Открытый доступ Открытый доступ  Ограниченный доступ Доступ для подписчиков

Численное моделирование полей температуры и напряжений в покрытиях из сплава на основе железа, полученных плакированием с использованием широкополосного лазера

Я. Шао, П. Сюй, Ц. Я. Тянь

Аннотация


Разработана модель трехмерных температурных полей и полей остаточных напряжений при лазерном осаждении покрытий из сплава Fe - 32 % Mn - 9 % Si - 4 % Cr - 3 % Ni пучком лазера прямоугольного сечения. Полученная модель связывает термические поля и структуру и позволяет рассчитывать эволюцию температуры и напряжений при плакировании. Проведен анализ результатов моделирования.

Ключевые слова


laser cladding; numerical simulation; coating; residual stresses

Полный текст:

PDF

Литература


Xu P., Ju H., Lin C. X. et al. In-situ synthesis of Fe - Mn - Si - Cr - Ni shape memory alloy functional coating by laser cladding // Chin. Opt. Lett. 2013. V. 12. P. 48 - 50.

Lai Q., Abrahams R., Yan W. et al. Effects of preheating and carbon dilution on material characteristics of laser-cladded hypereutectoid rail steels // Mat. Sci. Eng.: A-Struct. 2018. V. 742. P. 760 - 761.

Jiang Y. Q., Li J., Juan Y. F. et al. Evolution in microstructure and corrosion behavior of AlCoCr x FeNi high-entropy alloy coatings fabricated by laser cladding // J. Alloy. Compd. 2019. V. 775. P. 1 - 14.

Wang D., Hu Q., Zeng X. Residual stress and cracking behaviors of Cr 13 Ni 5 Si 2 based composite coatings prepared by laser-induction hybrid cladding // Surf. Coat. Tech. 2015. V. 274. P. 51 - 59.

Nazemi N., Urbanic J., Alam M. Hardness and residual stress modeling of powder injection laser cladding of P420 coating on AISI 1018 substrate // Int. J. Adv. Manuf. Tech. 2017. V. 93. P. 9 - 12.

Zhou S., Dai X., Zheng H. Microstructure and wear resistance of Fe-based WC coating by multi-track overlapping laser induction hybrid rapid cladding // Opt. Laser. Technol. 2012. V. 44. P. 190 - 197.

Feng H., Li J., Shun J. Study on Remanufacturing repair of damaged crank shaft journal surface by laser cladding // Chinese Journal of Lasers. 2014. V. 41. No. 0803003.

Yan S., Dong S., Xu B. et al. Characterization and optimization of process in laser cladding Fe314 alloy // Infrared & Laser Engineering. 2011. V. 5. No. 12039.

Salem A. A., Kalidindi S. R., Semiatin S. L. Strain hardening due to deformation twinning in α-titanium: Constitutive relations and crystal-plasticity modeling // Metall. Mater. Trans. A. 2006. V. 37. P. 259 - 268.

Kang S. H., Im Y. T. Three-dimensional thermo-elastic-plastic finite element modeling of quenching process of plain-carbon steel in couple with phase transformation // Int. J. Mech. Sci. 2007. V. 49. P. 423 - 439.

Tamanna N., Crouch R., Kabir I. R., Naher S. An analytical model to predict and minimize the residual stress of laser cladding process // Appl. Phys. A-Mater. 2019. V. 124. P. 151.

Labudovic M., Hu D., Kovacevic R. A three dimensional model for direct laser metal powder deposition and rapid prototyping // J. Mater. Sci. 2003. V. 38. P. 35 - 49.

Hua L., Tian W., Liao W., Zeng C. Numerical simulation of temperature field and residual stress distribution for laser cladding remanufacturing // Adv. Mech. Eng. 2014. V. 6.

Ahn J., He E., Chen L. et al. Determination of residual stresses in fibre laser welded AA2024-T3 T-joints by numerical simulation and neutron diffraction // Mat. Sci. Eng. A-Struct. 2018. V. 712. P. 685 - 703.

Ren K., Chew Y., Fuh J. Y. H. et al. Thermo-mechanical analyses for optimized path planning in laser aided additive manufacturing processes // Mater. Design. 2019. V. 162. P. 80 - 93.

Javid Y., Ghoreishi M. Thermo-mechanical analysis in pulsed laser cladding of WC powder on Inconel 718 // Int. J. Adv. Manuf. Tech. 2017. V. 92. P. 69 - 79.

Paul S., Singh R., Yan W. Thermal model for additive restoration of mold steels using crucible steel // J. Manuf. Process. 2016. V. 24. P. 346 - 354.

Liu C., Li C., Zhang Z. S. et al. Modeling of thermal behavior and microstructure evolution during laser cladding of alsi 10 mg alloys // Opt. Laser. Technol. 2019. V. 123. No. 105926.

Zhang Z., Farahmand P., Kovacevic R. Laser cladding of 420 stainless steel with molybdenum on mild steel A36 by a high power direct diode laser // Mater. Design. 2016. V. 109. P. 686 - 699.

Derakhshan E. D., Yazdian N., Craft B. et al. Numerical simulation and experimental validation of residual stress and welding distortion induced by laser-based welding processes of thin structural steel plates in butt joint configuration // Opt. Laser. Technol. 2018. V. 104. P. 170 - 182.

Farahmand P., Kovacevic R. An experimental-numerical investigation of heat distribution and stress field in single- and multi-track laser cladding by a high-power direct diode laser // Opt. Laser. Technol. 2014. V. 63. P. 154 - 168.

Tian J., Xu P., Chen J., Liu Q. Microstructure and phase transformation behaviour of a Fe - Mn - Si - Cr - Ni alloy coating by laser cladding // Opt. Laser. Eng. 2019. V. 122. P. 97 - 104.





© Издательский дом «Фолиум», 1993–2021