Microstructure and mechanical properties of NAB/steel composite structures by additive manufacturing with BC-MIG wire arc

[1] Tomar B, Shiva S, Nath T., A review on wire arc additive manufacturing: Processing parameters, defects, quality improvement and recent advances, Materials Today Communications, 31, (2022)

[2] Liu L, Zhuang Z, Fei L., Additive manufacturing of steel-bronze bimetal by shaped metal deposition: interface characteristics and tensile properties, The International Journal of Advanced Manufacturing Technology, 69, 9-12, pp. 2131-2137, (2013)

[3] Hua Leisheng, Nickel-aluminum bronze overlay process and microstructure and properties of overlayer, (2015)

[4] Lyu Yuting, Wang Liqiang, Mao Jianwei, Et al., Recent advances of nickel-aluminum bronze (NAB), Rare Metal Materials and Engineering, 45, 3, pp. 815-820, (2016)

[5] Yan Chuliang, Wang Zhi, Zhang Xin, Et al., Study on fatigue performance test for 25 steel in fresh water, Journal of Agricultural Machinery, 5, pp. 89-92, (2002)

[6] Xu Yang, Research on microstructure and properties of aluminum bronze surfacing on carbon steel, (2021)

[7] Tian Y B, Shen J Q, Hu S S, Et al., Effects of cold metal transfer mode on the reaction layer of wire and arc additive-manufactured Ti-6Al-4V/Al-6.25Cu dissimilar alloys[J], Journal of Materials Science & Technology, 74, pp. 35-45, (2021)

[8] Zhang X C, Sun C, Pan T, Et al., Additive manufacturing of copper – H13 tool steel bi-metallic structures via Ni-based multi-interlayer, Additive Manufacturing, 36, (2020)

[9] Rodrigues T A, Bairrao N, Farias F, Et al., Steel-copper functionally graded material produced by twin-wire and arc additive manufacturing (T-WAAM), Materials & Design, 213, (2022)

[10] Chen S, Huang J, Xia J, Et al., Microstructural characteristics of a stainless steel/copper dissimilar joint made by laser welding, Metallurgical and Materials Transactions A, 44, 8, pp. 3690-3696, (2013)

[1] Tomar B, Shiva S, Nath T., A review on wire arc additive manufacturing: Processing parameters, defects, quality improvement and recent advances, Materials Today Communications, 31, (2022)

[2] Liu L, Zhuang Z, Fei L., Additive manufacturing of steel-bronze bimetal by shaped metal deposition: interface characteristics and tensile properties, The International Journal of Advanced Manufacturing Technology, 69, 9-12, pp. 2131-2137, (2013)

[3] Hua Leisheng, Nickel-aluminum bronze overlay process and microstructure and properties of overlayer, (2015)

[4] Lyu Yuting, Wang Liqiang, Mao Jianwei, Et al., Recent advances of nickel-aluminum bronze (NAB), Rare Metal Materials and Engineering, 45, 3, pp. 815-820, (2016)

[5] Yan Chuliang, Wang Zhi, Zhang Xin, Et al., Study on fatigue performance test for 25 steel in fresh water, Journal of Agricultural Machinery, 5, pp. 89-92, (2002)

[6] Xu Yang, Research on microstructure and properties of aluminum bronze surfacing on carbon steel, (2021)

[7] Tian Y B, Shen J Q, Hu S S, Et al., Effects of cold metal transfer mode on the reaction layer of wire and arc additive-manufactured Ti-6Al-4V/Al-6.25Cu dissimilar alloys[J], Journal of Materials Science & Technology, 74, pp. 35-45, (2021)

[8] Zhang X C, Sun C, Pan T, Et al., Additive manufacturing of copper – H13 tool steel bi-metallic structures via Ni-based multi-interlayer, Additive Manufacturing, 36, (2020)

[9] Rodrigues T A, Bairrao N, Farias F, Et al., Steel-copper functionally graded material produced by twin-wire and arc additive manufacturing (T-WAAM), Materials & Design, 213, (2022)

[10] Chen S, Huang J, Xia J, Et al., Microstructural characteristics of a stainless steel/copper dissimilar joint made by laser welding, Metallurgical and Materials Transactions A, 44, 8, pp. 3690-3696, (2013)