https://orcid.org/0000-0001-9999-0099
References
- Salje G, Feller‐Kniepmeier M. The diffusion and solubility of copper in iron. J Appl Phys. 1977;48(5):1833–1839.
- Savage WF, Nippes EF, Stanton RP. Intergranular attack of steel by molten copper. Weld J (Miami, Fla). 1978;57(1):S9–16. Available from: https://app.aws.org/wj/supplement/WJ_1978_01_s9.pdf
- Karpenko VM, Granovskii AV, Gavrish PA. Plasma-arc spray gun for surfacing parts of complex form. Chem Petrol Eng. 1989;25(8):474–475.
- Turchanin MA, Nikolaenko IV. Enthalpies of solution of vanadium and chromium in liquid copper by high temperature calorimetry. J Alloys Compd. 1996;235(1):128–132.
- Olabi AG, Hashmi MSJ. Stress relief procedures for low carbon steel (1020) welded components. J Mater Process Technol. 1996;56(1–4):552–562.
- Ismail MY, Hashmi MSJ. Empirical study into quality initiatives implementation order. Total Quality Manage. 1998;9(4–5):128–129.
- Ismail MY, Baradie ME, Hashmi MSJ. Quality management in the manufacturing industry: practice vs performance. Comput Ind Eng. 1998;35(3–4):519–522.
- Potapkin VF, Levkin AN, Satonin AV, et al. Stressed state and kinematics in the rolling of powder materials on a metal substrate. Powder Metall Met Ceram. 2000;39(1–2):11–17.
- Gavrish PA. Investigation of the properties of copper and iron fusion boundary during welding [Issledovanie svoystv granitsy splavleniya medi i zheleza pri svarke]. Scientific news of Dahl university [Naukovі vіstі Dalіvs’kogo unіversitetu]; 2001, p. 2. [in Russian]. Available from: http://nvdu.snu.edu.ua/wp-content/uploads/2020/03/2011_2_3.pdf
- Turchanin MA, Agraval PG. Thermodynamics of liquid alloys, and stable and metastable phase equilibria in the copper-iron system. Powder Metall Met Ceram. 2001 Aug;40(7–8):337–353.
- Pichuzhkin SA, Chernobaev SP, Vainerman AA. Mechanized welding of copper alloys with low-alloy structural steels. Chem Pet Eng. 2016 Mar;51(11–12):861–864.
- Chigarev VV, Serov IV, Gavrish PA, et al. Study of the interaction of bath components in welding parts of metallurgical equipment [Issledovanie vzaimodeystviya komponentov vanny pri svarke detaley metallurgicheskogo oborudovaniya]. Prot Metall Mach Breakdowns [Zakhyst Metalurhiinykh Mashyn Vid Polomok]. 2005;8;214–223. [in Russian]. Available from: http://eir.pstu.edu/handle/123456789/4790
- Perez M, Perrard F, Massardier V, et al. Low-temperature solubility of copper in iron: experimental study using thermoelectric power, small angle X-ray scattering and tomographic atom probe. Philos Mag. 2005;85(20):2197–2210.
- Oleksiak B, Siwiec G, Blacha A, et al. Influence of iron on the surface tension of copper. Arch Mater Sci Eng. 2010;44(1):39–42. Available from: http://www.amse.acmsse.h2.pl/vol44_1/4414.pdf
- Perig AV, Laptev AM, Golodenko NN, et al. Equal channel angular extrusion of soft solids. Mater Sci Eng Struct Mater Prop Microstruct Process. 2010;527(16–17):3769–3776.
- Chigarev VV, Gavrin PA, Gribkov EP. Investigation of the process of drawing flux-cored wire for welding copper to steel. Weld Int. 2012;26(9):718–722.
- Perig AV, Zhbankov IG, Palamarchuk VA. Effect of Die Radii on material waste during equal channel angular extrusion. Mater Manuf Process. 2013;28(8):910–915.
- Pashkov I, Kustova O, Vetrova J. Phenomenon of interaction between the solder melts on the basis of copper and the steel detail surface. Przeglad Spaw - Weld Technol Rev. 2013;85(8):36–40. Available from: http://www.pspaw.pl/index.php/pspaw/article/view/207
- Gavrish PA. The preliminary heating at welding copper and steel. Am J Mater Eng Technol. 2013 Sep 10;1(3):46–48.
- Perig AV, Zhbankov IG, Matveyev IA, et al. Shape effect of angular die external wall on strain unevenness during equal channel angular extrusion. Mater Manuf Process. 2013;28(8):916–922.
