Application of Response Surface Methodology and Machine Learning Approaches to Predict Porosity and Compression Strength of Selective Laser-Sintered …
SP Kanchi, S Sundari, CVSP Rao, S Raju - Journal of Materials …, 2024 - Springer
Abstract Recent improvements in Selective Laser Sintering (SLS) technology have prompted
researchers to examine the fabrication method as a solution for patient-specific orthopedic …
researchers to examine the fabrication method as a solution for patient-specific orthopedic …
Optimization of selective laser sintering process parameters based on PA12 powders for bone tissue scaffolds
R Yan, C Xie, Z Zhao, J Li - 3D Printing and Additive Manufacturing, 2023 - liebertpub.com
In selective laser sintering (SLS), process parameters are essential to fabricate outstanding
mechanical properties products. In this research, process parameters of porous Polyamide …
mechanical properties products. In this research, process parameters of porous Polyamide …
Fabrication of three dimensional open porous regular structure of PA-2200 for enhanced strength of scaffold using selective laser sintering
Purpose Scaffolds are essentially required to have open porous structure for facilitating
bone to grow. They are generally placed on those bone defective/fractured sites which are …
bone to grow. They are generally placed on those bone defective/fractured sites which are …
[PDF][PDF] Influence of build orientation on porosity, strength and dimensional accuracy of laser sintered polyamide porous bone scaffolds
F Gorana, YK Modi - Archive of Mechanical Engineering, 2024 - journals.pan.pl
Development of synthetic bone graft via bone tissue engineering involves seeding of
patient's stem cells onto a porous scaffold in presence of growth factors. Porosity, strength …
patient's stem cells onto a porous scaffold in presence of growth factors. Porosity, strength …
Accuracy and mechanical properties of open-cell microstructures fabricated by selective laser sintering
S Eosoly, G Ryder, T Tansey, L Looney - 2007 - repositories.lib.utexas.edu
This paper investigates the applicability of selective laser sintering (SLS) for the manufacture
of scaffold geometries for bone tissue engineering applications. Porous scaffold geometries …
of scaffold geometries for bone tissue engineering applications. Porous scaffold geometries …
Influence of wall thickness on mechanical properties and porosity of additive manufactured polymer-based porous structures for fibula bone regeneration
SP Kanchi, S Sundari, CVSP Rao, S Raju - Materials Today: Proceedings, 2023 - Elsevier
In the recent past, Bone tissue engineering (BTE) has become a potentially effective solution
for repairing bone defects. In the meantime, various fields, such as material science, additive …
for repairing bone defects. In the meantime, various fields, such as material science, additive …
Revealing the compressive and flow properties of novel bone scaffold structure manufactured by selective laser sintering technique
S Rashia Begum, M Saravana Kumar… - Proceedings of the …, 2022 - journals.sagepub.com
Additive manufacturing is revolutionizing the field of medical sciences through its key
application in the development of bone scaffolds. During scaffold fabrication, achieving a …
application in the development of bone scaffolds. During scaffold fabrication, achieving a …
Determining the effect of sintering conditions on mechanical properties of laser sintered glass filled polyamide parts using RSM
Selective laser sintering (SLS) applications are rapidly growing in various sectors such as
automobile, aeronautics, biomedical and custom consumer products. The properties of SLS …
automobile, aeronautics, biomedical and custom consumer products. The properties of SLS …
The effects and interactions of fabrication parameters on the properties of selective laser sintered hydroxyapatite polyamide composite biomaterials
MM Savalani, L Hao, PM Dickens, Y Zhang… - Rapid Prototyping …, 2012 - emerald.com
Purpose–Hydroxyapatite‐polymer composite materials are being researched for the
development of low‐load bearing implants because of their bioactive and osteoconductive …
development of low‐load bearing implants because of their bioactive and osteoconductive …
Selective laser sintering of polyamide/hydroxyapatite scaffolds
F Dabbas, SL Stares, JM Mascheroni, D Hotza… - Proceedings of the 3rd …, 2017 - Springer
Abstract Selective Laser Sintering (SLS) is an additive manufacturing technique that enables
final products to be processed without additional machining. SLS permits the fabrication of …
final products to be processed without additional machining. SLS permits the fabrication of …