为了解强界面脆性涂层/硬性金属基体涂层结构横截面压入时的涂层剥落特点,以电镀铬层/硬性金属基体为研究模型,在原位观察系统下进行横截面压入试验,其结果表明:铬层断裂和剥落与载荷-位移曲线上出现的3个载荷下降点相对应,首先是在铬层横截面上形成一条与压头轴线平行的中间裂纹;随后又出现了以第1条裂纹为对称轴的2条斜裂纹;随着3条裂纹的稳态扩展和汇合,形成了与周围铬层相隔离、仅靠基体支撑的2块1/4圆形局部"孤岛"铬层;最后"孤岛"铬层沿界面剥落.以此"孤岛" 剥落为力学计算模型,提出定量评价强界面脆性涂层/硬性金属基体的界面结合能力的横截面压入法,该方法利用载荷-位移曲线计算"孤岛"剥落所需要的总能量,测量界面剥落面积,并计算两者的比值,给出临界界面能量释放率,以此数据作为评价界面结合能力的指标,并给出了应用举例.
参考文献
| [1] | J. M. SANCHEZ;S. EL-MANSY;B. SUN .CROSS-SECTIONAL NANOINDENTATION: A NEW TECHNIQUE FOR THIN FILM INTERFACIAL ADHESION CHARACTERIZATION[J].Acta materialia,1999(17):4405-4413. |
| [2] | M. R. Elizalde;J. M. Sanchez;J. M. Martinez-Esnaola;D. Pantuso;T. Scherban;B. Sun;G. Xu .Interfacial fracture induced by cross-sectional nanoindentation in metal-ceramic thin film structures[J].Acta materialia,2003(14):4295-4305. |
| [3] | Li XF .Effects of an elastic substrate on the interfacial adhesion of thin films[J].Surface & Coatings Technology,2006(16/17):5003-5008. |
| [4] | X.J. Zheng;Y.C. Zhou .Investigation of an anisotropic plate model to evaluate the interface adhesion of thin film with cross-sectional nanoindentation method[J].Composites science and technology,2005(9):1382-1390. |
| [5] | Zhang H;Li DY .Application of a novel lateral force-sensing microindentation method for evaluation of the bond strength of thermal sprayed coatings[J].Surface & Coatings Technology,2005(2/3):137-141. |
| [6] | H. Zhang;Q. Chen;D. Y. Li .Development of a novel lateral force-sensing microindentation technique for determination of interfacial bond strength[J].Acta materialia,2004(7):2037-2046. |
| [7] | D B Marshall;A G Evans .Measurement of adherence of residually stressed thin films by indentation.I.Mechanics of interface delamination[J].Journal of Applied Physics,1984,56(10):2635-2638. |
| [8] | K L Johnson.Contact mechanics[M].London:Cambridge University Press,1985:171-172. |
| [9] | Michael Lane .INTERFACE FRACTURE[J].Annual review of materials research,2003(0):29-54. |
| [10] | A. A. Volinsky;N. R. Moody;W. W. Gerberich .Interfacial toughness measurements for thin films on substrates[J].Acta materialia,2002(3):441-466. |
| [11] | B Rother;H A Jehn .Coating and interface characterization by depth-sensing indentation experiments[J].Surface and Coatings Technology,1996,85:183-188. |
| [12] | B Rother;D A Dietrich .Evaluation of interface strength between TiN coatings and hardened high speed steel substrates[J].Surface and Coatings Technology,1995,74-75:625-628. |
| [13] | B Rother;T Lunow;G Leonhardt .Interface strength of titanium nitride coatings on hardened high-speed steel[J].Surface and Coatings Technology,1995,71:229-232. |
| [14] | B Rother;L A Donohue;H Kappl .Quantification of the interface strength between (Ti,Zr)N coatings and high speed steel[J].Surface and Coatings Technology,1996,82:214-217. |
| [15] | Xiaodong Li;Dongfeng Diao;Bharat Bhushan .Fracture mechanisms of thin amorphous carbon films in nanoindentation[J].Acta materialia,1997(11):4453-4461. |
| [16] | X. Li;B. Bhushan .Measurement of fracture toughness of ultra-thin amorphous carbon films[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,1998(1/2):214-221. |
| [17] | 《数学手册》编写组.数学手册[M].北京:人民教育出版社,1979:77. |
| [18] | S 铁摩新柯;萧敬勋;刘文秀.材料力学[M].天津:天津科学技术出版社,1989:195-199. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%