Add to ORKGAbstract: Micro electromechanical systems (MEMS) are finding uses in an increasing number of diverse applications. Currently the fabrication techniques used to produce such MEMS devices are primarily based on 2-D processing of thin films. The challenges faced by producing more complex structures (e.g. high aspect ratio, spans, and multi-material structures) require the development of new processing techniques. Potential solutions to these challenges based on low temperature processing of functional ceramics, selective chemical patterning, and micro-moulding are presented to show that it is possible to create complex functional ceramic structures which incorporate non-ceramic conducting and support structures. The capabilities of both techni...
The processing of ceramic nanopowders into components has been investigated via a series of research...
It has been proposed that miniaturization of modern day devices like motors, actuators, biological a...
A novel process, based on microextrusion of preceramic polymers, was developed for manufacturing cer...
Micro electromechanical systems (MEMS) are finding uses in an increasing number of diverse applicati...
Abstract. A short overview of the developments of functional materials featuring miniaturisation and...
Ceramic films are considered as key functional material in nano and microsystems technology. IKTS ha...
The development of high-strength, low-density ceramic components is a critical area of research in t...
Microelectromechanical systems (MEMS) is a rapidly growing field with numerous current and potential...
Ceramics oer many unique mechanical, thermal, electrical and chemical properties that make them idea...
Ceramics are attractive materials for engineering applications involving high temperatures and corro...
This paper broadly illustrates the preparation of previous three-dimensional shapes in low-temperatu...
Abstract: Most shaping processes for ceramics are based on a powder technological moulding process u...
Patterned ceramic films with constant thickness can be processed by a soft lithographic method. By ...
AbstractMicrostereolithography (MSL) is one of the solid free form fabrication (SFF) techniques whic...
Ceramics and polymers are attractive candidate materials for MEMS applications because of the wide r...
The processing of ceramic nanopowders into components has been investigated via a series of research...
It has been proposed that miniaturization of modern day devices like motors, actuators, biological a...
A novel process, based on microextrusion of preceramic polymers, was developed for manufacturing cer...
Micro electromechanical systems (MEMS) are finding uses in an increasing number of diverse applicati...
Abstract. A short overview of the developments of functional materials featuring miniaturisation and...
Ceramic films are considered as key functional material in nano and microsystems technology. IKTS ha...
The development of high-strength, low-density ceramic components is a critical area of research in t...
Microelectromechanical systems (MEMS) is a rapidly growing field with numerous current and potential...
Ceramics oer many unique mechanical, thermal, electrical and chemical properties that make them idea...
Ceramics are attractive materials for engineering applications involving high temperatures and corro...
This paper broadly illustrates the preparation of previous three-dimensional shapes in low-temperatu...
Abstract: Most shaping processes for ceramics are based on a powder technological moulding process u...
Patterned ceramic films with constant thickness can be processed by a soft lithographic method. By ...
AbstractMicrostereolithography (MSL) is one of the solid free form fabrication (SFF) techniques whic...
Ceramics and polymers are attractive candidate materials for MEMS applications because of the wide r...
The processing of ceramic nanopowders into components has been investigated via a series of research...
It has been proposed that miniaturization of modern day devices like motors, actuators, biological a...
A novel process, based on microextrusion of preceramic polymers, was developed for manufacturing cer...