The nanoscratch behaviors of La0.7Sr0.3MnO3+δ films, which were deposited with ratio of O2/(O2+Ar), ranging from 4.4% to 45.6%, by DC magnetron sputter, were investigated by a nanoindentation technique. The results indicated that the friction coefficient between the films and the diamond tip depended on the loading critical load. The friction coefficient was about 0.08-0.12 when the loading normal load was less than the loading critical load. The films displayed excellent elastic recovery after unloading. When the loading load was larger than the loading critical load, plastic deformation and ploughing appeared for the films. The friction coefficient was about 0.43 when the film was damaged completely. The suitable decrease in ratio of O2/(O2+Ar) could improve the nanoscratch resistance of the films. The film deposited with O2/(O2+Ar)=25% possessed better scratch resistance due to good elastic recovery, high nanohardness, and critical load. The loading critical load of the film was larger than 80 mN.
参考文献
| [1] | Helmolt R V;WeckerJ;Hoizapfei B;Schultz L Samwer K .Giant negative magnetoresistance in perovskitelike La2/3Ba1/3MnOx ferromagnetic films[J].Physical Review Letters,1993,71:2331. |
| [2] | Aarts J.;Hendrikx R.;Zandbergen HW.;Freisem S. .Disorder effects in epitaxial thin films of (La,Ca)MnO3[J].Applied physics letters,1998(23):2975-2977. |
| [3] | Tokura Y;Urushibara A;Moritomo Y;Arma T Asamitsu A Kido G Furukawa N .Giant magnetotransport phenomena in filling-controlledKondo lattice system:La1-xSrxMnO3[J].J Phys Sco Jpn,1994,63(11):3931. |
| [4] | Jin S;Tiefel T H;Mccormack M;Fastnacht R A Ramesh R Chen L H .Thousandfold change in resistivity in magnetoresistive La-Ca-Mn-O films[J].Science,1994,264(5157):413. |
| [5] | M. Gunes;H. Gencer;V.S. Kolat .Microstructure and magnetoresistance of a La_(0.67)Ca_(0.33)MnO_3 film produced using the dip-coating method[J].Materials Science & Engineering, B. Solid-State Materials for Advanced Technology,2007(1):41-45. |
| [6] | Chahara K;Ohno T;Kasai M;Kozono Y .Magnetoresistance in magnetic manganese oxide with intrinsic antiferromagnetic spin structure[J].Applied Physics Letters,1993,63(14):1990. |
| [7] | Bhushan B;Theunissen G S A M;Li X .Tribological studies of chromium oxide films for magnetic recording applications[J].Thin Solid Films,1997,311:67. |
| [8] | Souty E;Sullivan J L;Bijker M D .The tribology of advanced digital recording (ADR) systems[J].Tribology International,2000,33:629. |
| [9] | Li X;Bhushan B .Micro/nanomechanical and tribological studies of bulk and thin-film materials used in magnetic recording heads[J].Thin Solid Films,2001,398-399:313. |
| [10] | Li X;Bhushan B .Micro/nanomechanical and tribological characterization of ultra-thin amorphous carbon coatings[J].Journal of Materials Research,1999,14:2328. |
| [11] | Li X;Bhushan B .Micromechanical and tribological characterization of hard amorphous carbon coatings as thin as 5 nm for magnetic recording heads[J].Wear,1998,220:51. |
| [12] | Li-Ye Huang;Jun-Wu Zhao;Ke-Wei Xu;Jian Lu .A new method for evaluating the scratch resistance of diamond-like carbon films by the nano-scratch technique[J].Diamond and Related Materials,2002(7):1454-1459. |
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