- Gavrish PA, Shepotko VP. Influence of design features of reloader welded assemblies on its performance. Paton Weld J. 2013;12:48–50. Available from: https://patonpublishinghouse.com/tpwj/pdf/2013/pdfarticles/12/10.pdf
- Gavrish PA, Pyts YE, Pyts VY. Strain hardening edges at the welding copper with steel [Deformatsionnoe uprochnenie kromok pri svarke medi so stal’yu]. Mater Working Pressure [Obrobka Materialiv Tyskom]. 2013;3(36):150–153. Available from: http://www.dgma.donetsk.ua/science_public/omd/omd_3(36)_2013/article/13gpacws.pdf [in Russian]
- Gavrish PA, Shepotko VP. Effect of design features of welded components of cargo handling equipment on its serviceability [Vliyanie konstruktivnykh osobennostey svarnykh uzlov peregruzhatelya na ego rabotosposobnost’]. Avtomaticheskaya Svarka 2013;12(727):51–54. Available from http://dspace.nbuv.gov.ua/handle/123456789/103168 [in Russian].
- Magnuson H, Frisk K. Self-diffusion and impurity diffusion of hydrogen, oxygen, sulphur and phosphorus in copper. Swerea KIMAB AB; 2014. Report No.: TR-13-24 (Institutet för metallforskning). Available from: http://urn.kb.se/resolve?urn=urn:nbn:se:ri:diva-13018
- Chigarev VV, Gavrish PA, Gribkov EP. Improving the technological conditions of drawing flux-cored welding wires. Weld Int. 2014;28(1):59–61.
- Gavrish PA. Improving the technology of welding copper to steel [Sovershenstvovanie tekhnologii svarki medi so stal’yu]. Kramatorsk: Donbass State Engineering Academy; 2014 [in Russian].
- Barabash AV, Gavril’chenko EY, Gribkov EP, et al. Straightening of sheet with correction of waviness. Steel Transl. 2014;44(12):916–920.
- Perig AV, Golodenko NN. CFD 2D simulation of viscous flow during ECAE through a rectangular die with parallel slants. Int J Adv Manuf Technol. 2014;74(5–8):943–962.
- Perig AV, Golodenko NN. CFD Simulation of ECAE through a multiple-angle die with a movable inlet wall. Chem Eng Commun. 2014;201(9):1221–1239.
- Perig AV. Method for teaching students to make a simple geometric estimation of the macroscopic rotational modes of large deformations during pressure forming. Int J Contin Eng Educ Life-Long Learn. 2019;29(3):182–191.
- Perig AV, Laptev AM. Study of ECAE mechanics by upper bound rigid block model with two degrees of freedom. J Braz Soc Mech Sci Eng. 2014;36(3):469–476.
- Perig AV. 2D upper bound analysis of ECAE through 2θ-dies for a range of channel angles. Mater Res-Ibero-Am J Mater. 2014;17(5):1226–1237.
- Yan N, Yu SF, Chen Y. Inclusions, microstructure and properties of flux copper backing submerged arc weld metal. Sci Technol Weld Join. 2015 May;20(5):418–424.
- Gurova T, Estefen SF, Leontiev A, et al. Welding residual stresses: a daily history. Sci Technol Weld Join. 2015 Oct;20(7):616–621.
- Cheng FJ, Zhang XT, Zhang Z, et al. New method of assessing susceptibility of welds to transverse cracking. Sci Technol Weld Join. 2016;21(1):20–24.
- Chigarev VV, Belik AG, Gribkov EP, et al. A mathematical model of the process of rolling flux-cored tapes. Weld Int. 2015;29(1):70–74.
- Gribkov EP, Perig AV, Danilyuk VA. Research into the process of producing powder tapes. Int J Adv Manuf Technol. 2015 Mar;77(5–8):1087–1104.
- Perig AV, Tarasov AF, Zhbankov IG, et al. Effect of 2θ-punch shape on material waste during ECAE through a 2θ-die. Mater Manuf Process. 2015;30(2):222–231.
- Perig A. Two-parameter rigid block approach to upper bound analysis of equal channel angular extrusion through a segal 2θ-die. Mater Res-Ibero-Am J Mater. 2015;18(3):628–638.
- Perig AV, Golodenko NN. ECAP process improvement based on the design of rational inclined punch shapes for the acute-angled Segal 2θ-dies: CFD 2-D description of dead zone reduction. Mech Sci. 2015;6(1):41–49.
- Di Luozzo N, Boudard M, Fontana M, et al. Effective diffusion coefficient for Cu in steel joined by transient liquid phase bonding. Mater Des. 2016 Feb 15;92:760–766.
- Gribkov EP, Perig AV. Research of energy-power parameters during powder wire flattening. Int J Adv Manuf Technol. 2016 Aug;85(9–12):2887–2900.
