Development in key technique and equipment of friction stir additive manufacturing

[1] Feng Xiaojun, Rapid manufacturing technology, (2004)

[2] Meng X C, Huang Y X, Cao J, Et al., Recent progress on control strategies for inherent issues in friction stir welding, Progress in Materials Science, 115, (2020)

[3] Kandasamy K., Solid state joining using additive friction stir processing, (2018)

[4] Palanivel S, Sidhar H, Mishra R S., Friction stir additive manufacturing: Route to high structural performance, Jom, 67, 3, pp. 616-621, (2015)

[5] Troysi F D, Brito P P., Development and characterization of an iron aluminide coating on mild steel substrate obtained by friction surfacing and heat treatment[J], The International Journal of Advanced Manufacturing Technology, 111, 9-10, pp. 1-8, (2020)

[6] Rathee S, Srivastava M, Maheshwari S, Et al., Friction based additive manufacturing technologies: principles for building in solid state, benefits, limitations, and applications, (2018)

[7] Yu H Z, Mishra R S., Additive friction stir deposition: a deformation processing route to metal additive manufacturing[J], Materials Research Letters, 9, 2, pp. 71-83, (2021)

[8] Wang Hongjun, Research status and development tendency of additive manufacturing, Journal of Beijing Information Science and Technology University, 29, 3, pp. 20-24, (2014)

[9] Zhu Xueyan, Development of equipment and process of high temperature metal 3D printing based on electromagnetic induction heating technology, (2018)

[10] Zhao C, Parab N D, Li X, Et al., Critical instability at moving keyhole tip generates porosity in laser melting[J], Science, 370, 6520, pp. 1080-1086, (2020)

[1] Feng Xiaojun, Rapid manufacturing technology, (2004)

[2] Meng X C, Huang Y X, Cao J, Et al., Recent progress on control strategies for inherent issues in friction stir welding, Progress in Materials Science, 115, (2020)

[3] Kandasamy K., Solid state joining using additive friction stir processing, (2018)

[4] Palanivel S, Sidhar H, Mishra R S., Friction stir additive manufacturing: Route to high structural performance, Jom, 67, 3, pp. 616-621, (2015)

[5] Troysi F D, Brito P P., Development and characterization of an iron aluminide coating on mild steel substrate obtained by friction surfacing and heat treatment[J], The International Journal of Advanced Manufacturing Technology, 111, 9-10, pp. 1-8, (2020)

[6] Rathee S, Srivastava M, Maheshwari S, Et al., Friction based additive manufacturing technologies: principles for building in solid state, benefits, limitations, and applications, (2018)

[7] Yu H Z, Mishra R S., Additive friction stir deposition: a deformation processing route to metal additive manufacturing[J], Materials Research Letters, 9, 2, pp. 71-83, (2021)

[8] Wang Hongjun, Research status and development tendency of additive manufacturing, Journal of Beijing Information Science and Technology University, 29, 3, pp. 20-24, (2014)

[9] Zhu Xueyan, Development of equipment and process of high temperature metal 3D printing based on electromagnetic induction heating technology, (2018)

[10] Zhao C, Parab N D, Li X, Et al., Critical instability at moving keyhole tip generates porosity in laser melting[J], Science, 370, 6520, pp. 1080-1086, (2020)