2012 06-21-inauguration-labo-additive-manufacturing advanced-engineering-innovation

Additive Manufacturing

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Advanced Electrical Tools specifically designed with Titanium EBM technology

ADVANCED ELECTRICAL TOOLS

Summary

•Company General Information•Products•Market requirements•EADU history•Additive Manufacturing Choice•Perspectives•Conclusion

Company General Information

u Company creation date : 2010

u Share capital : 130.000 Euros

u R&D reinvestment policy (Innovation strategy)with financial support from European Fund

u Geographical location :• Headquarter in Malaga - Spain• Second place in Seclin - France• R&D development place in Aix-en-Provence – France

u Core Business : development and worldwide supply of advanced products and servicesin the fields of assembly, drilling, fasteners installation and tools for Aeronautic sector

Headquarter Building (Spain)

u Very light Portable Automatic Drilling Unit for drilling, boring, countersinking and machining• Qualified machine for high quality drilling operations (drilling, boring, countersinking)• 2 kW for a weight between 2 and 2.5 kg• 1 kW for a weight between 1 and 1,5 kg

u Very low power supply with possibility of using battery (autonomous machine)

u Real time monitoring of the cutting process

u Different packaging available in baseline with control board included(no additional external box)

u Micro lubrication by the center tool (micro pump integrated)

u HMI Interface including Wi-Fi(automatic cycle start by the operator or by network,

program change …)

u Chips vacuum

u Grease-packed bearings

Drilling Products

Computerused during tests

(cutting parameters adjustments, process

monitoring …)

Change of materialèCutting tool parameters adaptation

u Process control monitoringReal time cutting tool parameters adaptation

2024

7075

Market requirements

u Productivity• One Shot Drill• Chip extraction in deep drilling

u Product Quality• Real-time process monitoring• Adaptation to drilled material

u Product Cost / Ownership Cost• Tool life optimization• Low consumption• Efficiency

u Safety / Ergonomics• Very low supply voltage• Operation using battery• Weight of the machine• Reduced noise

u EBM advantage

• X (integrated in the design)

• X (high rigidity using Titatium)

• X (EBM manufacturing)

• X (optimized design)

Product history (1/2)

u Prototype (Aluminum structure)

• Integration of High Performance Brushless motors

• Development of electronics and software• Qualification for aeronautical industry

Product history( 2/2)

u EBM proof of concept

• Specific design for EBM• Integration of function (chip collection, lub.,…)• Ergonomic handle integration• Manufacturing and price validation with

Mecachrome (F)

Additive Manufacturing (1/2)

u Reasons of our choice• Technical reasons

u Mechanical characteristics of Titaniumu Designed for weight optimization u Integration of functions

• Marketing reasonsu High technology productu Specific design for customers

• Economic reasonsu Cheaper solution than traditional machined parts.

Additive Manufacturing (2/2)

u Specific Adaptation • Design

u The parts should be designed according to the Additive Manufacturing process

u Performance optimization according to EBM process

• Industrializationu Design should integrate the production efficiency

• Manufacturingu Maximize the number of parts per batch in the EBM machine u Specific training for machining

It’s why our project requiresthe SIRRIS expertise

Perspectives

u Increasing the production rateu Optimization of the design including

Lattice structures. u Optimization of the production

parameters to reduce the finishing operations.

u Development of new products (fastening, …)

Conclusions

u Based on our experience, Titanium AdditiveManufacturing is a very efficient technology.• High mechanical performance• Design to very low weight• Attractive cost.

u But which requires a specific organization toget the highest benifits.

2012 06-21-inauguration-labo-additive-manufacturing advanced-engineering-innovation

Technology