Thixoforging is a type of semi-solid metal processing at high solid fraction (0.7<φs<1), which involves the processing of alloys in the semi-solid state.Tooling has to be adapted to this particular process to b...Thixoforging is a type of semi-solid metal processing at high solid fraction (0.7<φs<1), which involves the processing of alloys in the semi-solid state.Tooling has to be adapted to this particular process to benefit shear thinning and thixotropic behaviour of such semi-solid material.Tooling parameters, such as the forming speed and tool temperature, have to be accurately controlled because of their influence on thermal exchanges between material flow and tool.These thermal exchanges influence the high-cracking tendency and the rheology of the semi-solid material during forming, which affects parts properties and therefore their quality.Extrusion tests show how thermal exchanges influence quality of thixoforged parts made of 7075 aluminium alloys at high solid fraction by modifying process parameters like forming speed, tool temperature and tool thermal protector.Thus an optimum in terms of thermal exchanges has to be found between surface quality and mechanical properties of the part.A direct application is the evaluation of surface quality of thixoforged thin wall parts made of 7075 aluminium alloy.展开更多
Steel is a particularly challenging material to semi-solid process because of the high temperatures involved and the potential for surface oxidation.Here,the experience of semi-solid processing is reviewed and the cur...Steel is a particularly challenging material to semi-solid process because of the high temperatures involved and the potential for surface oxidation.Here,the experience of semi-solid processing is reviewed and the current situation in relation to commercial application is assessed.The review will include discussion of the range of potential steel materials which are amenable to thixoformingn and identification of suitable steels;modelling of die fill and rheological properties of semi solid steel;technology considerations for industrialisation;die development and the properties of thixoformed products.展开更多
The main goal of this work is to analyze the semi-industrial process of steel thixoforming.The process was carried out using industrial equipment.This equipment consists of a heating device,industrial robots and a hyd...The main goal of this work is to analyze the semi-industrial process of steel thixoforming.The process was carried out using industrial equipment.This equipment consists of a heating device,industrial robots and a hydraulic press.The globular microstructure ensuring thixotropic properties was obtained using the SIMA method.It is one of the simplest and cheapest methods which could be easy applied in the case of steel alloys.In this work,the hot forged rods,commercially produced from 100Cr6 steel,were used.The first part of the work concerned the determination of the proper temperature range,for thixoforming of 100Cr6 steel.Next,some heating tests were carried out in order to obtain as uniform temperature distribution as possible.Heating process was executed using inductive heating.Microstructure analysis of heated samples reveals globular particles surrounded by liquid phase.At last,the thixoforming process was carried out using closed-die forming technique.Completely filled die cavity and good microstructure of the part show that applied process parameters were properly selected.展开更多
Although thixoforming of low melting point alloys as aluminum or magnesium is now an industrial reality,thixoforming of high melting point alloys as steel is still at the research level.High working temperature,die we...Although thixoforming of low melting point alloys as aluminum or magnesium is now an industrial reality,thixoforming of high melting point alloys as steel is still at the research level.High working temperature,die wearing and production rate are problems that must be solved and are under investigation.The aim of this work is to evaluate the thermal and mechanical loadings applied to the tools during the steel thixoforging process in order to determine whether classical hot-work tool steel can be an appropriate tool material.This evaluation has been realized thanks to experimental trials and to simulations on the finite elements code Forge2008.The effect of the loadings on the tool's failure modes are highlighted and compared with the ones observed in classical hot forging.Beyond this,the failure modes of hot-work tool steel,the X38CrMoV5 or H11,were presented.展开更多
基金University of Liège,Walloon Region (First Europe Program Convention n°"NEP" 415824,THIXALU Project and MAGAL Project) and the COST 541 for their financial support
文摘Thixoforging is a type of semi-solid metal processing at high solid fraction (0.7<φs<1), which involves the processing of alloys in the semi-solid state.Tooling has to be adapted to this particular process to benefit shear thinning and thixotropic behaviour of such semi-solid material.Tooling parameters, such as the forming speed and tool temperature, have to be accurately controlled because of their influence on thermal exchanges between material flow and tool.These thermal exchanges influence the high-cracking tendency and the rheology of the semi-solid material during forming, which affects parts properties and therefore their quality.Extrusion tests show how thermal exchanges influence quality of thixoforged parts made of 7075 aluminium alloys at high solid fraction by modifying process parameters like forming speed, tool temperature and tool thermal protector.Thus an optimum in terms of thermal exchanges has to be found between surface quality and mechanical properties of the part.A direct application is the evaluation of surface quality of thixoforged thin wall parts made of 7075 aluminium alloy.
基金University of Liège,Belgium and EU COST 541 "ThixoSteel"
文摘Steel is a particularly challenging material to semi-solid process because of the high temperatures involved and the potential for surface oxidation.Here,the experience of semi-solid processing is reviewed and the current situation in relation to commercial application is assessed.The review will include discussion of the range of potential steel materials which are amenable to thixoformingn and identification of suitable steels;modelling of die fill and rheological properties of semi solid steel;technology considerations for industrialisation;die development and the properties of thixoformed products.
基金Projects(AGH-UST and IMMS-PAS,28.28.110.7006) supported by Polish Science Financial Resources for Years 2007-2010Project (COST Action 541) Supported by European Science Foundation
文摘The main goal of this work is to analyze the semi-industrial process of steel thixoforming.The process was carried out using industrial equipment.This equipment consists of a heating device,industrial robots and a hydraulic press.The globular microstructure ensuring thixotropic properties was obtained using the SIMA method.It is one of the simplest and cheapest methods which could be easy applied in the case of steel alloys.In this work,the hot forged rods,commercially produced from 100Cr6 steel,were used.The first part of the work concerned the determination of the proper temperature range,for thixoforming of 100Cr6 steel.Next,some heating tests were carried out in order to obtain as uniform temperature distribution as possible.Heating process was executed using inductive heating.Microstructure analysis of heated samples reveals globular particles surrounded by liquid phase.At last,the thixoforming process was carried out using closed-die forming technique.Completely filled die cavity and good microstructure of the part show that applied process parameters were properly selected.
基金the University of Liège,the First Europe Project,the COST541 action and the Walloon Region for their financial support
文摘Although thixoforming of low melting point alloys as aluminum or magnesium is now an industrial reality,thixoforming of high melting point alloys as steel is still at the research level.High working temperature,die wearing and production rate are problems that must be solved and are under investigation.The aim of this work is to evaluate the thermal and mechanical loadings applied to the tools during the steel thixoforging process in order to determine whether classical hot-work tool steel can be an appropriate tool material.This evaluation has been realized thanks to experimental trials and to simulations on the finite elements code Forge2008.The effect of the loadings on the tool's failure modes are highlighted and compared with the ones observed in classical hot forging.Beyond this,the failure modes of hot-work tool steel,the X38CrMoV5 or H11,were presented.
