Experimental Study on Mechanical Properties of Chalcogenide Glass by Nanoindentation and Scratch

Zhi Liu; Yu Zhang; Chunmei Chen; Kang Xie; Long Chen; Shenmin Zhou

doi:10.3788/LOP222703

[1] Tao G M. Preparation and properties of new infrared materials of chalcogenide glass[D](2009).

[2] Huang H Y. Development of the high-strength moisture proof infrared antireflective and protective film for chalcogenide glass substrate[D](2021).

[3] Zhang Y Y. Effects of nucleation agent on structure and properties of selenium based infrared glass[D](2014).

[4] Zhu B. Research on deformation mechanism of single crystal silicon carbide based on molecular dynamics nanoindentation simulation[D](2020).

[5] Zhao B. Research on brittle-ductile transition mechanism of single crystal germanium in micro-nano scale[D](2017).

[6] Tang S, Wang Y Q. Analysis of nanoindentation process of single crystal silicon based on molecular dynamics[J]. Internal Combustion Engine & Parts, 111-113(2022).

[7] Zhang X Y. Experimental analysis on indentation and scratch of single crystal GaN[J]. Journal of Materials Science and Engineering, 39, 1028-1034(2021).

[8] Yang X J, Liu H, Zhao B et al. Experimental study on nanoscale scratch in single crystal germanium brittle plastic transition[J]. Nonferrous Metals Engineering, 9, 12-16(2019).

[9] Trunov M L, Bilanich V S, Dub S N. The non-Hookian behavior of chalcogenide glasses under irradiation: a nanoindentation study[J]. Journal of Non-Crystalline Solids, 353, 1904-1909(2007).

[10] Troutman J R, Owen J D, Zare A et al. Cutting mechanics and subsurface integrity in diamond machining of chalcogenide glass[J]. Procedia CIRP, 45, 135-138(2016).

[11] Zhang J Y, Lin H F, Huang Z C. Compact large relative aperture long wavelength infrared athermalization optical system with chalcogenide glasses[J]. Journal of Applied Optics, 42, 790-795(2021).

[12] Zhang B D, Xu J F, Chang F G. Preparation of Ge20Sb10Se65Te5 chalcogenide glass and impurity removal mechanism of Ti wire[J]. Bulletin of the Chinese Ceramic Society, 40, 3145-3151(2021).

[13] Wang J, Wu Y H, Dai S X et al. Application of chalcogenide glass in designing a long-wave infrared athermalized continuous zoom wide-angle lens[J]. Infrared and Laser Engineering, 47, 0321001(2018).

[14] Zhou T F, Xie J Q, Liang Z Q et al. Advances and prospects of molding for optical microlens array[J]. Chinese Optics, 10(2017).

[15] Jiang T. Fabrication technology, research and development status, trend of laminated ceramics composites[J]. Bulletin of the Chinese Ceramic Society, 38, 2475-2491(2019).

[16] Zhang Z J, Cai L X, Chen H et al. Spherical indentation method to determine stress-strain relations and tensile strength of metallic materials[J]. Chinese Journal of Theoretical and Applied Mechanics, 51, 159-169(2019).

[17] Wang Y D, Wang H F, Yang S Y et al. Nanoindentation technique and its application in film/coating system[J]. Surface Technology, 51, 138-159(2022).

[18] Oliver W C, Pharr G M. Measurement of hardness and elastic modulus by instrumented indentation: advances in understanding and refinements to methodology[J]. Journal of Materials Research, 19, 3-20(2004).

[19] Kese K, Li Z C. Semi-ellipse method for accounting for the pile-up contact area during nanoindentation with the Berkovich indenter[J]. Scripta Materialia, 55, 699-702(2006).

微信扫一扫：分享

微信扫一扫：分享