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INFLUENCE OF THE MIXTURE VISCOSITY ON MECHANICAL ANISOTROPY AND PROCESSABILITY OF AN NBR-BASED RUBBER MIXTURE FOR ADDITIVE MANUFACTURING

Sundermann, Lion ; Klie, Benjamin ; Wittek, Heike ; [et al.]

Rubber Division, ACS ; 2023

In: Rubber Chemistry and Technology ( 2023-10-11)

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In: Rubber Chemistry and Technology, Rubber Division, ACS, ( 2023-10-11)

Abstract: Rubber-based polymers with high carbon black content can be three-dimensionally (3D) printed using the additive manufacturing of elastomers process. However, high-viscosity materials limit printing resolution, making it difficult to produce fine structures and high-precision parts, especially two-component (2K) parts. The viscosity of a rubber compound used for rod seal applications was reduced and adjusted using Nipol® 1312 liquid rubber and the alkyl sulfonic phenyl ester Mesamoll® II as plasticizers to lower the torque level during extrusion when a reduced nozzle diameter of 0.4 mm is used in 3D printing. In addition, the flowability of the compound was enhanced prior to vulcanization of the part, which could increase the layer–layer bond and thus reduce the mechanical anisotropy typically induced by fused filament fabrication. Using a viscosity-optimized rubber compound, a 2K rod seal consisting of a thermoplastic polyurethane with elastomeric properties and an acrylonitrile rubber-based O-ring was produced and dynamically tested for leakage.

Type of Medium: Online Resource

ISSN: 1943-4804 , 0035-9475

URL: Article

DOI: 10.5254/RCT-23.228315

Language: English

Publisher: Rubber Division, ACS

Publication Date: 2023

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Tailoring the Curing Kinetics of NBR-Based Rubber Compounds for Additive Manufacturing of Rod Seals

Sundermann, Lion ; Leineweber, Sebastian ; Klie, Benjamin ; [et al.]

Hindawi Limited ; 2023

In: Advances in Polymer Technology Vol. 2023 ( 2023-8-22), p. 1-16

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In: Advances in Polymer Technology, Hindawi Limited, Vol. 2023 ( 2023-8-22), p. 1-16

Abstract: The additive manufacturing (AM) of elastomeric parts based on high-viscosity reinforced rubbers has increasingly become a topic of scientific research in recent years. In addition to the viscosity, which is several decades higher during processing than the viscosities of thermoplastics, the flowability of the compound after the printing process and the necessary chemical crosslinking of the printed component play a decisive role in producing an elastic, high-quality, and geometrically stable part. After the first technological achievements using the so-called additive manufacturing of elastomers (AME) process, the knowledge gained has to be transferred first to concrete industrial parts. Therefore, in this study, the cure kinetics of a conventional rubber compound are tailored to match the specific requirements for scorch safety in the additive manufacturing of an industrial 2-component rod seal based on an acrylonitrile butadiene rubber O-ring in combination with a thermoplastic polyurethane as the base body. Experimental tests on a test rig for rod seals demonstrate the functionality of this additively manufactured 2-component rod seal.

Type of Medium: Online Resource

ISSN: 1098-2329 , 0730-6679

URL: Article

DOI: 10.1155/2023/7343194

Language: English

Publisher: Hindawi Limited

Publication Date: 2023

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ADDITIVE MANUFACTURING AND VULCANIZATION OF CARBON BLACK–FILLED NATURAL RUBBER–BASED COMPONENTS

Leineweber, Sebastian ; Sundermann, Lion ; Bindszus, Lars ; [et al.]

Rubber Division, ACS ; 2022

In: Rubber Chemistry and Technology Vol. 95, No. 1 ( 2022-01-01), p. 46-57

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In: Rubber Chemistry and Technology, Rubber Division, ACS, Vol. 95, No. 1 ( 2022-01-01), p. 46-57

Abstract: Additive manufacturing of thermoplastics or metals is a well-approved sustainable process for obtaining rapidly precise and individual technical components. Except for crosslinked silicone rubber or thermoplastic elastomers, there is no method of additive manufacturing of elastomers. Based on the development of the additive manufacturing of elastomers (AME) process, the material group of rubber-based cured elastomers may gain first access to the process field of three-dimensional (3D) printing. Printing and crosslinking of rubber is separated into two steps. In the first step, printing is realized by extrusion of the rubber by using a twin-screw extruder, which works according to the derived fused-filament-fabrication principle. In the second step, the component is vulcanized in a high-pressure hot-air autoclave. Because of the plastic flow behavior of non–crosslinked rubber materials, a thermoplastic shell is probably needed to maintain the geometry and position of the additively manufactured rubber. In this way, one layer of thermoplastic and one layer of rubber are printed alternatingly until the component is finished. Afterward, the manufactured binary component is placed in an autoclave to obtain the elastomer after vulcanization under a hot-air and high-pressure atmosphere. Then, the thermoplastic shell is removed from the elastomer and can subsequently be recycled. As compared with conventional thermoplastics, the high viscosity of rubber during processing and its instable shape after extrusion are challenging factors in the development of the AME. This contribution will show a modified 3D printer; explain the printing process from the designed component, via shell generation, to the vulcanized component; and show first printed components.

Type of Medium: Online Resource

ISSN: 1943-4804 , 0035-9475

URL: Article

DOI: 10.5254/rct.21.79906

Language: English

Publisher: Rubber Division, ACS

Publication Date: 2022

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