Mechanical properties of dense polylactic acid structures fabricated by three dimensional printing
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The Recent Revolution in the Design and Manufacture of Cranial Implants: Modern Advancements and Future Directions.The chemical, mechanical, and physical properties of 3D printed materials composed of TiO2-ABS nanocompositesImproving the trajectory of transpedicular transdiscal lumbar screw fixation with a computer-assisted 3D-printed custom drill guideScaffold design and fabrication technologies for engineering tissues--state of the art and future perspectives.The accuracy of a method for printing three-dimensional spinal modelsElectrotaxis of lung cancer cells in ordered three-dimensional scaffolds.Delivery systems for bone growth factors - the new players in skeletal regeneration.Development and Testing of X-Ray Imaging-Enhanced Poly-L-Lactide Bone ScrewsA review on powder-based additive manufacturing for tissue engineering: selective laser sintering and inkjet 3D printingInterplay of biomaterials and micro-scale technologies for advancing biomedical applications.Design and preparation of polymeric scaffolds for tissue engineering.Integrating novel technologies to fabricate smart scaffolds.Macroscale delivery systems for molecular and cellular payloads.Experimental approaches to vascularisation within tissue engineering constructs.Integration of surface modification and 3D fabrication techniques to prepare patterned poly(L-lactide) substrates allowing regionally selective cell adhesion.3D printing from diagnostic images: a radiologist's primer with an emphasis on musculoskeletal imaging-putting the 3D printing of pathology into the hands of every physician.Printing of Three-Dimensional Tissue Analogs for Regenerative Medicine.A decade of progress in tissue engineering.3D Bioprinting Technologies for Hard Tissue and Organ Engineering.Grand challenges in biomaterials.Effect of RGD coating on osteocompatibility of PLGA-polymer disks in a rat tibial wound.Carbon dioxide extraction of residual chloroform from biodegradable polymers.Layer-by-layer bioassembly of cellularized polylactic acid porous membranes for bone tissue engineering.Solvent-free protein encapsulation within biodegradable polymer foams.Customized hybrid biomimetic hydroxyapatite scaffold for bone tissue regeneration.Critical factors in the design of growth factor releasing scaffolds for cartilage tissue engineering
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P2860
Mechanical properties of dense polylactic acid structures fabricated by three dimensional printing
description
scientific article published on 01 January 1996
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wetenschappelijk artikel
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наукова стаття, опублікована в січні 1997
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name
Mechanical properties of dense ...... by three dimensional printing
@en
Mechanical properties of dense ...... by three dimensional printing
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type
label
Mechanical properties of dense ...... by three dimensional printing
@en
Mechanical properties of dense ...... by three dimensional printing
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prefLabel
Mechanical properties of dense ...... by three dimensional printing
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Mechanical properties of dense ...... by three dimensional printing
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P2093
P921
P356
P1476
Mechanical properties of dense ...... by three dimensional printing
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P2093
P356
10.1163/156856297X00588
P577
1996-01-01T00:00:00Z