Abstract Background 3D printing of anatomical models requires multi-factorial decision making for optimal model manufacturing. Due to the complex nature of the printing process, there are frequently multiple potentialities based on the desired end goal. The task of identifying the most optimal combination of print control variables is inherently subjective and rests on sound operator intuition. This study investigates the effect of orientation, layer and support settings on print time and material usage. This study also presents a quantitative optimization framework to jointly optimize print time and material usage as a function of those settings for multi-pathological anatomical models. Methods Seven anatomical models representing differen...
Fused Deposition Modeling (FDM)-type 3D printing is exploding in popularity and is the fastest growi...
This project addresses the lack of study in term of pre-planning or pre-processing of 3D product in ...
Nowadays, making use of additive manufacturing (AM) processes such as fused deposition modeling (FDM...
The use of digital fabrication (or, 3D printing) has been rapidly expanding in the past couple of ye...
In three-dimensional (3D) printing, due to the geometry of most parts, it is necessary to use extra ...
Dimensional printing object to produce accurate geometry in accordance with the planned. The process...
Fused deposition modeling (FDM) is the most economical additive manufacturing (AM) technology availa...
Fused Deposition Modeling (FDM) three-dimensional (3D) printing is the most studied method compared ...
In three-dimensional (3D) printing, due to the geometry of most parts, it is necessary to use extra ...
Though the field of 3D printing has seen substantial innovation since its inception, printing speeds...
The present study aimed to analyze how the printing process affects the final state of a printed pha...
Additive manufacturing (AM) has rapidly emerged as a disruptive technology to build mechanical parts...
Although additive manufacturing (AM) offers great potential to revolutionize modern manufacturing, i...
Additive manufacturing (AM) technologies have been evolved over the last decade, enabling engineers ...
<div><p>Additive manufacturing (AM) has rapidly emerged as a disruptive technology to build mechanic...
Fused Deposition Modeling (FDM)-type 3D printing is exploding in popularity and is the fastest growi...
This project addresses the lack of study in term of pre-planning or pre-processing of 3D product in ...
Nowadays, making use of additive manufacturing (AM) processes such as fused deposition modeling (FDM...
The use of digital fabrication (or, 3D printing) has been rapidly expanding in the past couple of ye...
In three-dimensional (3D) printing, due to the geometry of most parts, it is necessary to use extra ...
Dimensional printing object to produce accurate geometry in accordance with the planned. The process...
Fused deposition modeling (FDM) is the most economical additive manufacturing (AM) technology availa...
Fused Deposition Modeling (FDM) three-dimensional (3D) printing is the most studied method compared ...
In three-dimensional (3D) printing, due to the geometry of most parts, it is necessary to use extra ...
Though the field of 3D printing has seen substantial innovation since its inception, printing speeds...
The present study aimed to analyze how the printing process affects the final state of a printed pha...
Additive manufacturing (AM) has rapidly emerged as a disruptive technology to build mechanical parts...
Although additive manufacturing (AM) offers great potential to revolutionize modern manufacturing, i...
Additive manufacturing (AM) technologies have been evolved over the last decade, enabling engineers ...
<div><p>Additive manufacturing (AM) has rapidly emerged as a disruptive technology to build mechanic...
Fused Deposition Modeling (FDM)-type 3D printing is exploding in popularity and is the fastest growi...
This project addresses the lack of study in term of pre-planning or pre-processing of 3D product in ...
Nowadays, making use of additive manufacturing (AM) processes such as fused deposition modeling (FDM...