In this study, a temperature field finite element model of the thin-walled Ti6Al4V alloy component fabricated by double-wire tungsten arc welding-based wire arc additive manufacturing was established. Detailed heat propagation of the molten pool and the deposited layer was analysed systematically. The simulated results illustrate that the heat accumulation of the thin-walled Ti6Al4V alloy component becomes evident step by step as the deposition process proceeds. The height of the specified heat affect zone increases gradually, and then stabilises, and the stable value is ∼14 mm. The molten pool influences two deposition layers when it moves. The heat conduction from the thin-walled to the substrate still plays a major role as the layers are deposited.
DemirAG.Micro laser metal wire deposition for additive manufacturing of thin-walled structures. Opt Lasers Eng. 2018; 100:9–17.
2.
CaoJ, GharghouriMA, NashP.Finite-element analysis and experimental validation of thermal residual stress and distortion in electron beam additive manufactured Ti-6Al-4V build plates. J Mater Process Technol. 2016; 237:409–419.
3.
CunninghamCR, FlynnJM, ShokraniA, Invited review article: strategies and processes for high quality wire arc additive manufacturing. Addit Manuf. 2018; 22:672–686.
4.
PanchagnulaJS, SimhambhatlaS.Manufacture of complex thin-walled metallic objects using weld-deposition based additive manufacturing. Robot Comput Integr Manuf. 2018; 49:194–203.
5.
XiongJ, ShiM, LiuY, Virtual binocular vision sensing and control of molten pool width for gas metal arc additive manufactured thin-walled components. Addit Manufacturing. 2020; 33:101121.
WuB, PanZ, DingD, A review of the wire arc additive manufacturing of metals: properties, defects and quality improvement. J Manuf Process. 2018; 35:127–139.
8.
DingD, PanZ, CuiuriD, Wire-feed additive manufacturing of metal components: technologies, developments and future interests. Int J Adv Manuf Technol. 2015; 81:465–481.
9.
JinW, ZhangC, JinS, Wire arc additive manufacturing of stainless steels: a review. Appl Sci. 2020; 10(5):1563.
10.
GokhaleNP, KalaP, SharmaV.Thin-walled metal deposition with GTAW welding-based additive manufacturing process. J Brazil Soc Mech Sci Eng. 2019; 41(12):1–12.
11.
WuB, DingD, PanZ, Effects of heat accumulation on the arc characteristics and metal transfer behavior in wire arc additive manufacturing of Ti6Al4V. J Mater Process Technol. 2017; 250:304–312.
12.
WangX, WangA, LiY.Study on the deposition accuracy of omni-directional GTAW-based additive manufacturing. J Mater Process Technol. 2020; 282:116649.
13.
YuanT, YuZ, ChenS, Loss of elemental Mg during wire+ arc additive manufacturing of Al-Mg alloy and its effect on mechanical properties. J Manuf Process. 2020; 49:456–462.
14.
GengH, LiJ, XiongJ, Optimisation of wire feed for GTAW based additive manufacturing. J Mater Process Technol. 2017; 243:40–47.
15.
DebRoyT, WeiHL, ZubackJS, Additive manufacturing of metallic components–process, structure and properties. Prog Mater Sci. 2018; 92:112–224.
16.
DebRoyT, MukherjeeT, WeiHL, Metallurgy, mechanistic models and machine learning in metal printing. Nature Rev Mater. 2020; 6:48–68.
17.
QiZ, CongB, QiB, Microstructure and mechanical properties of double-wire+ arc additively manufactured Al-Cu-Mg alloys. J Mater Process Technol. 2018; 255:347–353.
18.
WangJ, PanZ, WeiL, Introduction of ternary alloying element in wire arc additive manufacturing of titanium aluminide intermetallic. Addit Manufacturing. 2019; 27:236–245.
19.
KumarSM, KannanAR, KumarNP, Microstructural features and mechanical integrity of wire arc additive manufactured SS321/inconel 625 functionally gradient material. J Mater Eng Perform. 2021; 30:5692–5703.
20.
WuB, PanZ, ChenG, Mitigation of thermal distortion in wire arc additively manufactured Ti6Al4V part using active interpass cooling. Sci Technol Weld Joining. 2019; 24(5):484–494.
21.
WeiHL, MukherjeeT, ZhangW, Mechanistic models for additive manufacturing of metallic components. Prog Mater Sci. 2020; 116:100703.
22.
LuX, LiMV, YangH.Simulation of precipitates evolution driven by non-isothermal cyclic thermal history during wire and arc additive manufacturing of IN718 superalloy. J Manuf Process. 2021; 65:258–270.
23.
WuB, PanZ, ChenG, Mitigation of thermal distortion in wire arc additively manufactured Ti6Al4V part using active interpass cooling. Sci & Technol Weld & Joi. 2019; 24:484–494.
24.
GokhaleNP, KalaP.Thermal analysis of TIG-WAAM based metal deposition process using finite element method. Materials Today: Proceedings. 2020; 44:453–459.
25.
SunJ, HenselJ, KöhlerM, Residual stress in wire and arc additively manufactured aluminum components. J Manuf Process. 2021; 65:97–111.
26.
ZhangG, ChenX, CaiY, Microstructure and mechanical properties of Ti-3Al-2V alloy by dual wire+ arc additive manufacturing. Mater Lett. 2021; 299:130109.
27.
HuangW, ZhangY.Finite element simulation of thermal behavior in single-track multiple-layers thin wall without-support during selective laser melting. J Manuf Process. 2019; 42:139–148.
28.
YangSH, TaoWQ.Heat transfer. Beijing. Higher Education Press; 2005. p. 41–43.
29.
CoppaP, ConsortiA.Normal emissivity of samples surrounded by surfaces at diverse temperatures. Measurement (Mahwah, NJ). 2005; 38(2):124–131.
30.
FangX, ZhangL, YangJ, Effect of characteristic substrate parameters on the deposition geometry of CMT additive manufactured Al-6.3% Cu alloy. Appl Therm Eng. 2019; 162:114302.
31.
GoldakJ, ChakravartiA, BibbyM.A new finite element model for welding heat sources. Metall Trans B. 1984; 15(2):299–305.
32.
GoncalvesCV, VilarinhoLO, ScottiA, Estimation of heat source and thermal efficiency in GTAW process by using inverse techniques. J Mater Process Technol. 2006; 172(1):42–51.
33.
XiongJ, LiR, LeiY, Heat propagation of circular thin-walled parts fabricated in additive manufacturing using gas metal arc welding. J Mater Process Technol. 2018; 251:12–19.
34.
BaiX, ColegroveP, DingJ, Numerical analysis of heat transfer and fluid flow in multilayer deposition of PAW-based wire and arc additive manufacturing. Int J Heat Mass Transfer. 2018; 124:504–516.
35.
MartinaF, ColegroveAP, WilliamsWS, Microstructure of interpass rolled wire+ arc additive manufacturing Ti-6Al-4V components. Metall Mater Trans A. 2015; 46(12):6103–6118.
