Digital Light Processing and Stereolithography Additive Manufacturing: Fundamentals, Applications, and Trends overviews these cutting-edge 3D-printing techniques, the materials they can produce, and applications for these techniques and materials. Sections cover the fundamentals, with chapters discussing the core principles of vat photopolymerization, related technological requirements, the characteristics of digital light processing (DLP) and stereolithography (SL) compared to other light-induced methods, as well as the chemistry and materials used, including how to formulate a resin. Section two covers applications, such as design for structural applications, as well as DLP and SL use in dentistry, soft robotics, sensors, biomedicine, microfluidics, catalysis and chemical engineering, and more.
The book concludes with a section discussing current trends and future directions for the technology, with chapters analyzing sustainable materials, including efforts to substitute synthetic materials with bio-based ones, vitrimers, controlled polymers, and 4D printing and DLP and SL in hybrid AM.
Covers the fundamental aspects of digital light processing (DLP) and stereolithographic (SL) additive manufacturing (AM), including chemical approaches, technical parameters, guidelines to compound printable inks, and the pros and cons of these methods compared to others
Features various applications of the methods and materials produced
Discusses sustainable materials, 4D printing, and hybrid manufacturing
Ignazio Roppolo is Tenure- Track Assistant Professor in Experimental Physics of Matter at Politecnico di Torino, Turin, Italy. He is leader of a laboratory specifically focused on light-induced 3D printing. He has published more than 120 papers in international peer-reviewed journals, with more than 4800 citations, among which more than 60 papers specifically focused on light-induced 3D printing and DLP.
Section I: Fundamentals of Digital Light Processing and Stereolithography1. Principles of Light Induced 3D Printing and Digital Light Processing TechnologySection II: Applications of Digital Light Processing and Stereolithography2. Digital Light Processing and Stereolithography for Structural Applications3. Digital Light Processing and Stereolithography for Soft Robotics4. Digital Light Processing and Stereolithography for Sensing5. Digital Light Processing and Stereolithography for Biomedical Applications6. 3D Printing of Glass and Ceramics7. Multimaterial Additive Manufacturing with Digital Light Processing and StereolithographySection III: Evolution Trends of Digital Light Processing and Stereolithography8. Sustainable Materials for Digital Light Processing and Stereolithography9. Dynamic Photopolymers for Vat Photopolymerization 3D Printing10. 4D Printing in Digital Light Processing and Stereolithography