3D printing may allow for infinite innovation in design and production, but some designers, engineers, and researchers feel constricted by the fixed qualities—leading them to expand with 4D printing and experiment with materials that can be more finely tuned. In ‘4D printing reconfigurable, deployable and mechanically tunable metamaterials,’ researchers present the best of both realms by micro 3D printing with shape memory polymers. The result is artificial metamaterials that are mechanically tunable and lightweight, and they can be reconfigured for a variety of functions.
The authors point out that metamaterials are exceptional for creating powerful attributes via microstructural design, to include the following types of properties:
- Electromagnetic
- Acoustic
- Mechanical
- Thermal
“The properties of mechanical metamaterials emerge from the 3D spatial arrangement of the micro-structural elements. Therefore, once manufactured, such properties are irreversible. However, incorporating a material with reversibly tunable properties in a metamaterial could offer the metamaterial flexibility and adaptability, leading to the ability to significantly modulate the mechanical performance in many applications,” state the researchers.
These types of materials are already being explored for use in luxury cars, aerospace, civil engineering, and robotics. Here, the difference is that the researchers ‘exploit a substantial mechanical property transition between glassy and rubbery states of a shape memory polymer (SMP) around its glass transition temperature (Tg) and apply it to mechanical metamaterials.’
“3D printing with SMPs has played a central role in the emerging field of 4D printing (3D printing of shape-transforming structures), but the focus has predominantly been on geometrical transformations,” state the researchers, who offer a unique study into metamaterials as they exploit the transition process.
To create 3D SMP metamaterials, the researchers used PmSL, an SLA technique that produces complex micro-structures—to include materials like responsive hydrogels too. In testing, the materials were heated in the rubbery state and then twisted. Once the temperature was lowered, they retained their shape after removal of mechanical loading. Upon increasing the heat again, the microlattice returned to its normal shape.
Complete reversal back to the original shape was the response to nearly every deformation test, leaving the researchers to state that ‘smart lightweight protective material’ can be fabricated that will morph to its conditions, whether in a rigid or shock-absorbing state. Not only that, the researchers noted that while such metamaterials can be tuned into a variety of shapes offering different functionality depending on the needs of the user, they were deployable in higher temperatures and retained ‘superior’ mechanical performance.
“Our lightweight SMP microlattices have unprecedented capability of mechanical adaptation to unpredictable circumstances such as varying external loading and geometrically complex environments,” concluded the research team. “The reconfigurable and tunable mechanical metamaterials may find a broad range of applications such as tunable shock absorbing interfaces, morphing aerospace structures, and minimally invasive biomedical devices.”
While there is still plenty of ground to cover within the realm of 3D printing, researchers have been exploring the world of 4D with fascinating results from all over the globe as they produce smart metamaterials for improving industrial applications, create multi-materials, and even origami-inspired designs. Find out more about reconfigurable and tunable 4D properties here.
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[Source / Images: ‘4D printing reconfigurable, deployable and mechanically tunable metamaterials’]
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