zeng*,Shuo-Qi Li, Hong-Zhi Cui, Liang Song, En-Hou Han.
   Surface & Coatings Technology,258,2014, 1152–1158.

3. Corrosion Resistanceof the Superhydrophobic Mg(OH)₂/Mg-Al Layered Double Hydroxide Coatings on Magnesium Alloys. Fen Zhang, Changlei Zhang, RongchangZeng*, Liang Song, Lian Guo, Xiaowen Huang. Metals,  2016, 6,85.

4. A comparison of corrosion resistance of magnesium aluminum and zinc aluminum vanadate intercalated layered double hydroxides on magnesium alloys, Lian Guo, Fen Zhang, Jun-Cai Lu, Rong-Chang Zeng, Shuo-Qi Li, Liang Song*, Jian-Min Zeng, Frontiers of Materials Science. 2018, DOI:10.1007/s11706-018-0415-2.
   

5. Corrosion resistance of in-situ Mg–Al hydrotalcite conversion film on AZ31magnesium alloy by one-step formation, Rongchang Zeng*,  Zhen-guo LIU, FenZHANG, Shuo-qi LI, Qing-kun HE, Hong-zhi CUI, En-hou HAN.
   Trans.Nonferrous Met. Soc.,25(6), 2015: 1917-1925

6. Corrosion resistance of Zn-Al layered double hydroxide/poly(lactic acid) composite coating on magnesium alloy AZ31. Rongchang Zeng*, Xiao-Ting Li, Zhen-Guo Liu,  FenZhang,  Shuo-Qi Li, Hong-Zhi Cui. Frontiersof Materials Science,2015, 9(4): 355–365.

7. Corrosion of the in-situ grown MgAl-LDH coating on aluminum alloy.Fen Zhang,Chang-lei Zhang, LiangSong, Rong-chang Zeng, Zhen-guo Liu, Hong-zhi Cui. Trans. Nonferrous Met. Soc.,25(2015)3498−3504.

8. Corrosion Resistance of Superhydrophobic Mg-Al Layered Double Hydroxide Coatings on Aluminum Alloys. Fen Zhang*, Chang-Lei Zhang, LiangSong, Rong-Chang Zeng*, Lan-Yue Cui, Hong-Zhi Cui.
   Acta Metallurgica Sinica (Engl. lett.), 2015, 28(11), 1373–1381.

9. Fabrication of the superhydrophobic surface on magnesium alloy and its corrosion resistance. Fen Zhang, Changlei Zhang, Liang Song*,Rongchang Zeng*,Shuoqi Li,Hongzhi Cui. Journal of Materials Science and Technology, 2015, 31(11):1139-1143.

   
   

Phosphate conversion coating on Mg alloys

1. Corrosion resistance of calcium-modified zinc phosphate conversion coatings on magnesium-aluminium alloys. Rong-Chang Zeng*, Fen Zhang, Zi-Dong Lan, Hong-Zhi Cui, En-Hou Han. Corrosion Science, 88,2014: 452–459.

2. Characterizationof calcium-modified zinc phosphate conversion coatings and their influences on corrosion resistance of AZ31 alloy,Rongchang Zeng, Zidong Lan,Linghong Kong,Yuanding Huang, Hongzhi Cui. Surface and Coatings Technology, 205, 2011: 3347-3355.

3. Influence of solution temperature on corrosion resistance of Zn-Ca phosphate conversion coating on biomedical Mg-Li-Ca alloys, R.C. Zeng, Xin-Xin Sun, Ying-weiSong, FenZhang, Shuo-Qi Li, Hong-Zhi Cui, En-Hou Han, Trans. Nonferrous Met. Soc. China, 23(11), 2013: 3293−3299.

4. Blood compatibility of zinc-calcium phosphate conversion coating on Mg-1.33Li-0.6Ca alloy, Yu-Hong ZOU, Rong-ChangZENG*, Qing-Zhao WANG, Li-Jun LIU, Qian-Qian XU, Chuang WANG, and Zhiwei LIU.
   Frontiers of Materials Science, 2016, 10(3):281-289.

5. Corrosion resistanceof cerium-doped zinc calcium phosphate chemical conversion coatings on magnesium alloy AZ31. Rongchang ZENG*, Yan HU,Fen ZHANG, Yuanding HUANG, Zhen-lin WANG, Shuo-qi LI, En-hou HAN.
   Transactions of Nonferrous Metals Society of China, 26(2016) 472−483.

