References
- A. Pogrebnjak, V. Beresnev, D. Kolesnikov, et al., Adhesive strength, superhardness, and the phase and elemental compositions of nanostructured coatings based on Ti-Hf-Si-N, Physics Of The Solid State. 54 (9), 1882–1890 (2012).
- F. Coren, C. Palestini, P. Kuosmanen, et al., Microcontact printing on metallic surfaces for optical deformation measurements, Proceedings Of The Estonian Academy Of Sciences. 66 (2), 184–188 (2017).
- M. Dolgov, N. Buketova, and N. Zubrets'ka, On the problem of modeling adhesive strength of protective coating depending on the content and conditions of formation of composition, Strength Of Materials. 44 (2), 212–217 (2012).
- N. Dolgov, I. Smirnov, and A. Besov, Studying the Elastic Properties and Adhesive Strength of Plasma-Sprayed Double-Layer Coatings During Tensile Tests, Powder Metallurgy & Metal Ceramics. 54 (1/2), 40–46 (2015).
- M. Mikio, Sensitivity-enhanced atomic force acoustic microscopy with concentrated-mass cantilevers, Nanotechnology. 16 (4), 542–550 (2005).
- K. Baumung, G. Kanel, G. Mu¨ller, and J. Singer, Measurement of the adhesive strength of 200 μm thick turbine blade coatings by a dynamic method, AIP Conference Proceedings. 505 (1), 1207 (2000).
- P. Combette, L. Nougaret, F. Pascal-Delannoy, and A. Giani, A New Thermal Accelerometer Based On Pyroelectric Materials, Integrated Ferroelectrics. 95 (1), 142–157 (2007).
- D. Choi, and S. Lee, A Flowmeter with a Corrugation Structure and 2-Directional Measurement Application, Integrated Ferroelectrics. 142 (1), 154–164 (2013).
- B. Plangklang, and K. Wetchakan, Implementation and Analysis of Electricity Generation by Thermoelectric, Integrated Ferroelectrics. 165 (1), 86–97 (2015).
- J. Wallace, Laser safety is an industry unto itself, Laser Focus World. 53 (1), 61–65 (2017).
- X. Ke, Q. Yuanwei, M. Yongming, et al., A micromanipulation system for single nanostructure material deposition using resistance, Integrated Ferroelectrics. 172 (1), 186–194 (2016).
- P. Delobelle, E. Fribourg-Blanc, O. Guillon, C. Soyer, E. Cattan, and D. Rèmiens, Determination by Indentation Method of Sputtered PZT Films Mechanical Parameters for Si-MEMs Applications, Integrated Ferroelectrics. 69 (1), 213–221 (2005).
- S. Babulal, S. Binzaid, R. Guo, and A. Bhalla, Microcontroller based application of bio-sensing the critical parameters of the human lung, Integrated Ferroelectrics. 174 (1), 195–202 (2016).
- K. Ho, E. Gans, D. Shin, and G. Carman, Stress Induced Phase Changing Material For Thermoacoustic Refrigeration, Integrated Ferroelectrics. 101 (1), 89–100 (2008).
- J. Lu, J. Zang, and Y. Wang, Controllable Fabrication and Characterization of Si-coated Multiwalled Carbon Nanotubes, Integrated Ferroelectrics. 146 (1), 22–28 (2013).
- L. Shen, Y. Fan, and T. Liang, Optical Precision Measurements Applied in the Analysis of the Wear Process of Reciprocating Sliding Friction Pair, Integrated Ferroelectrics. 146 (1), 59–66 (2013).
- J. Kwon, H. Park, I. Lee, and C. Lee, Effect of gas flow rate on deposition behavior of Fe-based amorphous alloys in vacuum kinetic spray process, Surface & Coatings Technology. 259, 585–593 (2014).
- Y. Okajima, T. Nakamura, and S. Sampath, Effect of Powder Injection on the Interfacial Fracture Toughness of Plasma-Sprayed Zirconia, Journal Of Thermal Spray Technology. 22 (2/3), 166–174 (2013).