This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
This was part of a large a research project for Larry Sass. I developed a method for interlocking friction-fit, 3d printed bricks that would allow for nonstandard geometry while still creating a reliable connection and have a fairly simple assembly process.
gLike
Interlocking Wall