6. 镀液温度对镁合金AZ31 表面锌钙系磷化膜耐蚀性的影响，曾荣昌、兰自栋. 镀液温度对镁合金.中国有色金属学报，20 ,2010: 1461-1466.

7. AZ31镁合金表面Zn-Ca-P涂层的体外血液相容性.邹玉红，陈月，胡敏，王庆昭，曾荣昌.中国组织工程研究 2016 ,20 (25): 3720-3725.

Ca-P coatings on Mg alloys

1. Comparison of calcium phosphate coatings on Mg–Al and Mg–Ca alloys and their corrosion behavior in Hank'ssolution, Chun-Yan Zhang, Rong-Chang Zeng,Cheng-LongLiu, Jia-Cheng Gao. Surface andCoatings Technology, 204(21-22) 2010: 3636-3640.

2. Preparation of calcium phosphate coatings on Mg-1.0Ca alloy, Chun-Yan Zhang, Rong-ChangZeng *,Cheng-Long Liu, Rongshi Chen, Jia-Cheng Gao.Transactions of Nonferrous Metals Societyof China, 20, 2010: s655-659.

3. Corrosion resistance of silane-modified hydroxyapatite films on degradable magnesium alloy. Yanbin Zhao,Liqian Shi,Tianjian Li,Lanyue Cui, Changlei Zhang,ShuoqiLi*, Rongchang Zeng**, Fen Zhang. Acta Metallurgica Sinica (Engl.lett.) (IF1.292), 2017, DOI 10.1007/s40195-017-0601-8.

4. Corrosion resistance of a novel SnO₂-doped dicalcium phosphate coating on AZ31 magnesium alloy. Lan-Yue Cui, Guanbin Wei, Rong-Chang Zeng*, Shuo-Qi Li, Yu-Hong Zou, En-Hou Han.Bioactive Materials, doi: 10.1016/j.bioactmat.2017.11.001.

5. 镁合金AZ31 表面Ca-P涂层在Hank’s溶液中的腐蚀行为.张春艳、高家诚、曾荣昌、刘成龙、吴霞, 吴迪. 硅酸盐学报，38(5)2010:885-891.

6. 电化学沉积法制备镁基Ca-P 生物陶瓷涂层的研究.张春艳、高家诚、曾荣昌、杨惠、吴地. 电化学沉积法制备镁基. 功能材料，41(6)2010:952-956, 960.

7. 镁合金AZ31 表面液相沉积Ca-P 生物陶瓷涂层的研究. 张春艳、曾荣昌等. 镁合金稀有金属材料与工程，38(8),2009, 1363-1367.

   
   

   Other coatings on Mg alloys
   

8. Mechanical and corrosion properties of Al/Ti film on magnesium alloy AZ31B (Cover article), Rongchang Zeng*, Ke Jiang, Shuo-QiLi, Fen Zhang, Hong-Zhi Cui, En-Hou Han. Frontiers of Materials Science, 9(1), 2015, 66-76.

9. Corrosion Resistance of Silane-modified Hydroxide Zinc Carbonate Film on AZ31 Magnesium Alloy.Rongchang Zeng*, Li-Jun Liu,  Ting-Ting Pang,  Fen Zhang, Wei-Wei Zhang, Shuo-QiLi,Hong-Zhi Cui, En-Hou Han. Acta Metallurgica Sinica (Engl. lett.), 28(3), 2015: 373-380.

10. Influence of silane on corrosion resistanceof magnesium alloy AZ31 with thermally sprayed aluminum coating. R.C.Zeng, J. Chen, J. Kuang, J. Zhang.
    Rare Metals, 29(2), 2010: 193-197.

11. Influence of silane on corrosion performance of silane-modified acrylate interpenetrating polymer networks coating on magnesium alloy AZ31, Rong-Chang ZENG, Jun CHEN,Chen-LanLIU,  Hong-Zhi CUI.
    Materials Science Forum, 686(2011)186-191.

Environmentally sensitive cracking (Corrosion fatigue and stress corrosion cracking) of Mg alloys

1. A critical discussion on influence of loading frequency on fatigue crack propagation behavior for extruded Mg-Al-Zn alloys. Rongchang Zeng, Enhou Han, Wei Ke.
International Journal of Fatigue, 36(1), 2012: 40-46.

2. Influence of microstructure on tensile properties and fatigue crack growth in extruded magnesium alloy AM60. Rongchang Zeng, Enhou Han, Wei Ke, Wolfgang Dietzel, Karl Ulrich Kainer, Andrejs Atrens.
International Journal of Fatigue, 32, 2010: 411-419.

