Add to ORKGAdditive manufacturing has been combined with commercially available RF materials to synthesize composite materials whose relative permittivity can be controlled. A design equation for predicting the effective permittivity of these composite materials has also been presented. The relative permittivity of the composite materials was measured by fabricating patch antennas using these materials as the substrate. It has been demonstrated that by using Taconic, PLA and air, three materials with different dielectric constants, a large and nearly continuous range of relative permittivity values, from 1.47 to 6.00, can be realised
This paper proposes closed-form analytical models for the determination of the effective relative pe...
Fused filament fabrication (FFF) is a continuously growing additive manufacturing technology that as...
Additive manufacturing (AM) has become more important and common in recent years. Advantages of AM i...
Additive manufacturing has been combined with commercially available RF materials to synthesize comp...
Additive manufacturing has been combined with commercially available RF materials to synthesize comp...
This thesis has focussed on the properties and manufacturing techniques of artificial RF materials. ...
This thesis has focussed on the properties and manufacturing techniques of artificial RF materials. ...
This thesis has focussed on the properties and manufacturing techniques of artificial RF materials. ...
Transformation optics (TO) allows the design of new optical devices for the novel manipulation of el...
Additive manufacturing offers new possibilities in innovative antennas and microwave components. In ...
Fused filament fabrication (FFF) is a continuously growing additive manufacturing technology that as...
This thesis describes my work on manufacturing of all dielectric polymer/ceramic composites for elec...
Composites offer a way to design electromagnetic properties simultaneously with other material prope...
The paper presents the analysis and fabrication of artificial materials with metallic cuboid inclusi...
Additive manufacturing (AM) has proved effective in rapidly prototyping passive RF and microwave dev...
This paper proposes closed-form analytical models for the determination of the effective relative pe...
Fused filament fabrication (FFF) is a continuously growing additive manufacturing technology that as...
Additive manufacturing (AM) has become more important and common in recent years. Advantages of AM i...
Additive manufacturing has been combined with commercially available RF materials to synthesize comp...
Additive manufacturing has been combined with commercially available RF materials to synthesize comp...
This thesis has focussed on the properties and manufacturing techniques of artificial RF materials. ...
This thesis has focussed on the properties and manufacturing techniques of artificial RF materials. ...
This thesis has focussed on the properties and manufacturing techniques of artificial RF materials. ...
Transformation optics (TO) allows the design of new optical devices for the novel manipulation of el...
Additive manufacturing offers new possibilities in innovative antennas and microwave components. In ...
Fused filament fabrication (FFF) is a continuously growing additive manufacturing technology that as...
This thesis describes my work on manufacturing of all dielectric polymer/ceramic composites for elec...
Composites offer a way to design electromagnetic properties simultaneously with other material prope...
The paper presents the analysis and fabrication of artificial materials with metallic cuboid inclusi...
Additive manufacturing (AM) has proved effective in rapidly prototyping passive RF and microwave dev...
This paper proposes closed-form analytical models for the determination of the effective relative pe...
Fused filament fabrication (FFF) is a continuously growing additive manufacturing technology that as...
Additive manufacturing (AM) has become more important and common in recent years. Advantages of AM i...