Fullcure720

Manufactured by Stratasys

Sourced in United States

FullCure720 is a photopolymer material for use in 3D printing. It is designed for printing high-quality, durable parts and models. The material cures under UV light exposure.

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Lab products found in correlation

Connex500, by Stratasys (1 mentions) Eden 260 5, by Stratasys (1 mentions) Objet eden 260v, by Stratasys (1 mentions) Fullcure 705, by Stratasys (1 mentions) Verowhite, by Stratasys (1 mentions)

4 protocols using fullcure720

Fabrication of Asymmetric Friction IAMs

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Different designs of IAMs with directionally asymmetric friction were prepared in SolidWorks and their CAD files were subsequently employed to produce prototype structures utilizing state-of-the-art 3D printing technology. Prototype single-material samples were fabricated using a Stratasys^® Eden 260V and acrylic-based photopolymer materials (FullCure720^®). Composites (multi-material samples) were built with Stratasys^® Connex500 multimaterial 3D printer where the required material stiffness was obtained by blending the stiffest polymer (VeroWhitePlus^®), which simulates conventional thermoplastics, with the softest one - a rubber-like material TangoBlackPlus^®. The polymers based on UV-curable urethanes and acrylates offer the possibility of changing their elastic properties over a broad range by varying the mixing ratios of rigid and flexible phases (see Supplementary Fig. S4 online showing a building tray of the 3D printer).

Bafekrpour E., Dyskin A., Pasternak E., Molotnikov A, & Estrin Y. (2015). Internally architectured materials with directionally asymmetric friction. Scientific Reports, 5, 10732.

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3D-Printed Pedicle Screw Guides for Cervical Spine Surgery

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With the cervical spine models ready, a guide for pedicle screws was created. These guides were designed for stable adapting over the vertebrae, limiting the lateral or superior-inferior translation and trying to avoid anatomically important structures.
Using the CAD 3D Meshmixer software (Autodesk Inc., San Rafael, CA, USA), the virtual model of the guide was then assembled over each individual high cervical virtual reconstruction. A Boolean operation identified the intersection between the models and fine adjustments were individually performed for the proper fitting of the guides at the posterior surfaces of all of the evaluated cervical spines.
Each guide path was individually defined with the help of a surgeon, simulating on the computer the desired track for each screw.
The guide models were then printed in acrylic resin Fullcure 720 with an Objet EDEN250 printer (Stratasys, Eden Prairie, MN, USA) (
Fig. 2).

Nanni F.D., Vialle E.N., Foggiattob J.A., Silva K.W, & Mello Neto H.D. (2019). Development of a Patient-specific Guide for High Cervical Spine Fixation. Revista Brasileira de Ortopedia, 54(1), 20-25.

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3D-Printed Devices for Research

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A high-resolution 3D-printer (Objet Eden 260 V, Stratasys, Ltd, Edina, MN, USA) was used to create the devices used in this study. The material used in this work was called Full Cure 720 (Stratasys Ltd., MN, USA), the composition of which is propriety, but approximately containing 10–30% isobornyl acrylate, 10–30% acrylic monomer, 15– 30% acrylate oligomer, 0.1–1% photo initiator) [32 ]. All devices were designed by Autodesk Inventor and saved in an .stl format for the printer to read. The design sketches of the devices used in this work can be found in Figs. S1-S4 in the Electronic Supplementary Material (ESM).

Chen C., Townsend A.D., Hayter E.A., Birk H.M., Sell S.A, & Martin R.S. (2018). Insert-based Microfluidics for 3D Cell Culture with Analysis. Analytical and bioanalytical chemistry, 410(12), 3025-3035.

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Constructing Specimens using Photo-Curable Resins

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Three types of photo-curable resins (Stratasys, Eden Prairie, MN, USA) applied in the PJM technology: FullCure 720 (FC 720), VeroWhite (VW) and FullCure 705 (FC 705) were used to construct the models. The first two are model materials that belong to a group of so-called tough materials, with a Shore A hardness of over 80. The third material is support type, which exhibits elastic properties, therefore, it was used to fill the structures created in the course of the tests. Table 1, Table 2 and Table 3 show the chemical composition of materials used to construct specimen models.

Kozior T, & Kundera C. (2021). Viscoelastic Properties of Cell Structures Manufactured Using a Photo-Curable Additive Technology—PJM. Polymers, 13(11), 1895.

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