[HTML][HTML] Laser sintering of polymer nanocomposites
BO Sivadas, I Ashcroft, AN Khlobystov… - Advanced Industrial and …, 2021 - Elsevier
Laser sintering is a commonly used Additive Manufacturing (AM) technique applicable to a
variety of applications in fields such as the automotive industry, healthcare, and consumer …
variety of applications in fields such as the automotive industry, healthcare, and consumer …
Powder‐based additive manufacturing: A critical review of materials, methods, opportunities, and challenges
R Shanthar, K Chen, C Abeykoon - Advanced Engineering …, 2023 - Wiley Online Library
As a 0D material, powder particles can be used to create almost any complicated
engineering component by utilizing the high‐performance manufacturing capabilities of …
engineering component by utilizing the high‐performance manufacturing capabilities of …
Vision on metal additive manufacturing: Developments, challenges and future trends
Additive Manufacturing (AM) is one of the innovative technologies to fabricate components,
parts, assemblies or tools in various fields of application due to its main characteristics such …
parts, assemblies or tools in various fields of application due to its main characteristics such …
Material ratio curve of 3D surface topography of additively manufactured parts: An attempt to characterise open surface pores
Surface topography of additively manufactured components often contains 3D features, eg
particles, open surface pores. X-ray computed topography can capture these features …
particles, open surface pores. X-ray computed topography can capture these features …
[HTML][HTML] Deep-learned generators of porosity distributions produced during metal Additive Manufacturing
Abstract Laser Powder Bed Fusion has become a widely adopted method for metal Additive
Manufacturing (AM) due to its ability to mass produce complex parts with increased local …
Manufacturing (AM) due to its ability to mass produce complex parts with increased local …
Surface texture characterization of metal selective laser melted part with varying surface inclinations
Additive manufacturing offers the advantage of infinite freedom to design and fabricate
complex parts at reduced lead-time. However, the surface quality of additively manufactured …
complex parts at reduced lead-time. However, the surface quality of additively manufactured …
Influence of binder jet 3D printing process parameters from irregular feedstock powder on final properties of Al parts
J Marczyk, K Ostrowska, M Hebda - Advanced Powder Technology, 2022 - Elsevier
This work for the first time presents the results of optimization of printing parameters in the
Binder Jetting technology in terms of the possibility of using an irregular aluminum powder …
Binder Jetting technology in terms of the possibility of using an irregular aluminum powder …
[HTML][HTML] A digital-based approach for characterising spread powder layer in additive manufacturing
Assessing the quality of a spread powder layer is critical to understanding powder
spreadability in additive manufacturing. However, the small layer thickness presents a great …
spreadability in additive manufacturing. However, the small layer thickness presents a great …
[HTML][HTML] Predicting build density in L-PBF through in-situ analysis of surface topography using powder bed scanner technology
The layerwise nature of additive manufacturing (AM) allows for in-situ monitoring of the
consolidate material to identify defects on the fly and produce parts with improved reliability …
consolidate material to identify defects on the fly and produce parts with improved reliability …
[HTML][HTML] Evaluating the effect of solid lubricant inclusion on the friction and wear properties of Laser Sintered Polyamide-12 components
The processing of Polyamide-12 (PA12) by Laser Sintering is one of the most well-
established Additive Manufacturing (AM) processes for producing functional components for …
established Additive Manufacturing (AM) processes for producing functional components for …