https://orcid.org/0000-0001-5921-9638
References
- Fedorchenko IM, Skorokhod VV. Theory and practice of sintering. Soviet Powder Metall Metal Ceram. 1967;6(10):790–805.
- Wang X, Casolco SR, Xu G, et al. Finite element modeling of electric current-activated sintering: the effect of coupled electrical potential, temperature and stress. Acta Materialia. 2007;55(10):3611–3622.
- Demirskyi D, Agrawal D, Ragulya A. Neck growth kinetics during microwave sintering of copper. Scr Mater. 2010;62(8):552–555.
- Ensminger D, Ultrasonics: data, equations, and their practical uses, 10. 2009.
- Abedini R, Abdullah A, Alizadeh Y. Ultrasonic assisted hot metal powder compaction. Ultrason Sonochem. 2017;38:704–710.
- Li Y, Jing H, Han Y, et al. Microstructure and joint properties of nano-silver paste by ultrasonic-assisted pressureless sintering. J Electron Mater. 2016;45(6):3003–3012.
- Wei R, Lv X, Yang M, et al. Effect of ultrasonic vibration treatment on solid-state reactions between Fe2O3and CaO. Ultrason Sonochem. 2017;38:281–288.
- Trung TB, Phuong DD, Van Luan N, et al. Effect of ultrasonic-assisted compaction on density and hardness of cu-cnt nanocomposites sintered by capsule-free hot isostatic pressing. Acta Metall Slovaca. 2017;23(1):30–36.
- Abedini R, Abdullah A, Alizadeh Y. Ultrasonic hot powder compaction of Ti-6Al-4V. Ultrason Sonochem. 2017;37:640–647.
- Downes D, Ensan MN. Vibration analysis of a compressor blade at high temperature. 2016;1–10.
- Zhao Y, Zhu M, Lin F, et al. Thermal modal analysis of novel non-pneumatic mechanical elastic wheel based on FEM and EMA. AIP Adv. 2018;8(1).
- Alshorbagy AE. Temperature effects on the vibration characteristics of a functionally graded thick beam. Ain Shams Eng J. 2013;4(3):455–464.
- Nad M. Ultrasonic horn design for ultrasonic machining technologies. Appl Comput Mech. 2010;4(1):79–88.
- Azarhoushang B, Tawakoli T. Development of a novel ultrasonic unit for grinding of ceramic matrix composites. Int J Adv Manuf Technol. 2011;57(9–12):945–955.
- Chen P, et al. Ultrafast consolidation of bulk nanocrystalline titanium alloy through ultrasonic vibration. Sci Rep. 2018;8(1):1–9.
- Databooks I, Austenitic chromium-nickel stainless steels-engineering properties at elevated temperatures; 1968.
- Singh G, Pandey PM. Experimental investigations into mechanical and thermal properties of rapid manufactured copper parts. Proc Inst Mech Eng Part C. 2020;234(1):82–95.
- Singh G, Pandey PM. Uniform and graded copper open cell ordered foams fabricated by rapid manufacturing: surface morphology, mechanical properties and energy absorption capacity. Mater Sci Eng A. 2019 May;761:138035.
- Singh G, Pandey PM. Rapid manufacturing of copper-graphene composites using a novel rapid tooling technique. Rapid Prototyping J. 2020. DOI:10.1108/RPJ-10-2019-0258.
- Singh G, Pandey PM. Ultrasonic assisted pressureless sintering for rapid manufacturing of complex copper components. Mater Lett. 2019;236:276–280.
- Zou B, Hu Y, Liu Z, et al. The impact of temperature effect on exhaust manifold thermal modal analysis. Res J Appl Sci Eng Technol. 2013;6(15):2824–2829.
- Singh T, Dvivedi A, Arya RK. Fabrication of micro-slits using W-ECDM process with textured wire surface: an experimental investigation on kerf overcut reduction and straightness improvement. Precis Eng. 2019 May;59:211–223.
- Singh G, Pandey PM. Topological ordered copper graphene composite foam: fabrication and compression properties study. Mater Lett. 2019;257:126712.
- Singh G, Pandey PM. Neck growth kinetics during ultrasonic-assisted sintering of copper powder. Proc Inst Mech Eng Part C. 2020;1–11.
- Pandey PM, Singh G. Effect of unit cell shape and strut size on flexural properties of ordered Copper foam. Int J Eng Sci. 2019;12(3):73–79.