• A range of vibratory finishing machines for polishing and deburring parts of various sizes.
• A wide range of abrasives for vibratory finishing.
  

• Belt polishing machines for various metals.
• Semiautomatic polishing machine for aluminum with widths of up to 1,000 mm.
• Skilled workers for all types of polishing work
  

• Carbon steels
• Alloy steels
• Armor plate
• Aluminum and aluminum alloys
• Stainless steel of various types

• Carbon steels
• Alloys steels
• Aluminum and aluminum alloys
• Stainless steels of various types                   

TIG welding process may be effectively used when thermal influence must be reduced to a minimum (for thin materials, complex shapes, etc.)

• Bending force up to 130 tonnes.
• Length of bend up to 3,200mm.
• Bending of metals up to 12 mm thick.
• Bending depth of up to 630 mm.
• Very wide range of metals may be bent with the press brakes (carbon and stainless steels, alloy steels, copper and copper alloys, aluminum alloys, titanium, etc.). Plastic materials (low-carbon steels, 304 and 316 stainless steels, copper alloys) may be bent with a small bending radius (0.6 – 0.7 of material thickness); metals which allow lesser plastic deformations require bigger bending radii.
• Various flangings and embossing are performed with special tools.
• Computer monitored bending machines (press brakes) are the best Europe has to offer.
• Professional, skilled factory team (more than 10 years experience).
  

• The pressurized water passes through a tiny opening in a nozzle installed in the work head; the high pressure accelerates water to a very high velocity. The jet velocity reaches more then 1000 m/s.
• Abrasive material is added to the waterjet stream. The resulting mixture is accelerated in the mixing tube. The abrasive particles move at very high speed and cut the material.
• Two work heads move according to a program in an X and Y direction cutting workpieces.
• The worktables can accept a maximum sheet size of 6,000 x 2,500mm. The table is equipped with two parallel heads. Positioning accuracy is a few hundredths of a millimeter.
• The method allows the maximum utilization of the raw material using smart planning, combining various parts on the same sheet of raw material (nesting).
• The work method is possible with two parallel cutting heads that results in a relatively low pricing for executing large-scale works.
  

• The generator produces a concentrated beam of high power coherent light (up to 6kW). The beam is directed by a computerized (CNC) system of optical mirrors to a cutting head equipped with a focusing lens. The cutting head moves along a programmed path. Assisting gases (nitrogen, compressed air or oxygen) are used to blow out the melted material, increasing cutting speed and cut quality.
• The worktables can accept raw material up to 2,000 x 4,000 mm.
• Positioning accuracy is a few hundredths of a millimeter.
• The method allows fast and quality cutting of practically all metals, excluding copper and silver (carbon steel up to 20 mm thick), wood and some other materials without applying any force to a workpiece or a blank. There is almost no thermal effect on the material cut.
• The method allows the maximum utilization of raw material using smart planning, combining various parts on the same sheet of raw material (nesting).