In this paper a comparative analysis of coating-substrate simulations applied to HFQTM forming tools is presented. When using the solution heat treatment cold die forming and quenching process, known as HFQTM, for forming of hardened aluminium alloy of automotive panel parts, coating-substrate-systems have to satisfy unique requirements. Numerical experiments, based on the Advanced Adaptive FE method, will finally present
Forming tools are subjected to high mechanical and thermal loads. Abrasive workpiece materials can c...
Metal sheet forming processes like deep drawing are applied in order to produce carriage parts in ma...
The objective of this thesis is to develop and evaluate numerical methods for modelling and simulati...
In this paper a comparative analysis of coating-substrate simulations applied to HFQTM forming tools...
An FE model of the solution heat treatment, forming and in-die quenching (HFQ) process was developed...
AbstractAn FE model of the solution heat treatment, forming and in-die quenching (HFQ) process was d...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
Due to high thermal and mechanical loads for high security-related aluminium parts new coatings must...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
The need for FE-simulation and the occurring work packages during optimization of coated forming too...
Aluminum is an ideal material for light transport applications. Despite the obvious advantages in we...
In this paper the current state of numerical simulation techniques in industrial coating technology,...
Forming tools are subjected to high mechanical and thermal loads. Abrasive workpiece materials can c...
Metal sheet forming processes like deep drawing are applied in order to produce carriage parts in ma...
The objective of this thesis is to develop and evaluate numerical methods for modelling and simulati...
In this paper a comparative analysis of coating-substrate simulations applied to HFQTM forming tools...
An FE model of the solution heat treatment, forming and in-die quenching (HFQ) process was developed...
AbstractAn FE model of the solution heat treatment, forming and in-die quenching (HFQ) process was d...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
Due to high thermal and mechanical loads for high security-related aluminium parts new coatings must...
In this paper a comparative analysis of failure prediction when using the solution heat treatment co...
The need for FE-simulation and the occurring work packages during optimization of coated forming too...
Aluminum is an ideal material for light transport applications. Despite the obvious advantages in we...
In this paper the current state of numerical simulation techniques in industrial coating technology,...
Forming tools are subjected to high mechanical and thermal loads. Abrasive workpiece materials can c...
Metal sheet forming processes like deep drawing are applied in order to produce carriage parts in ma...
The objective of this thesis is to develop and evaluate numerical methods for modelling and simulati...
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