3. Influence of load frequency and ageing heat treatment on fatigue crack propagation rate of as-extruded AZ61alloy. 3.R.C. Zeng, W. Ke, E.H. Han,
International Journal of Fatigue, 31(3), 2009: 463–467.

4. Fatigue crackpropagation behavior of as-extruded magnesium alloy AZ80, R.C. Zeng, Y.B. Xu, W. Ke and E.H. Han.
Materials Scienceand Engineering A, 509, 2009: 1-7.

5. A study on the SCC susceptibility of friction stir welded AZ31Mg sheet. 5.M. Bobby Kannan, W. Dietzel,R. Zeng, R. Zettler,J. dos Dantos.
Materials Science and Engineering: A, 460, 2007, 243-250.

6. Fatigue crack propagation behavior of Mg-Al-Zn alloys. R.C. ZENG, E.H. HAN, W. KE, etc. Proceedings of the7th International Conference on Magnesium Alloys and Their Applications.2007:666-672.

7.Microstructural evolution and delayed hydride cracking of FSW-AZ31 magnesium alloy during SSRT, RongchangZeng, Wolfgang Dietzel, Rudolf Zettler,Wei-min Gan, Xin-Xin Sun.
Trans. Nonferrous Met. Soc.China, 24(2014) 3060-3069.

8.  Effect of temperature and relative humidity on fatigue crack propagation behaviof of AZ61magnesium alloy. Rongchang ZENG, Enhou HAN,Wei KE. Materials Science Forum, 546-549,2007: 409-412.

9.   Fatigue and corrosion fatigue of magnesium alloys. Rongchang ZENG, Enhou HAN, Wei KE. Material Science Forum, 488-489, 2005: 721-724

10.  挤压镁合金AM60的腐蚀疲劳，曾荣昌、韩恩厚、柯伟、徐永波.材料研究学报，19(1),2005:1-7.

11.  变形镁合金AZ80的腐蚀疲劳机理，  曾荣昌、韩恩厚、柯伟、徐永波.材料研究学报，18(6),2004:561-567.

12.  轧制组织对镁合金AM60疲劳性能的影响.  曾荣昌、韩恩厚、柯伟、刘路、徐永波. 材料研究学报,17(3),2003:241-245.

Photoelectrochemical and biomedical coatings

1. Hydrothermal synthesis and photoelectrochemical performance enhancement ofTiO2/graphene composite in photo-generated cathodic protection.  WeiweiZhang，HanlinGuo，HaiqingSun，Rong-Chang Zeng. Applied Surface Science, 2016, 382:128-134. IF3.150

2. Constructing ternary polyaniline-graphene-TiO2 hybrids with enhanced photoelectrochemical performance in photo-generated cathodic protection. Weiwei Zhang, Hanlin Guo, Haiqing Sun, Rongchang Zeng. Applied Surface Science. 410,  2017: 547-556.

3. Photogenerated cathodic protection and invalidation of silane/TiO₂ hybrid coatings. WeiweiZhang, Hanlin Guo, Haiqing Sun, Rong-Chang Zeng.
   Journal of Coatings Technology and Research, 2017,1-8; doi:10.1007/s11998-016-9859-4.

4. Cr₂O₃ nanoparticles modified TiO₂ nanotubes for enhancing visible photoelectrochemical performance. Fen Zhang, Jin Tao, RongchangZeng, HongzhiCui, and Liang Song. Journal of Nanoscience and Nanotechnology.14(9), 2014, 7022–7026.

5. Soluble Polyaniline Nanofibers Prepared via Surfactant-free Emulsion Polymerization.Yanmin Wang, Kai Chen,Tingxi Li, Huimin Li,Rongchang Zeng,Ruliang Zhang, Yijie Gu,Jianxu Ding, Hongquan Liu. Synthetic Metals. 198(2014)293–299.

6. Microstructure evolution and tensile properties of friction-stir-welded AM50 magnesium alloy, R.C. Zeng, J. Chen, W. Dietzel, R.Zettler, K.U. Kainer.
   Transactions of Nonferrous Metals Society of China,18,2008: s76-s80.

7. 载锌蒙脱石抗菌中间体的制备及镁合金表面的应用研究．邹玉红,王庆昭,曾荣昌, 韩秋霞,王闯,刘志威.功能材料，2016,47(7):7121-7129.

8. 医用新型Mg-Li-Ca合金材料体外生物相容性及生物活性评价.刘睿,姜科,赵保东*,曾荣昌*,徐昊,王兰英.中国组织工程研究.2014, 18(52):8409-13.