Rupinder Singh, Vinay Kumar, Nishant Ranjan, Ranvijay Kumar

Engineering Materials for 3D Printing

• Broschiertes Buch

Produktbeschreibung

3D printing processes have promising advantages over conventional manufacturing processes from a functional ability viewpoint. In the past 30 years, a variety of additive manufacturing-based 3D printing processes have been reported for the fabrication of functional prototypes, using materials such as thermoplastic, resins, metal and their alloys. While there is a significant amount of information on various 3D printing processes, and materials that may be used in 3D printing-based manufacturing practices for engineering applications, there is far less information on 3D printable materials for structural and non-structural engineering applications. Engineering Materials for 3D Printing fills this gap. The book includes three sections and provides an insight on the development and characterization of polymer-based 3D printed materials by different processes such as extrusion, sol-gel, and pulverization along with meta-structure properties for various structural applications

Produktdetails

• Verlag: Elsevier Science
• Seitenzahl: 300
• Erscheinungstermin: 1. Januar 2026
• Englisch
• Gewicht: 450g
• ISBN-13: 9780443336256
• ISBN-10: 0443336253
• Artikelnr.: 74313256

Autorenporträt

Dr. Rupinder Singh is currently Professor and Head of the Department of Mechanical Engineering, National Institute of Technical Teacher Training and Research, Chandigarh. He received a Ph.D. in Mechanical Engineering from the Thapar Institute of Engineering and Technology Patiala. His research interests are additive manufacturing, composite filament processing, rapid tooling, metal casting and plastic solid waste management

Inhaltsangabe

Section A: Polymer/ polymer composites-based 3D printable materials
1. In-house fabrication of extrusion-based polymer and composites for 3D
printing
2. Sol-gel method for 3D printing of smart polymer materials
3. Pulverization as material processing for 3D printed thermoplastics
4. Meta-structure base 3D printing of polymers for structural applications
Section B: Metals-based 3D printable materials
5. Atomization and solid-state metal reduction for 3D printing
6. Electrolysis and chemical treated metal and alloys for structural
engineering applications
7. Meta-structures-based metal 3D printing for non-structural applications
8. Hybridization of metal 3D printing for smart structures
Section C: Applications and case studies
9. Fabrication of smart orthopaedic implants for human and veterinary
patients
10. Meta-structures based smart repair solutions for structural defects of
heritage buildings
11. A case study on the fabrication of dental implants and tools for humans
12. Some comprehensive studies on compressive properties of metal 3D
printed strategic canine tooth
13. Meta-structures inspired mesh based smart solutions for surgical
practices of diaphragmatic hernia in bovines