Windows made in the MB-W86 system are characterised by a high thermal insulating power. MB-W86 is the first aluminium window system  in the world, which uses aerogel – a material with excellent thermal insulating power and applied in space technology. Structures based on the MB-W 86 profiles have high strength and allow large and heavy windows to be made. The product is available in a wide range of shapes, and RAL and wood-grain colours.

• depth of sections – 77 mm (frame) and 86 mm (sash)
• filling thickness – 13.5 to 58.5 mm (fixed glazing), 21 to 67.5 mm (sash)
• The MB-W86 energy-saving windows are available in 3 thermal insulating power options U_f:
• MB-W86 ST – from 1.3 [W/m2K]
• MB-W86 SI – from 0.9 [W/m2K]
• MB-W86 AERO – from 0.5 [W/m2K] [estimated values for two-chamber windowpane package Ug= 0.5 W/m2K]

A modern system based on proven and highly valued base systems: MB-70, MB-70US and MB-70CW. The thermal insulating power of the frames in these systems is much higher than the insulating power of frames in base systems. Thermal insulation has been improved through placing special insulating inserts in the central insulating chamber, which is formed as a result of connecting aluminium profiles with thermal dividers. Owing to a low thermal conductivity value, these inserts reduce heat flow through this chamber. Moreover, the central position of the insulating inserts reduces convection and thermal radiation.

• profile structure – three-chamber.
• depth of sections – 70 mm (frame) and 79 mm (sash), one-plane effect after closing.
• filling thickness – 15 to 51 mm (fixed glazing), 23 to 60 mm (sash).
• thermal insulating power – Uf = from 1.11 to 2.3 W/m2K

A modern system intended for making exterior built-in architectural elements requiring thermal insulation. The profile shape allows slender and strong structures to be obtained. The first system, where a two-component synthetic rubber (EPDM) - solid and chambered - has been used to make a central seal. One of the MB 70 versions allows theuniform appearance of fixed and openable windows to be obtained (sashes invisible on the outside of the built-in structure). It is possibilie to bend profiles, which allows different types of arches and arched structures to be made.

• profile design - triple chamber
• thermal break - "omega" type breaks, width: 34 mm, polyamide reinforced with glass fibre.
• sections depth - 70 mm (frame) and 79 mm (sash), after closing - one plane effect.
• filling thickness - from 15 to 51 mm (fixed glazing), 23 to 60 mm (sash).
• thermal insulating power - materials group: 1.0 according to DIN 4108 (the highest thermal insulating power in aluminium frame windows category).
• acoustic insulating power - range 30-34 dB.U=

A modern system intended for making exterior built-in architectural elements requiring thermal insulation. The profile shape allows slender and strong structures to be obtained. The possibility to bend profiles exists, which enables different types of arches and arched structures to be made.

• profile design - triple chamber
• sections depth - 60 mm (frame) and 69 mm (sash), after closing - one plane effect.
• filling thickness - from 5 to 41 mm (fixed glazing), 14 do 50 (window sash).
• thermal insulating power - according to DIN 4108
• acoustic insulating power - within range 28-34 dB.

A system with thermo-insulation, compatible with other Aliplast systems (the same glazing strips, seals, corners and hardware). Glass panes are fixed and sealed in sash cuts using glazing beads made of aluminium sections, and seals.

It is possible to bend profiles, which allows different types of arches and arched structures to be made.

• profile design - triple chamber
• design depth - 51 mm (frame), 60 mm (sash)
• filling thickness - from 4 to 37 mm

Modern and versatile thermo-insulating system. In the case of the Aliplast Imperial, one may choose sashes matching the overall dimensions of the window (several sash and frame types). It is also possible to choose a sash depending on the hardware. The thermal break is additionally provided with a Coex sealing line, which ensures unfailing parainsulation and tightness during the process of powder-painted profile baking.

It is possible to bend profiles, which allows different types of arches and arched structures to be made.

• profile design - triple chamber
• design depth - 65 mm (frame) and 74 mm (sash).
• thermal insulating power - overall heat-transfer coefficient for profiles: U = 2.2-2.3 W/m2K, material group: 2.1 according to DIN 4108.
• filling thickness - from 4 to 51 mm (glazing from outside possible as well).

A triple chamber system of aluminium profiles with thermal breaks. The system consists of two cylindrical half-profiles separated with two strips of PA 6.6.25 polyamide reinforced with glass fibre.

• profile design - triple chamber
• filling thickness values: fixed frame 4 mm-51 mm,
• design depth - 65 mm (frame), 74 mm (sash).

A system with high thermal insulating power and very good acoustic properties. It uses triple chamber thermal breaks, a chambered central seal, and special glazing seals. The Aliplast Superial is based on hardware, accessories and glazing strips from other thermally insulated systems.

It is possible to bend profiles, which allows different types of arches and arched structures to be made.

• profile design - triple chamber
• design depth - 75 mm (frame) and 84 mm (sash).
• thermal insulating power - overall heat-transfer coefficient U < 2.0 W/m2K, materials group: 1.0 according to DIN 4108.
• filling thickness - from 14 to 61 mm.