- Dong D, Liu Y, Wang L, et al. Microstructure and deformation behaviour of laser welded dissimilar dual phase steel joints. Sci Technol Weld Join. 2016;21(2):75–82.
- Rajesh KVD, Buddi T, Kanth PR, et al. Microstructural and corrosion resistance study on plasma arc welded joints of AISI 304 and AISI 316. Adv Mater Process Technol. 2020;6(2):189–205.
- Pramanik D, Kuar AS, Sarkar S, et al. Optimisation of edge quality on stainless steel 316L using low power fibre laser beam machining. Adv Mater Process Technol. 2020 Apr 3:1–12. DOI:10.1080/2374068X.2020.1745734
- Perig AV, Golodenko NN. CFD 2D description of local flow of polymer workpiece through a modified U-shaped die during equal channel multiple angular extrusion. Mater Res-Ibero-Am J Mater. 2016;19(3):602–610.
- Perig AV, Golodenko NN. Effect of workpiece viscosity on strain unevenness during equal channel angular extrusion: CFD 2D solution of Navier-Stokes equations for the physical variables ‘flow velocities-punching pressure’. Mater Res Express. 2016;3(11):115301.
- Wan XL, Wu KM, Huang G, et al. Toughness improvement by Cu addition in the simulated coarse-grained heat-affected zone of high-strength low-alloy steels. Sci Technol Weld Join. 2016;21(4):295–302.
- Dobronosov Y, Gavrish PA. Investigation of the stress–strain and kinematic state of metal in rolling welded joints between copper and steel. Weld Int. 2017;31(11):874–878.
- Perig AV, Golodenko NN. 2D CFD description of the kinematic effects of movable inlet and outlet die wall transport motion and punch shape geometry on the dynamics of viscous flow during ECAE through Segal 2θ-dies for a range of channel angles. AIMS Mat Sci. 2017;4(6):1240–1275.
- Perig AV, Galan IS. The experimental verification of the known flow line models describing local flow during ECAE (ECAP). Lett Mater-Pis Ma O Materialakh. 2017;7(3):209–217.
- Perig AV. How to teach students to make a simple experimental visualization of the macroscopic rotational modes of large deformations during pressure forming. J Mater Educ. 2017;39(5–6):193–208. Available from: https://icme.unt.edu/sites/default/files/vol.39issue5-62017.pdf
- Bhardwaj N, Narayanan RG, Dixit US, et al. Recent developments in friction stir welding and resulting industrial practices. Adv Mater Process Technol. 2019;5(3):461–496.
- Svyetlichnyy DS, Perig AV, Lach L, et al. Edification in creation of Lattice Boltzmann models for materials science students. Int J Contin Eng Educ Life-Long Learn. 2019;29(3):151–181.
- Perig AV, Matveyev IA. FEM-based deformation regression analysis of ECAE strains. FME Trans. 2019;47(4):851–855.
- Sulaiman S, Nemati J, Majzoobi GH, et al. Experimental and numerical study of high strain rate property of pure copper processed by ECAE method. Adv Mater Process Technol. 2019;5(3):386–393.
- Perig AV, Golodenko NN. CFD-enhanced description of local viscous flow through expansion equal channel angular extrusion geometric domain. Adv Mater Process Technol. 2019;5(4):617–644.
- Perig AV, Golodenko NN, Lapchenko OV, et al. Recent postdigital transformations of undergraduate learning processes in the study of multidisciplinary materials science. Int J Contin Eng Educ Life-Long Learn. 2019;29(3):251–291.
- Laptev AM, Perig AV, Vyal OY. Analysis of equal channel angular extrusion by upper bound method and rigid block model. Mater Res-Ibero-Am J Mater. 2014 Apr;17(2):359–366.
- Matarneh ME, Gharaibeh NS, Chigarev VV, et al. Reduction of copper to steel weld ductility for parts in metallurgical equipment. J Mech Eng. 2020;17(1):103–114. Available from: https://jmeche.uitm.edu.my/wp-content/uploads/2020/04/8_RI_17_1_P19_27.pdf
- Tillmann W, Lehmert B, Manka M, et al. Investigation of wetting behaviour of hardenable copper based-alloys for brazing applications. Sci Technol Weld Join. 2020 May 18;25(4):290–296.
- Gavrish PA, Perig AV. Improvement of the heat state in welding copper with steel. Adv Mater Process Technol. 2020 Jun 26:1–15. DOI:10.1080/2374068X.2020.1782086
- Patel D, Jani S. ATIG welding: a small step towards sustainable manufacturing. Adv Mater Process Technol. 2020 Jun 26:1–23. DOI:10.1080/2374068X.2020.1785209