mechdrive1
Mechanical
- May 26, 2016
- 71
Hello Everyone!
I am facing element distortion issue due to thermal conductance (high magnitude) between aluminum-steel surfaces.
The set-up of tool and workpiece is similar to friction stir-spot welding wherein tool is positioned on the top of two layers (aluminum & steel). The tool drills through the aluminum layer and interacts with the steel layer. Explicit thermo-mechanical step has been used in ABAQUS. C3D8RT element are used for all parts. JC damage law has been used for removing highly distorted elements from the aluminum layer. Contact pressure depended thermal conductance is specified between the two layers.
I have noticed in my simulations that using thermal conductance is causing element distortion at the interface, with the distortion being extremely random i.e. sometimes it occurs in aluminum layer and other times it occurs in steel layer. I was able to complete the simulation without specifying thermal conductance till the end but this has led to loss of thermal interaction at the interface of two layers which is crucial from thermal effect point of view.
I have two ideas to come around element distortion issue and also include thermal interaction:
1) Ensure that the two surfaces have the same temperature throughout the process by using a constrain.
2) Specify heat flux from aluminum layer to steel layer.
With respect to option 1, I have tried using 'tie' constrain which ties translational/rotational/thermal DOFs but severe element penetration and subsequent distortion has been observed. I have looked at documentation for some other way to tie the thermal DOF but there's nothing regarding Explicit procedure. I could only find the 'equation' constrain for abaqus/standard procedures.
I would request you to provide any suggestions regarding both of these options as to how I can either tie only temperature DOF of the two surfaces and/or how can heat flux, which is already calculated by ABAQUS, be specified from one surface to another?
Thanks,
Ankit
I am facing element distortion issue due to thermal conductance (high magnitude) between aluminum-steel surfaces.
The set-up of tool and workpiece is similar to friction stir-spot welding wherein tool is positioned on the top of two layers (aluminum & steel). The tool drills through the aluminum layer and interacts with the steel layer. Explicit thermo-mechanical step has been used in ABAQUS. C3D8RT element are used for all parts. JC damage law has been used for removing highly distorted elements from the aluminum layer. Contact pressure depended thermal conductance is specified between the two layers.
I have noticed in my simulations that using thermal conductance is causing element distortion at the interface, with the distortion being extremely random i.e. sometimes it occurs in aluminum layer and other times it occurs in steel layer. I was able to complete the simulation without specifying thermal conductance till the end but this has led to loss of thermal interaction at the interface of two layers which is crucial from thermal effect point of view.
I have two ideas to come around element distortion issue and also include thermal interaction:
1) Ensure that the two surfaces have the same temperature throughout the process by using a constrain.
2) Specify heat flux from aluminum layer to steel layer.
With respect to option 1, I have tried using 'tie' constrain which ties translational/rotational/thermal DOFs but severe element penetration and subsequent distortion has been observed. I have looked at documentation for some other way to tie the thermal DOF but there's nothing regarding Explicit procedure. I could only find the 'equation' constrain for abaqus/standard procedures.
I would request you to provide any suggestions regarding both of these options as to how I can either tie only temperature DOF of the two surfaces and/or how can heat flux, which is already calculated by ABAQUS, be specified from one surface to another?
Thanks,
Ankit