This book elucidates the fundamental thermomechanical behaviour inherent in the 3D printing process within a laser-based powder bed fusion (L-PBF) system. It presents foundational concepts and provides in-depth derivations of the governing equations. The analysis encompasses arbitrary anisotropic linear viscoelastic materials, accounting for thermal effects. The authors leverage the theory of axially moving materials, a framework previously employed in the analysis of production processes within the process industry. They introduce a coordinate frame that moves in tandem with the printing laser, adopting an Eulerian perspective towards the in-motion solid. Designed for graduate students and researchers, this book is poised to foster a profound comprehension and spur innovative technological advancements in the realm of additive manufacturing.
save
₹3,744.00Fundamental Mathematical Modeling of Additive Manufacturing
15-20 Business Day Shipping (Supply on Demand) Advance payment (not refundable)
₹11,311.00₹15,055.00
In stock
Weight | 1 kg |
---|---|
Book Author | Jeronen |
Edition | 1st |
Format | Hardback |
ISBN | 9783031472497 |
Language | English |
Pages | 532 |
Publication Year | |
Publisher |
Customer Reviews
There are no reviews yet.
Be the first to review “Fundamental Mathematical Modeling of Additive Manufacturing”