Add to ORKGVacuum venting has been reported to be an effective technique in replicating microfeatures by micro injection moulding. High surface-to-volume ratio and reduced dimensions of micro-parts promote the instantaneous drop of melt temperature and consequently lead to incomplete filling. This study aims to investigate the effects of variotherm process, cavity evacuation and their interaction on the production of a microfluidic filter for biomedical applications, revealed the importance of these moulding technologies in enhancing part filling and the replication quality for high aspect ratio features
The achievement of an adequate accuracy of the microinjection molding process applied to the replica...
Mass production of micro-structured surfaces has gain great interest for optical and micro fluidic d...
Parts with microstructure arrays have been widely used in biotechnologies and optical technologies, ...
Vacuum venting has been reported to be an effective technique in replicating microfeatures by micro ...
The aspect ratio achievable in replicating micro features is one of the most important process chara...
The aspect ratio achievable in replicating micro features is one of the most important proceb charac...
Vacuum venting is a method proposed to improve feature replication in microparts that are fabricated...
Micro injection molding is a key technology for mass-production of micro-structured surfaces, such a...
Microinjection molding (μIM) is a fast-developing technology which is used to produce polymeric micr...
The application of vacuum venting for the removal of air from mould cavity has been introduced in in...
The application of vacuum venting for the evacuation of air from the mould cavity has been introduce...
Micro injection molding enables the manufacture of micro-scale features with good accuracy at high p...
Process monitoring of microinjection molding (µ-IM) is of crucial importance in understanding the ef...
We study injection molding of mesoscale items with µm-scale surface features, namely micro-fluidic c...
The complete and uniform replication of micro-structured functional surfaces is still challenging, e...
The achievement of an adequate accuracy of the microinjection molding process applied to the replica...
Mass production of micro-structured surfaces has gain great interest for optical and micro fluidic d...
Parts with microstructure arrays have been widely used in biotechnologies and optical technologies, ...
Vacuum venting has been reported to be an effective technique in replicating microfeatures by micro ...
The aspect ratio achievable in replicating micro features is one of the most important process chara...
The aspect ratio achievable in replicating micro features is one of the most important proceb charac...
Vacuum venting is a method proposed to improve feature replication in microparts that are fabricated...
Micro injection molding is a key technology for mass-production of micro-structured surfaces, such a...
Microinjection molding (μIM) is a fast-developing technology which is used to produce polymeric micr...
The application of vacuum venting for the removal of air from mould cavity has been introduced in in...
The application of vacuum venting for the evacuation of air from the mould cavity has been introduce...
Micro injection molding enables the manufacture of micro-scale features with good accuracy at high p...
Process monitoring of microinjection molding (µ-IM) is of crucial importance in understanding the ef...
We study injection molding of mesoscale items with µm-scale surface features, namely micro-fluidic c...
The complete and uniform replication of micro-structured functional surfaces is still challenging, e...
The achievement of an adequate accuracy of the microinjection molding process applied to the replica...
Mass production of micro-structured surfaces has gain great interest for optical and micro fluidic d...
Parts with microstructure arrays have been widely used in biotechnologies and optical technologies, ...