Experimenting with contrasting textures in porcelain, fall 2018.
Experimenting with contrasting textures in porcelain, fall 2018.
High resolution clay printing with locally sourced material, summer 2018.
High resolution clay printing with locally sourced material, summer 2018.
Study model with shingled/scaled texture, summer 2018.
Study model with shingled/scaled texture, summer 2018.
Object in progress, assembled from multiple printed sections, summer 2018.
Object in progress, assembled from multiple printed sections, summer 2018.
Our D.I.Y. clay printer design as it looked in the summer of 2018. Assembled from extruded aluminum, custom sheet metal forms, and various electronics.
Our D.I.Y. clay printer design as it looked in the summer of 2018. Assembled from extruded aluminum, custom sheet metal forms, and various electronics.
Revisiting a step texture inspired by stepwells found in India, summer 2018.
Revisiting a step texture inspired by stepwells found in India, summer 2018.
Object in process showing infill material pattern and wall thickness, spring 2018.
Object in process showing infill material pattern and wall thickness, spring 2018.
Experimenting with high resolution clay extrusion - approx. 0.50mm diameter, spring 2018.
Experimenting with high resolution clay extrusion - approx. 0.50mm diameter, spring 2018.
Mobile clay printer air pressure adjustment, fall 2017.
Mobile clay printer air pressure adjustment, fall 2017.
Tiny high resolution objects printed via the SLA process using a high cost material called Porcelite, fall 2018.
Tiny high resolution objects printed via the SLA process using a high cost material called Porcelite, fall 2018.
Our D.I.Y. Mobile Makerspace on site at the Mont Alto Commonwealth campus of Penn State University, fall 2017.
Our D.I.Y. Mobile Makerspace on site at the Mont Alto Commonwealth campus of Penn State University, fall 2017.
Objects in process and in relation, fall 2017.
Objects in process and in relation, fall 2017.
A partial view of some of the hundreds of printed and milled components we have utilized in our clay printer design since we first began experimenting with clay printing in the fall of 2015.
A partial view of some of the hundreds of printed and milled components we have utilized in our clay printer design since we first began experimenting with clay printing in the fall of 2015.
A partial view of some of the machine components and print tests that accumulate in the studio, fall 2017.
A partial view of some of the machine components and print tests that accumulate in the studio, fall 2017.
Clay deposit at a construction site. Local clay abounds nearly everywhere - we continue to investigate local clays.
Clay deposit at a construction site. Local clay abounds nearly everywhere - we continue to investigate local clays.
Experimenting with a range of motors, motor drivers, and electronics components. A snapshot of some of the components used in 2017.
Experimenting with a range of motors, motor drivers, and electronics components. A snapshot of some of the components used in 2017.
Possible patterns and textures overlaid on a found drawing from a textbook, fall 2016.
Possible patterns and textures overlaid on a found drawing from a textbook, fall 2016.
An earlier iteration of our clay printer as it appeared in fall of 2016.
An earlier iteration of our clay printer as it appeared in fall of 2016.
CNC milling printer components out of plywood, summer 2016.
CNC milling printer components out of plywood, summer 2016.
Our first successful experiments with mechanical feed clay printing in the spring of 2016.
Our first successful experiments with mechanical feed clay printing in the spring of 2016.
Early prints prepared for an exhibition in spring 2016.
Early prints prepared for an exhibition in spring 2016.
An object with an opening in it, a significant milestone in the early days of our printing experiments, spring 2016.
An object with an opening in it, a significant milestone in the early days of our printing experiments, spring 2016.
An earlier iteration of our clay printer that relied on air compression to move the material, spring 2016.
An earlier iteration of our clay printer that relied on air compression to move the material, spring 2016.
One of our first successful prints in clay, fall 2015.
One of our first successful prints in clay, fall 2015.
Our first attempts at extruding clay with an extruder we designed based on open source precedents available online, fall 2015.
Our first attempts at extruding clay with an extruder we designed based on open source precedents available online, fall 2015.
Our first extruder design, utilizing a cake frosting tip and a deck screw - both of which we are still using as of late 2018, pictured here in fall 2015.
Our first extruder design, utilizing a cake frosting tip and a deck screw - both of which we are still using as of late 2018, pictured here in fall 2015.
