Sealing strip for a paper, cardboard or tissue machine made from a plurality of materials

1 - 15 . (canceled) 16 . A sealing strip suitable for a sealing device for sealing a positive or negative pressure zone of a suction or blower roller of a machine for processing and/or producing web material, the sealing strip comprising: a front end side, a rear end side, and an upper side extending between said front and rear end sides, said upper side being a sealing face and having a lubricant channel being a cutout formed in the sealing strip; a front wall formed at a level of said lubricant channel between said front end side and said lubricant channel; a rear wall forming said sealing face and having a greater wall thickness than said front wall being formed between said lubricant channel and said rear end side; wherein, during an intended use of the sealing strip, said sealing face is set against an inner side of a roller shell of the suction or blower roller in order to seal the positive or negative pressure zone, and lubricant is introduced into an inlet gap between said sealing face and the inner side of the roller shell by way of said lubricant channel, and wherein, during a rotational movement of the roller shell, the roller shell runs onto the sealing strip at said front end side and runs away from the sealing strip on said rear end side; a first material section of the sealing strip being formed of a first material and providing said rear wall in a region of said sealing face and a second material section of the sealing strip being formed of a second material and providing said front wall at least in sections; and said first and second material sections differing from one another in terms of at least one physical property selected from the group consisting of a modulus of elasticity, an abrasion resistance, a hardness and a brittleness. 17 . The sealing strip according to claim 16 , wherein said second material has a smaller modulus of elasticity than said first material. 18 . The sealing strip according to claim 16 , wherein said first material is more brittle and/or harder than said second material. 19 . The sealing strip according to claim 16 , wherein said first material and said second material are adapted to one another such that, in a friction pairing with a material of the inner side of the roller shell and in sliding friction, said first material has a smaller coefficient of friction than said second material. 20 . The sealing strip according to claim 16 , wherein said first material and said second material are adapted to one another such that, in a friction pairing with the material of the inner side of the roller shell and in sliding friction, said first material has a greater abrasion resistance than said second material. 21 . The sealing strip according to claim 16 , wherein said first material comprises a rubber/graphite mixture as an essential constituent part thereof. 22 . The sealing strip according to claim 16 , wherein said second material comprises a plastic material as an essential constituent part thereof. 23 . The sealing strip according to claim 22 , wherein said plastic material is polyphenylene ether (PPE). 24 . The sealing strip according to claim 16 , wherein said first material section forms a main body that provides said rear wall with said sealing face, and said second material section forms a lip that provides said front wall and is connected to said main body. 25 . The sealing strip according to claim 24 , wherein said lip is configured such that, in a case of an intended use of the sealing strip, with said sealing face set against the inner side of the roller shell, an upper edge of said lip is set against the inner side of the roller shell. 26 . The sealing strip according to claim 24 , wherein said lip is configured such that, in a case of an intended use of the sealing strip, with said sealing face set against the inner side of the roller shell, an upper edge of said lip is spaced apart from the inner side of the roller shell by no more than 10 mm. 27 . The sealing strip according to claim 24 , wherein said lip is configured such that, in a case of an intended use of the sealing strip, with said sealing face set against the inner side of the roller shell, an upper edge of said lip is spaced apart from the inner side of the roller shell by no more than 4 mm. 28 . The sealing strip according to claim 16 , wherein said rear wall is inclined from a lowest point of said lubricant channel toward said sealing face, with an inclination being directed in the direction of said rear end side. 29 . The sealing strip according to claim 28 , wherein said inclination towards said rear end side encloses an angle of between 20° and 70° with a horizontal. 30 . The sealing strip according to claim 29 , wherein said inclination towards said rear end side encloses an angle of between 30° and 50° with the horizontal. 31 . The sealing strip according to claim 24 , wherein said lip is connected releasably to the main body by way of a non-positive and/or a positive locking engagement. 32 . The sealing strip according to claim 24 , which comprises a plurality of reinforcing ribs arranged next to one another in a longitudinal direction of the sealing strip and supporting said lip during a rotational movement of the roller shell. 33 . The sealing strip according to claim 16 , wherein said lubricant channel extends over a greatest part of a length of said sealing strip. 34 . The sealing strip according to claim 24 , wherein a transition between said lip and said main body has a planar configuration on said front end side. 35 . A suction or blower roller for a machine for processes or producing web material, comprising: a sealing device for sealing a positive or negative pressure zone of the suction or blower roller, said sealing device including at least one sealing strip according to claim 16 ; wherein said sealing strip is installed in the suction or blower roller, as viewed in a plane which is defined by a rotational movement of a roller shell, in a position between 7 o'clock and 12 o'clock, if a rotational movement direction of the roller shell is in the clockwise direction and in a position between 5 o'clock and 12 o'clock, if the rotational movement direction of the roller shell is in the counter-clockwise direction.