Finite element modeling of continuous drive friction welding of Al6061 alloy

Mohammed A. Tashkandi

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Finite element modeling of continuous drive friction welding of Al6061 alloy

Mohammed A. Tashkandi

| 30 maj 2021

Materials Science-Poland

Tom 39 (2021): Zeszyt 1 (March 2021)

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Data publikacji: 30 maj 2021

Zakres stron: 1 - 14

Otrzymano: 26 sty 2021

Przyjęty: 21 lut 2021

DOI: https://doi.org/10.2478/msp-2021-0001

Słowa kluczowe
Continuous drive friction welding, FEM, COMSOL, aluminum 6061

© 2021 Mohammed A. Tashkandi, published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

2D axisymmetric geometry of the workpiece.

a) the number of elements and fineness of the mesh and, b) convergence plot of the size of elements.

The two parts to be welded before welding.

Variation of the phase change coefficient as a function of the temperature of aluminum 6061.

Variation in the specific heat capacity of AA6061 as a function of temperature.

Variation in the density of AA6061 as a function of temperature.

Variation in the thermal conductivity of AA6061 as a function of temperature.

Modeled process parameters for tf = 10 s.

Fig. 11

The temperature profile for the 12 s friction time.

Temperature profiles for different friction times; 4, 5, and 6 s, respectively.

Fig. 13

The temperature profile for 9 and 10 s friction times.

Welding flash formation at different friction times; these are 4, 5, 6, 9, and 10 s, respectively.

Fig. 15

Temperature profile at the contact zone at t = 0 s.

Fig. 16

Temperature profile at the contact zone at t = 1 s.

Fig. 17

Temperature profile at the contact zone at t = 5 s.

Fig. 18

The temperature profile at the contact zone at t = 10 and 11 s.

Al6061 material properties for phase-change simulation. [16]

Property	Value
T_trans [K]	925.15
δT [K]	50
Δh_f [kJ/kg]	380
ρ_solid [kg/m³]	2705
ρ_liquid [kg/m³]	2415
C_p,solid [J/kg·K]	870
C_p,liquid [J/kg·K]	1170
κ_solidus [W/m·K]	66.5
κ_liquid [W/m·K]	90

CDFW process parameters.

Process Parameter	Value / range
Rotational Speed (rpm)	2000
Friction Pressure (MPa)	21
Friction time (s)	4, 5, 6, 9, 10, 12

FEM boundary conditions.

Model	Feature	Boundary Condition
Solid Mechanics	The central axis of the parts	Axial Symmetry
	The outer surfaces of the parts	Free to deform
	The Entire model	Zero initial displacement
	The rotating part	Rigid motion suppression
	The end of the fixed part	Axial load

Heat Transfer	T = 305 K	Initial temperature
	The central axis of the parts	Axial symmetry
	The outer surfaces of the parts	Heat flux according to q₀ = h · (T_ext − T)

Welding Parameters	Rotation	0 s to t_f = rotation speed, otherwise zero
Welding Parameters	Pressure	0 s to t_f = applied pressure, otherwise zero

Chemical composition in weight percent of Al6061.

Element	Si	Fe	Cu	Mn	Mg	Zn	Cr	Ti	Al
Wt%	0.75	0.5	0.5	0.15	0.9	0.03	0.03	0.05	Rest

eISSN:: 2083-134X
Język:: Angielski

Częstotliwość wydawania:: 4 razy w roku
Dziedziny czasopisma:: Materials Sciences, other, Nanomaterials, Functional and Smart Materials, Materials Characterization and Properties

Kanał RSS czasopisma

Finite element modeling of continuous drive friction welding of Al6061 alloy

Data publikacji: 30 maj 2021

Zakres stron: 1 - 14

Otrzymano: 26 sty 2021

Przyjęty: 21 lut 2021

DOI: https://doi.org/10.2478/msp-2021-0001

Słowa kluczowe
Continuous drive friction welding, FEM, COMSOL, aluminum 6061

© 2021 Mohammed A. Tashkandi, published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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