Industrial dismantling · In-situ separation · Complex assemblies

Separate what industry
has assembled.

Modern infrastructures are built from hybrid material systems: metals, composites, polymers, ceramics, coatings, adhesives and embedded interfaces. XCRUSHER explores pulsed-energy separation for controlled dismantling, selective deconstruction and localised action on complex assemblies.

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The challenge

Cutting destroys.
Crushing mixes.
Manual dismantling is limited.

Industrial dismantling often relies on heavy mechanical operations — cutting, crushing, tearing or thermal treatment.

Effective but rarely selective. They can mix valuable materials, damage reusable fractions or increase operational complexity.

Pulsed-energy separation opens another path: acting on interfaces, joints, layers or internal discontinuities through localised physical events.

Potential applications

Controlled separation
for complex systems.

Complex equipment
Complex equipmentIndustrial systems composed of metals, polymers, composites, cables, coatings and bonded interfaces.
Multilayer
Multilayer assembliesLayered or bonded structures where mechanical disassembly is difficult or destructive.
Selective
Selective deconstructionLocal action on materials or interfaces to preserve high-value fractions and reduce uncontrolled destruction.
In-situ
In-situ operationsSeparation protocols adapted to site constraints, complex environments and technical infrastructures.

Detailed application

Go deeper on complex assemblies.

Industrial dismantlingComplex assemblies & industrial dismantlingExplore →

Industrial dismantling

Selective fragmentation. Material preserved.

Tomorrow's dismantling
won't just cut and crush.

It will cleanly separate what industry has assembled with growing complexity.

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