Add to ORKGMicro-dispensing allows electric circuits to be 3D printed, which can be used to give 3D printed systems electronic and electromagnetic functionality. The focus of this thesis is using micro-dispensing to fabricate capacitors and inductors. 3D printed impedance elements are capable of being more easily embedded, can be used to create structural electronics, and will have extensive applications in antennas, metamaterials, frequency selective surfaces, and more. This is the first known effort to print and measure impedance elements by micro-dispensing which holds great potential for manufacturing multi-material devices
The need for personalised and smart products drives the development of structural electronics with m...
\u3cp\u3eThe need for personalised and smart products drives the development of structural electroni...
Recent research has focused on the fabrication freedom of 3D printing to not only create conceptual...
Micro-dispensing allows electric circuits to be 3D printed, which can be used to give 3D printed s...
3D printing has garnered immense attention from many fields including in-office rapid prototyping of...
3D printing has garnered immense attention from many fields including in-office rapid prototyping of...
In the last years, additive manufacturing technologies have been widely implemented in the productio...
There has been a considerable recent interest in the screen-printing electrodes owing to their promi...
Recent advances in additive manufacturing technologies present opportunities for rethinking the des...
Realizing electronic systems that are conformal with curved or complex surfaces is difficult if not ...
Realizing electronic systems that are conformal with curved or complex surfaces is difficult if not ...
As additive manufacturing becomes increasingly ubiquitous in academia and industry, there is a growi...
Recent advances in additive manufacturing technologies present opportunities for rethinking the des...
As additive manufacturing becomes increasingly ubiquitous in academia and industry, there is a growi...
The need for personalised and smart products drives the development of structural electronics with m...
The need for personalised and smart products drives the development of structural electronics with m...
\u3cp\u3eThe need for personalised and smart products drives the development of structural electroni...
Recent research has focused on the fabrication freedom of 3D printing to not only create conceptual...
Micro-dispensing allows electric circuits to be 3D printed, which can be used to give 3D printed s...
3D printing has garnered immense attention from many fields including in-office rapid prototyping of...
3D printing has garnered immense attention from many fields including in-office rapid prototyping of...
In the last years, additive manufacturing technologies have been widely implemented in the productio...
There has been a considerable recent interest in the screen-printing electrodes owing to their promi...
Recent advances in additive manufacturing technologies present opportunities for rethinking the des...
Realizing electronic systems that are conformal with curved or complex surfaces is difficult if not ...
Realizing electronic systems that are conformal with curved or complex surfaces is difficult if not ...
As additive manufacturing becomes increasingly ubiquitous in academia and industry, there is a growi...
Recent advances in additive manufacturing technologies present opportunities for rethinking the des...
As additive manufacturing becomes increasingly ubiquitous in academia and industry, there is a growi...
The need for personalised and smart products drives the development of structural electronics with m...
The need for personalised and smart products drives the development of structural electronics with m...
\u3cp\u3eThe need for personalised and smart products drives the development of structural electroni...
Recent research has focused on the fabrication freedom of 3D printing to not only create conceptual...