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Mechanical redesign, metal/polymer 3D printing, 3D prototyping, DfAM, topology optimization, technology selection (additive / machining / FSW), tooling, reverse engineering and 3D scanning. A premium, clear and results‑driven engineering approach, enhanced by local AI.
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Mechanical redesign for additive manufacturing and metal/polymer 3D printing, topology optimization, mass reduction, functional integration and clean, industrial‑ready documentation.
3D prototyping, mechanical and thermal prototypes, functional testing, rapid iterations and prototype‑to‑series transition. Metal/polymer 3D printing, machining and hybrid processes.
Objective technology selection: metal 3D printing, machining, sheet metal, weldments, FSW welding. Series preparation, industrial files, tooling and maturity increase of critical parts.
3D scanning, digital reconstruction, CAD rebuilding and re‑manufacturing of obsolete parts (automotive, aviation, F1, special machines). Integration possible in metal 3D printing or machining.
We operate in sectors where mechanical performance, reliability and process control are essential — from additive manufacturing to metal 3D printing, prototyping and multi‑technology industrialization.
DfAM, topology optimization, lightweight aluminium 3D‑printed parts, 3D prototyping, critical components and multi‑technology industrialization.
Topology optimization, metal 3D printing for lightweight structures, rapid prototyping and clean documentation for extreme environments.
Optimized components, thermal modules, thermomechanical optimization and additive/machining/FSW technology selection.
Critical parts, quality documentation, 3D prototyping, thermal optimization and controlled industrialization for regulated environments.
A clear, rigorous and results‑driven approach.
Requirements analysis and comparative technology assessment: metal/polymer 3D printing, additive manufacturing, machining, sheet metal, weldments or FSW welding.
Re‑engineering for 3D printing and additive manufacturing: functional integration, mass reduction, topology optimization. Or conversely, redesign for machining, FSW welding, sheet metal or weldments depending on industrial constraints.
Structural optimization, stiffness, thermomechanical behaviour, numerical validation and preparation for clean manufacturing in metal 3D printing or machining.
3D prototyping, metal/polymer 3D printing, mechanical and thermal testing. Machining and FSW welding for aluminium/copper parts. Validation before series production.
Adjustments, redesign loops and qualification within a rigorous quality framework adapted to demanding sectors (aerospace, space, energy, medical, nuclear).
Through our network of national and international partners, we deliver small and medium series: machining, sheet metal, weldments, FSW welding, tooling and metal 3D‑printed parts.
A premium training program for engineers, design offices and R&D teams to master additive manufacturing, metal/polymer 3D printing, 3D prototyping and best practices for redesign. Understand processes, avoid common pitfalls, optimize parts (DfAM, topology optimization) and prepare clean, reliable and efficient industrialization.
Request the program Or call usWe support industrial SMEs with a clear, methodical and results‑driven approach. A mechanical engineering office specialized in 3D printing, additive manufacturing, 3D prototyping and multi‑technology industrialization, based near Salon‑de‑Provence (France). We operate across France and Europe.
Contact us Or call usLocation: Bouches‑du‑Rhône (13), near Salon‑de‑Provence, France
Email: contact@peek.engineering
Availability: France & Europe
Phone: +33 7 72 15 28 00
