KNOWLEDGE
At PERDA RUBJA Technologies™, every project is approached as a complete technical journey, where naval engineering, composite materials, structural design, and manufacturing are fully connected from the very first concept to final validation.
Our Approach
From Engineering to Execution
At PERDA RUBJA Technologies™, every project is approached as a complete technical journey, where naval engineering, composite materials, structural design, and manufacturing are fully connected from the very first concept to final validation.
Rather than separating design from production, we builds a continuous workflow that ensures coherence, precision, and performance at every stage:
Concept definition and feasibility
Technical analysis of the idea, its purpose, constraints, and performance objectives.
Structural design and simulation
Engineering development based on load cases, sailing conditions, mechanical stress, and long-term reliability.
Material selection and composite architecture
Definition of carbon fiber systems, resins, core materials, and optimized lamination strategies adapted to each structure.
Tooling development and machining
Creation of precise molds, tooling systems, CNC processes, and production methods adapted to complex geometries.
Manufacturing and final validation
Execution under controlled conditions, followed by technical checks to ensure real-world performance, durability, and consistency.
This integrated approach allows PERDA RUBJA Technologies™ to create composite structures and high-performance marine components that do not only work in theory, but deliver strength, precision, and sailing sensations in real operational conditions.
Core Expertise
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The company’s expertise is built on the advanced use of carbon fiber and composite materials for structural applications.
This includes:Development of optimized ply lamination strategies
Structural design under complex load conditions
Integration of composite and metal components
Manufacturing of high-precision geometries
The combination of engineering knowledge and hands-on production experience ensures reliable, repeatable, and high-performance results.
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PERDA RUBJA Technologies™ operates within a complete and integrated production environment, ensuring full control over every stage of the fabrication process. This structure allows the company to connect engineering decisions directly with manufacturing realities, maintaining precision, quality, and consistency from material preparation to final assembly.
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Controlled clean room environment
Prepreg and infusion technologies
Autoclave and post-curing processes
Temperature-controlled material storage
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3-axis and 5-axis milling machines
Large-scale machining capabilities (up to 24 meters)
Water jet and laser cutting systems
High-precision tooling production
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Fabrication of aluminum and steel components
Welding, forming, and assembly
Integration with composite structures
This infrastructure enables the production of both highly precise components and large structural assemblies.
Marine Industry
The marine industry remains the core field of expertise for PERDA RUBJA Technologies™, where each component must meet high standards of quality, precision, and durability.
In this environment, composite structures are designed to maintain their performance over time, while withstanding the specific demands of marine use: load, fatigue, saltwater exposure, and changing conditions.
Offshore racing yachts
High-performance composite structures built for reliability and precision.
Maxi yacht structures
Large-scale components requiring strength, accuracy,
and long-term durability.
Hydrodynamic components
Foils, appendages, and other marine elements developed with a focus on performance and structural integrity.
This marine experience has defined the standards of PERDA RUBJA Technologies™: quality of execution, durability of materials, and precision in every realization.
Aeronautics & Advanced Applications
PERDA RUBJA Technologies™ extends its composite engineering expertise to industries where structural quality, precision, and reliability are essential.
The company applies its knowledge of lightweight structures, carbon fiber materials, and controlled manufacturing processes to sectors requiring high technical standards and consistent execution.
Aeronautical structural components
Lightweight composite parts developed with attention to precision, repeatability, and structural reliability.
Defense and technical systems
Composite and structural solutions adapted to demanding operational requirements.
Advanced industrial solutions
Custom components and technical applications requiring strength, lightness, durability, and manufacturing accuracy.
The objective is to transfer the company’s experience in high-performance marine engineering into advanced sectors where quality, durability, and technical control are central.
R&D
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R&D is directly integrated into the production workflow, ensuring continuous improvement of materials, processes, and structural solutions.
The focus is on:Enhancing material performance
Improving structural efficiency
Optimizing manufacturing processes
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Development is centered on mastering composite processes:
Advanced carbon fiber systems
High-performance resins and core materials
Custom layup techniques adapted to structural loads
Each process is optimized to balance weight, strength, and durability.
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CATIA V5 / 3DEXPERIENCE
WorkNC
Structural simulation and calculation tools
These tools ensure precision from design to production.
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Large-scale 3D printing
Rapid prototyping
Tooling optimization
These technologies accelerate development cycles and allow complex geometries.
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Humanoid robotics and AI-driven systems are being studied for integration into the manufacturing process, enabling tandem collaboration with
human boat builders to accelerate construction timelines and improve production efficiency. -
R&D also integrates environmental considerations:
Reduction of material waste
Optimization of resource usage
Exploration of alternative materials and processes