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901031

Sigma-Aldrich

Polyvinyl alcohol (PVA) printing filament

2.85 mm

Synonym(e):

AquaSolve, PVA filament

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About This Item

CAS-Nummer:
9002-89-5
UNSPSC-Code:
12162002
NACRES:
NA.23

Beschreibung

Filament diameter: 2.85 ± 0.10 mm
Filament roundness: ≥95%
Melt flow rate: 14-20 g/10 min
Melt temperature: ± 163 °C
Print temperature: ±180-205 °C
Specific gravity: 1.23 g/cc
Spool hub diameter: 52 mm
Spool size (D x H): 200 mm x 55 mm
Viscat softening temperature: ± 60.2 °C

Form

solid (filament)

Farbe

colorless

InChI

1S/C2H4O/c1-2-3/h2-3H,1H2

InChIKey

IMROMDMJAWUWLK-UHFFFAOYSA-N

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Allgemeine Beschreibung

Polyvinyl alcohol (PVA) printing filament is a water-soluble support material for multi-extrusion 3D printing of complex architectures. PVA is widely used in traditional industries, such as textiles and papermaking, as well as a wide variety of coatings. This colorless, odorless, and high-quality filament extrudes between 180 to 205 °C and is suitable with all RepRap technology-based desktop 3D printers, such as MakerBot, Ultimaker, RepRap (Mendel, Huxley, Prusa), UP!, Solidoodle, Leapfrog, etc. PVA features good adhesion to PLA and nylon materials and is biodegradable in water with no hazardous by-products. While PVA is soluble in cold water, the dissolution process can be accelerated by using a continuously heated bath of warm water. When not in use, the filament should be stored at room temperature in dry conditions, such as in a sealed plastic bag or in a closed container with desiccant. Recommended initial printer settings can be found in the ′General Print Settings′ file.

Anwendung

Due to its water-solubility and biocompatibility, polyvinyl alcohol (PVA) filaments are most commonly used as a sacrificial material in the formation of tissue engineering constructs with unique and complicated architectures. The use of this material allows for the printing of scaffolds with large overhangs, deep internal cavities, and/or intricate geometries. In addition to their use as sacrificial materials, PVA filaments have also been used to print novel oral drug delivery devices and tablets.

Rechtliche Hinweise

Product of Formfutura VOF
AquaSolve is a trademark of Formfutura VOF

Lagerklassenschlüssel

11 - Combustible Solids

WGK

WGK 1

Flammpunkt (°F)

49.5 °F

Flammpunkt (°C)

9.7 °C

Analysenzertifikate (COA)

Suchen Sie nach Analysenzertifikate (COA), indem Sie die Lot-/Chargennummer des Produkts eingeben. Lot- und Chargennummern sind auf dem Produktetikett hinter den Wörtern ‘Lot’ oder ‘Batch’ (Lot oder Charge) zu finden.

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Tatsuaki Tagami et al.
Biological & pharmaceutical bulletin, 40(3), 357-364 (2017-03-03)
Three-dimensional (3D) printers have been applied in many fields, including engineering and the medical sciences. In the pharmaceutical field, approval of the first 3D-printed tablet by the U.S. Food and Drug Administration in 2015 has attracted interest in the manufacture
R Hernández-Córdova et al.
Journal of biomedical materials research. Part A, 104(8), 1912-1921 (2016-03-19)
Biomaterial scaffolds are a key part of cardiac tissue engineering therapies. The group has recently synthesized a novel polycaprolactone based polyurethane-urea copolymer that showed improved mechanical properties compared with its previously published counterparts. The aim of this study was to
Ju Zhang et al.
Biochemical and biophysical research communications, 521(2), 296-302 (2019-11-02)
Anti-angiogenic drugs are an effective therapeutic method for the treatment of melanomas. Apatinib is a small-molecule tyrosine kinase inhibitor, which has potent inhibitory activity on tumor angiogenesis. Due to the low water solubility and stability of Apatinib, we aimed to
Shuai Li et al.
ACS applied materials & interfaces, 8(38), 25096-25103 (2016-09-09)
Despite considerable advances in tissue engineering over the past two decades, solutions to some crucial problems remain elusive. Vascularization is one of the most important factors that greatly influence the function of scaffolds. Many research studies have focused on the
Alice Melocchi et al.
International journal of pharmaceutics, 509(1-2), 255-263 (2016-05-25)
Fused deposition modeling (FDM) is a 3D printing technique based on the deposition of successive layers of thermoplastic materials following their softening/melting. Such a technique holds huge potential for the manufacturing of pharmaceutical products and is currently under extensive investigation.
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