Experimenting with contrasting textures in porcelain, fall 2018.
Experimenting with contrasting textures in porcelain, fall 2018.
High resolution clay printing with locally sourced material, summer 2018.
High resolution clay printing with locally sourced material, summer 2018.
Study model with shingled/scaled texture, summer 2018.
Study model with shingled/scaled texture, summer 2018.
Object in progress, assembled from multiple printed sections, summer 2018.
Object in progress, assembled from multiple printed sections, summer 2018.
Our D.I.Y. clay printer design as it looked in the summer of 2018. Assembled from extruded aluminum, custom sheet metal forms, and various electronics.
Our D.I.Y. clay printer design as it looked in the summer of 2018. Assembled from extruded aluminum, custom sheet metal forms, and various electronics.
Revisiting a step texture inspired by stepwells found in India, summer 2018.
Revisiting a step texture inspired by stepwells found in India, summer 2018.
Object in process showing infill material pattern and wall thickness, spring 2018.
Object in process showing infill material pattern and wall thickness, spring 2018.
Experimenting with high resolution clay extrusion - approx. 0.50mm diameter, spring 2018.
Experimenting with high resolution clay extrusion - approx. 0.50mm diameter, spring 2018.
Mobile clay printer air pressure adjustment, fall 2017.
Mobile clay printer air pressure adjustment, fall 2017.
Tiny high resolution objects printed via the SLA process using a high cost material called Porcelite, fall 2018.
Tiny high resolution objects printed via the SLA process using a high cost material called Porcelite, fall 2018.
Our D.I.Y. Mobile Makerspace on site at the Mont Alto Commonwealth campus of Penn State University, fall 2017.
Our D.I.Y. Mobile Makerspace on site at the Mont Alto Commonwealth campus of Penn State University, fall 2017.
Objects in process and in relation, fall 2017.
Objects in process and in relation, fall 2017.
A partial view of some of the hundreds of printed and milled components we have utilized in our clay printer design since we first began experimenting with clay printing in the fall of 2015.
A partial view of some of the hundreds of printed and milled components we have utilized in our clay printer design since we first began experimenting with clay printing in the fall of 2015.
A partial view of some of the machine components and print tests that accumulate in the studio, fall 2017.
A partial view of some of the machine components and print tests that accumulate in the studio, fall 2017.
Clay deposit at a construction site. Local clay abounds nearly everywhere - we continue to investigate local clays.
Clay deposit at a construction site. Local clay abounds nearly everywhere - we continue to investigate local clays.
Experimenting with a range of motors, motor drivers, and electronics components. A snapshot of some of the components used in 2017.
Experimenting with a range of motors, motor drivers, and electronics components. A snapshot of some of the components used in 2017.
Possible patterns and textures overlaid on a found drawing from a textbook, fall 2016.
Possible patterns and textures overlaid on a found drawing from a textbook, fall 2016.
An earlier iteration of our clay printer as it appeared in fall of 2016.
An earlier iteration of our clay printer as it appeared in fall of 2016.
CNC milling printer components out of plywood, summer 2016.
CNC milling printer components out of plywood, summer 2016.
Our first successful experiments with mechanical feed clay printing in the spring of 2016.
Our first successful experiments with mechanical feed clay printing in the spring of 2016.
Early prints prepared for an exhibition in spring 2016.
Early prints prepared for an exhibition in spring 2016.
An object with an opening in it, a significant milestone in the early days of our printing experiments, spring 2016.
An object with an opening in it, a significant milestone in the early days of our printing experiments, spring 2016.
An earlier iteration of our clay printer that relied on air compression to move the material, spring 2016.
An earlier iteration of our clay printer that relied on air compression to move the material, spring 2016.
One of our first successful prints in clay, fall 2015.
One of our first successful prints in clay, fall 2015.
Our first attempts at extruding clay with an extruder we designed based on open source precedents available online, fall 2015.
Our first attempts at extruding clay with an extruder we designed based on open source precedents available online, fall 2015.
Our first extruder design, utilizing a cake frosting tip and a deck screw - both of which we are still using as of late 2018, pictured here in fall 2015.
Our first extruder design, utilizing a cake frosting tip and a deck screw - both of which we are still using as of late 2018, pictured here in fall 2015.
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