Proteus Technology – A New Material That is Non-Cuttable, Strong and Light

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Engineers have taken their inspiration from shells and grapefruits to create what they say is the first manufactured non-cuttable material.

This new material, which could be utilized in the security and wellbeing and wellbeing enterprises, can turn around the power of a cutting apparatus upon itself.

A worldwide examination group, drove by Durham University, UK, and Fraunhofer Institute for Machine Tools and Forming Technology IWU in Chemnitz in Germany, got the thought for the new material from the extreme cell skin of the grapefruit and the crack safe shells of mollusks.

The lightweight material — named Proteus after the shape-changing legendary god — is made of earthenware circles encased in a cell aluminum structure that in tests couldn’t be cut by point processors, drills, or high-pressure water planes.

Material components


The material is produced using a cell aluminum structure folded over clay circles and this has a doubly dangerous impact on cutting devices. When cutting with a point processor or drill, the vibrations made by the fired circles inside the packaging gruff the cutting plate or boring apparatus.

The sharp edge is bit by bit disintegrated, and in the long run, rendered insufficient as the power and vitality of the plate or the drill is walked out on itself, and it is debilitated and decimated by its own assault.

The communication between the plate and artistic circle makes an interlocking, vibrational association that opposes the cutting instrument uncertainly.

Water planes were additionally seen as inadequate on the grounds that the bent surfaces of the artistic circles broaden the stream, which generously lessens its speed and debilitates its cutting limit.

Moreover, the earthenware production piece into fine particles, which fill the cell structure of the material and solidify as the speed of the slicing device is expanded due to interatomic powers between the fired grains. Along these lines, the versatile idea of the material further shocks any assault.

Scientific View

Abalone ocean animals are worked from tiles interlinked with a biopolymer material that make them impervious to breaks. To oppose the roughest persuasive section apparatuses, natural materials, for example, aragonite tiles — found in mollusk shells — were supplanted in the new material with mechanical, alumina earthenware production, and an aluminum, metallic froth grid.

The discoveries are distributed in the journal Scientific Reports. The new material framework is dynamic with an advancing inward structure that makes fast movement where it communicates with the cutting instruments. The dynamic reaction is increasingly likened to living structures.

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The new material is solid, light, and non-cuttable. The specialists state it could be utilized to make bicycle locks, lightweight reinforcement, and defensive gear for individuals who work with cutting apparatuses.

What Experts are saying

Lead creator Dr. Stefan Szyniszewski, Assistant Professor of Applied Mechanics, in the Department of Engineering, Durham University, stated: “We were fascinated by how the phone structure of the grapefruit and the tiled structure of mollusk shells can forestall harm to the natural product or the animals inside, notwithstanding being made of generally powerless natural structure squares.

“Basically cutting our material resembles slicing through a jam loaded up with chunks. In the event that you overcome the jam you hit the chunks and the material will vibrate so that it devastates the cutting circle or boring tool.

“This material could have heaps of helpful and energizing applications in the security and wellbeing businesses. Truth be told, we don’t know about some other produced non-cuttable material in presence starting at now.”

“These regular structures educated the working guideline regarding our metallic-artistic material, which depends on unique association with the applied burden, as opposed to uninvolved opposition.

Dr. Szyniszewski included: “This is the thing that we’ve accomplished with this new material and we’re energized by its latent capacity.”

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“The pottery installed in this adaptable material is likewise made of exceptionally fine particles which solidify and oppose the point processor or drill when you’re cutting at speed similarly that a blockade would oppose and stop a projectile at fast.

Study co-creator Dr. Miranda Anderson, Department of Philosophy, University of Stirling stated: “In light of the fact that the fruitful opposition of our material framework expects it to experience inner changes, we picked the name Proteus.

“In 1605, Francis Bacon contrasted characteristic materials with Proteus who ‘at any point changed shapes’ and he contended that through experimentation we can uncover the transformative characteristics of materials.”


The analysts have a patent pending for their material innovation and they want to work with industry accomplices so it tends to be formed into items for the commercial center.

Bottom Line

The exploration was driven by Durham University working nearby the Fraunhofer Institute for Machine Tools and Forming Technology IWU, Fraunhofer Institute for Wood Research, Wilhelm-Klauditz-Institut WKI, Hannover and Leibniz University Hannover, Institute of Plastics and Circular Economy IKK, Germany, and the University of Surrey and the University of Stirling, UK.

The investigation was subsidized by the UK Home Office, the Engineering and Physical Sciences Research Council, and a European Commission Career Integration Grant.

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