4D Printing: A Methodical Approach to Product Development Using Smart Materials

Junk, Stefan; Einloth, Henning; Velten, Dirk

doi:10.3390/machines11111035

Machines

2023

DOI: 10.3390/machines11111035

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4D Printing: A Methodical Approach to Product Development Using Smart Materials

Stefan Junk,

Henning Einloth,

Dirk Velten

Abstract: In 4D printing, an additively manufactured component is given the ability to change its shape or function in an intended and useful manner over time. The technology of 4D printing is still in an early stage of development. Nevertheless, interesting research and initial applications exist in the literature. In this work, a novel methodical approach is presented that helps transfer existing 4D printing research results and knowledge into solving application tasks systematically. Moreover, two different smart mat… Show more

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2024

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4D printing of magnetoresponsive soft gripper and phenomenological approach for required magnetical actuation field

Kehret,

Junk,

Einloth

et al. 2024

Int J Adv Manuf Technol

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Abstract4D printing is the next step in additive manufacturing. Magnetoresponsive materials facilitate the creation of gripping tools through 4D printing, allowing for structural changes in response to external stimuli. In this study, the structural change is manifested as motion, triggered by an external magnetic field. This technology offers significant advantages in medical and industrial applications, including the printing of life-like moving organ models for medical training and the development of actuators for use in explosive environments. Magnetoresponsive materials are programmed with a magnetic profile and actuated by an external magnetic field. A compound of strontium ferrite microparticles $$SrFe_{12}O_{19}$$ S r F e 12 O 19 ($$ \le 20\mu m$$ ≤ 20 μ m ) and an elastic polymer (thermoplastic copolyester) with a Hardness of Shore D 40 was produced. A star-shaped body was programmed and actuated by two permanent magnets, each of $$B_r=1.29 - 1.32T$$ B r = 1.29 - 1.32 T . As there is no analytical approach for calculating the required actuation flux density, one has been developed. The approach is verified experimentally by using a Hall probe. It is appropriate to set the field with a Helmholtz coil, despite the utilization of two permanent magnets. The use of a commercial fused filament fabrication printer for the processing of magnetoresponsive materials has been realized here for the first time. The main contributions are the short time constant (around $$t_a=0.1s$$ t a = 0.1 s ) for actuation and the repeatability (around $$n=200$$ n = 200 actuation cycles) of the motion. The feasibility of multiple diverse reprogramming is a step forward in 4D printing. Hence, the post-print programming and the inhomogeneity of the field limit the ease of the presented method.

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4D printing of magnetoresponsive soft gripper and phenomenological approach for required magnetical actuation field

Kehret,

Junk,

Einloth

et al. 2024

Int J Adv Manuf Technol

View full text Add to dashboard Cite

show abstract

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4D Printing: A Methodical Approach to Product Development Using Smart Materials

Cited by 1 publication

References 33 publications

4D printing of magnetoresponsive soft gripper and phenomenological approach for required magnetical actuation field

4D printing of magnetoresponsive soft gripper and phenomenological approach for required magnetical actuation field

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