The Deposition (Pieta) at the Museo Dell'Opera del Duomo in Florence, Italy
Source: MyMiniFactory by Scan The World
The The Deposition (Pieta) at the Museo Dell'Opera del Duomo in Florence, Italy is a free printable 3D model from MyMiniFactory by Scan The World. The Deposition (also called the Florence Pietà, the Bandini Pietà orThe Lamentation over the Dead Christ) is a marble sculpture by the Italian High Renaissance master Michelangelo. You can download the STL file from the original listing below and print it at home.
About this model
The Deposition (also called the Florence Pietà, the Bandini Pietà orThe Lamentation over the Dead Christ) is a marble sculpture by the Italian High Renaissance master Michelangelo. The sculpture, on which Michelangelo worked between 1547 and 1553, depicts four figures – the dead body of Jesus Christ, newly taken down from the Cross, Nicodemus (or possibly Joseph of Arimathea), Mary Magdalene and the Virgin Mary. The sculpture is housed in the Museo dell'Opera del Duomoin Florence. According to Vasari, Michelangelo made the Florence Pietà to decorate his tomb in Santa Maria Maggiore in Rome. Vasari noted that Michelangelo began to work on the sculpture around the age of 72. Without commission, Michelangelo worked tirelessly into the night with just a single candle to illuminate his work. Va…
Frequently asked questions
- Is this 3D model free to download?
- Yes. The Deposition (Pieta) at the Museo Dell'Opera del Duomo in Florence, Italy is free to download from MyMiniFactory. Click the "Download free STL" button above to open the original listing.
- Where is the STL hosted?
- The download is hosted by MyMiniFactory, not by Thinger. We link you directly to the original listing by Scan The World.
- Who made this model?
- Designed by Scan The World, published on MyMiniFactory. Please credit the creator when sharing your print online.
- Can I print this at home?
- Yes. This model is intended for home FDM and resin 3D printers. Check the original listing for suggested print settings like layer height and supports.