Matrix E3

Matrix E3

Matrix E3 Machine Tools Composites
Rigidity and high dynamics are distinctive features of this 5-axis machining center making it ideal for machining a multitude of components and products at high speeds with maximum milling performance. 

Due to the speed of the linear axes which reaches up to 40 m/min to the direct drive head with a rotational speed of up to 100 rpm and to the continuous rotation of C-axis this 5-axis high speed machining center is the perfect solution for specific production requirements such as profiling complex workpieces with 5 continuous axes ensuring and guaranteeing maximum machining precision and performance. 

The direct drive twist head which can be positioned at any angle thanks to the powerful hydraulic brakes also allows for fitting spindles up to 40 kW with a rotational speed of up to 28,000 rpm incorporating into this machine powerful milling performance across a choice of materials such as light and specials alloys which are used primarily in the aerospace industry for 
manufacturing precision components. 


Matrix E3 Machine Tools Composites
Matrix due to the various machine configurations and choice of models offered has different axes ranges available. It is possible to have Y-axis carriage strokes from 3,000 mm up to 4,000 mm, Z-axis from 1,300 mm up to 1,500 mm, and X-axis from 3,000 mm to 4,000 mm, 6,000 mm, and 8,000 mm continuing in steps of 2,000 mm up to 30 meters in total.  It is the perfect solution for machining medium and large size workpieces in steel, aluminum, resin, and composite materials. 
Matrix E3 Machine Tools Composites
The closed structure and drive assemblies mounted on the top part of the machine ensure maximum operator safety and maximum machining precision and reliability. 

Machining precision and quality are further enhanced by the thermal symmetry of the machine structure and by the thermal stabilizing system which stabilizes and maintains the temperature of the balls nuts. Bearings on the Z-axis and axis drives at the same temperature of the machine structure during high speed machining operations. 

In fact this thermal stabilizing system makes the machine practically insensitive to distortion cuased by thermal expansion and drift due to the continious high speed machining operations. A sophisticated finite element method (FEM) for part dimensioning integrated with 3D dynamic simulation has allowed us to design structural elements ensuring ultimate strength, geometric accuracy, and stability when machining at high speeds. 


Call (941) 960-8753 or email to learn more about this machine. You can also fill out the contact form below and our team will get back to you promptly.


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