Glass run channel, glass run channel assembly and manufacturing method of glass run channel

What is claimed is: 1. A glass run channel having an elongated shape, which is mounted on a run mounting portion of a window frame of a vehicle door, guides moving up and down of a windowpane and is made of a polymer material, the glass run channel comprising: a run channel main body that forms the main part of the glass run channel, the run channel main body including: a base bottom portion which is provided at a position facing an end surface of the windowpane, the base bottom portion including a low friction material layer, an interior side wall portion which extends from a width end of the base bottom portion, the interior side wall portion including a low friction material layer, an exterior side wall portion which extends from another width end of the base bottom portion, the exterior side wall portion including a low friction material layer, an interior seal lip, which projects toward the base bottom portion from an opening side end of the interior side wall portion and is configured to elastically contact a first surface of the windowpane, the interior seal lip including a low friction material layer, an exterior seal lip, which projects toward the base bottom portion from an opening side end of the exterior side wall portion and is configured to elastically contact a second surface of the windowpane, the exterior seal lip including a low friction material layer, an exterior holding lip, which projects away from the base bottom portion from an end portion of the exterior side wall portion at the base bottom portion side and elastically engages or contacts an exterior step portion of an outer panel of the vehicle door, and an interior holding lip, which projects away from the base bottom portion from an end portion of the interior side wall portion at the base bottom portion side and elastically engages or contacts an interior step portion of an inner panel of the vehicle door, wherein the run channel main body has a foamed part made of a foamable polymer material that includes an olefin system thermoplastic elastomer material and thermal expansion capsules, and has foaming cells which are formed by expansion of the thermal expansion capsules, a water absorption rate of the foamed part of the run channel main body is adjusted to 5% or less, the specific gravity of the foamed part of the run channel main body is 0.53 to 0.70, and the foamable polymer material, which forms the foamed part of the run channel main body, includes 100 parts by weight of the olefin system thermoplastic elastomer material and 0.5 to 2.0 parts by weight of the thermal expansion capsules. 2. The glass run channel according to claim 1 , wherein the water absorption rate of the foamed part of the run channel main body is adjusted to 1% or less. 3. The glass run channel according to claim 1 , wherein the specific gravity of the foamed part of the run channel main body is 0.65. 4. The glass run channel according to claim 1 , wherein the foamable polymer material, which forms the foamed part of the run channel main body, includes 100 parts by weight of the olefin system thermoplastic elastomer material and 1.0 parts by weight of the thermal expansion capsules. 5. The glass run channel according to claim 1 , wherein the foamed part of the run channel main body is formed such that the foaming cells inside the foamed part of the run channel main body are closed cells that do not communicate with external air. 6. The glass run channel according to claim 5 , wherein the foamed part of the run channel main body is formed such that the foaming cells inside the foamed part of the run channel main body are closed cells that do not communicate with each other. 7. A glass run channel assembly including at least two glass run channels according to claim 1 , wherein the at least two glass run channels are joined and constituted in an integrally continuous shape to each other by a connecting body. 8. A method of manufacturing the glass run channel according to claim 1 , the method comprising: inputting the olefin system thermoplastic elastomer material and a masterbatch material into an extrusion molding machine in an adjusted weight ratio, wherein the masterbatch material is made by mixing the thermal expansion capsules with a thermoplastic resin material, the thermoplastic resin material being the same material as the olefin system thermoplastic elastomer material or being miscible with the olefin system thermoplastic elastomer material, providing a foamable polymer material by heating and pressurizing each material while mixing in the extrusion molding machine; supplying the foamable polymer material to a mold; extruding the foamable polymer material from an outlet of the mold of the extrusion molding machine after supplying the foamable polymer material to the mold; forming a molding body of a shape corresponding to a cross-sectional shape of the glass run channel by expanding and foaming the thermal expansion capsules immediately after the extrusion; and cooling and solidifying the molding body after the foaming. 9. A glass run channel having an elongated shape, which is mounted on a run mounting portion of a window frame of a vehicle door, guides moving up and down of a windowpane and is made of a polymer material, the glass run channel comprising: a run channel main body that forms the main part of the glass run channel, the run channel main body including: a base bottom portion which is provided at a position facing an end surface of the windowpane, the base bottom portion including a low friction material layer, an interior side wall portion which extends from a width end of the base bottom portion, the interior side wall portion including a low friction material layer, an exterior side wall portion which extends from another width end of the base bottom portion, the exterior side wall portion including a low friction material layer, an interior seal lip, which projects toward the base bottom portion from an opening side end of the interior side wall portion and is configured to elastically contact a first surface of the windowpane, the interior seal lip including a low friction material layer, an exterior seal lip, which projects toward the base bottom portion from an opening side end of the exterior side wall portion and is configured to elastically contact a second surface of the windowpane, the exterior seal lip including a low friction material layer, an exterior holding lip, which projects away from the base bottom portion from an end portion of the exterior side wall portion at the base bottom portion side and elastically engages or contacts an interior step portion of an outer panel of the vehicle door, and an interior holding lip, which projects away from the base bottom portion from an end portion of the interior side wall portion at the base bottom portion side and elastically engages or contacts an interior step portion of an inner panel of the vehicle door, wherein the base bottom portion, the interior side wall portion, the exterior side wall portion and the interior seal lip are made of a foamable polymer material that includes an olefin system thermoplastic elastomer material and thermal expansion capsules, and has foaming cells which are formed by expansion of the thermal expansion capsules, each water absorption rate of the base bottom portion, the interior side wall portion, the exterior side wall portion and the interior seal lip is adjusted to 5% or less, the specific gravity of the foamed part of the run channel main body is 0.53 to 0.70, and the foamable polymer material, which forms the foamed part of the run channel main body, includes 100 parts by weight of the olefin system thermoplastic elasto