Gas filled crosslaminate and method and apparatus for its manufacture

I claim: 1. A crosslaminate comprising at least two bonded-together films (A) and (B), each comprising an orientable, crystalline thermoplastic polymer material and each being uniaxially oriented or being biaxially oriented with one direction dominating, the directions in (A) and (B) crossing each other, the bonding being an intermittent bonding which leaves more than 50% of the film area unbonded and which forms pockets to encapsulate gas, whereby the gas within each pocket has a volume which referring to the relaxed state of the laminate and 1 atmosphere ambient pressure is at least double the volume of the polymer material, where a) the gauge of each of the films (A) and (B) is at the highest 30 g m −2 in the form it has in the crosslaminate, b) the bonding consists in a combination of a pattern of rectilinear or curved bonding lines ( 4 ), which are combined to form the gas encapsulating pockets, and within each pocket at least 5 spot bonds ( 3 ), and c) the longest extension of each pocket in any direction is at the highest 50 mm. 2. The crosslaminate according to claim 1 , wherein the gauge of the film (A) is at the highest 20 g m −2 in the form it has in the crosslaminate. 3. The crosslaminate according to claim 1 , wherein the longest extension of each pocket in any direction is at the highest 30 mm. 4. The crosslaminate according to claim 1 , wherein the film (A) has a fluted shape, the pitch of the flutes ( 103 ) measured from middle to middle of adjacent flutes on the same side of film (A) is at the highest 3 mm, the bonding spots ( 2 ) are arranged on the crests of the flutes of (A) on the side facing (B), the distance ( 104 ) from middle to middle of adjacent spots ( 2 ) measured along the flutes, is at the highest 3 mm, and each encapsulated pocket comprises at least 2 flutes. 5. The crosslaminate according to claim 4 , wherein the film (B) also has a fluted shape the pitch of said flutes ( 105 ) measured from middle to middle of adjacent flutes on the same side of film (B) is at the highest 3 mm, and the bonding spots ( 2 ) are arranged on the crests of the flutes on the side of (B) facing (A). 6. The crosslaminate according to claim 1 , wherein the film (A) is supplied with cup shaped or trough shaped bosses, and the spot-bonding is localized to crown portions or base portions of the bosses. 7. The crosslaminate according to claim 6 , wherein the film (B) is an unembossed film, in form of a coat produced by extrusion coating so as to establish the orientation of (B) as a longitudinal melt orientation, and to establish the spot-bonding simultaneous with the coating when the molten (B) touches the crown portions or based portions of bosses on (A), the lamination pressure being adjusted such that more than 50% of the film area is left unbonded, whereas the dominating direction of orientation of (A) forms an angle to the longitudinal direction. 8. The crosslaminate according to claim 7 , further comprises a third film (C) on the side of (A) which is opposite to (B) which film (C) is uniaxially oriented or is biaxially oriented with one direction dominating, and which also is supplied with cup shaped or trough shaped bosses, and the film (B) is an unembossed film in form of a tie layer produced by extrusion lamination so as to establish the orientation of (B) as a longitudinal melt orientation, and to establish the spot-bonding when the molten (B) touches the crown portions or base portions of bosses on (A) and the crown portions or base portions of bosses on (C), the laminate pressure being adjusted such that more than 50% of the area of each of the films (A) and (C) is left unbonded, whereas the dominating directions of (A) and (C) from an angle to the longitudinal direction. 9. The crosslaminate according to claim 8 , wherein the dominating direction of (C) crosses the dominating direction of (A). 10. The crosslaminate according to claim 1 , wherein the pattern of bonding lines consist in two arrays each of parallel straight lines, which arrays crisscross each other. 11. The crosslaminate according to claim 1 , wherein the pattern of bonding lines is a honeycomb pattern. 12. The crosslaminate according to claim 1 , wherein the bonding between the films has been established through coextruded lamination layers, which have melting points lower than the polymer material forming the major proportion of the film. 13. The crosslaminate according to claim 1 , wherein more than 50% of each film (A) and (B) comprises HDPE, LLDPE, LDPE, crystalline PP or copolymers based on polyethylene or polypropylene, or blends of such materials. 14. The crosslaminate according to claim 1 , wherein in addition to the pockets with encapsulated gas, the laminate also comprises perforated areas. 15. A crosslaminate comprising at least two bonded-together films (A) and (B), each comprising an orientable, crystalline thermoplastic polymer material and each being uniaxially oriented or being biaxially oriented with one direction dominating, said directions in (A) and (B) crossing each other, the bonding comprising a spot bonding, where a) the gauge of each of the films (A) and (B) is at the highest 30 g m −2 in the form it has in the crosslaminate, b) film (A) is supplied with cup shaped or trough shaped bosses, the spot-bonding being localised to crown portions or to base portions of such bosses on one side of film (A), c) film (B) is an unembossed film, d) the bonding between the film (A) and the film (B) is a spot bonding established on crown portions or base portions of bosses on (A) while at least 25% is kept free of bonding, and e) the dominating direction of orientation in (A) forms an angle higher than zero to the longitudinal direction. 16. The crosslaminate according to claim 15 , wherein the unembossed film (B) is in form of a coat produced by extrusion coating so as to establish the orientation of (B) as a longitudinal melt orientation, and to establish the spot-bonding simultaneous with the coating when the molten (B) touches the crown portions or the base portions of bosses on (A). 17. The crosslaminate according to claim 15 , wherein the two films further are bonded together by curved or reactilinear bonds. 18. The crosslaminate according to claim 15 , wherein both films (A) and (B) have been supplied with a lower melting surface layers to facilitate the bonding. 19. The crosslaminate according to claim 15 , wherein the film (B) is a mono-extruded film formed from a main constituent having a melting point at least 10° C. lower than the main constituent in film (A). 20. The crosslaminate according to claim 19 , wherein the film (A) has been supplied with a lower melting surface layer to facilitate the bonding. 21. The crosslaminate according to claim 15 , characterised in that more than 50% of each film (A) and (B) consists of HDPE, LLDPE, LDPE, crystalline PP or blends or copolymers based on polyethylene or polypropylene. 22. The crosslaminate according to claim 15 , further comprises a third film (C) on the side of (A) which is opposite to (B) which film (C) is uniaxially oriented or is biaxially oriented with one direction dominating, and which also is supplied with cup shaped or trough shaped bosses, and the film (B) is an unembossed film in form of a tie layer produced by extrusion lamination so as to establish the orientation of (B) as a longitudinal melt orientation, and to establish the spot-bonding when the molten (B) touches the crown portions or base portions of bosses on (