Valve opening and closing timing control apparatus

The invention claimed is: 1. A valve opening and closing timing control apparatus comprising: a drive-side rotational member rotating synchronously with a crankshaft of an internal combustion engine; a driven-side rotational member fixed to a camshaft for opening and closing a valve to integrally rotate with the camshaft; an advanced angle chamber and a retarded angle chamber defined by the drive-side rotational member and the driven-side rotational member; a mounting member including a tubular wall portion and being coaxial with the camshaft, the mounting member mounting the driven-side rotational member to the camshaft; and a spool housed within a void which is defined by the tubular wall portion of the mounting member in a reciprocatable manner along an axis of the mounting member, the spool being supplied with a fluid discharged from an outside pump, wherein a first port and a second port are provided at the tubular wall portion of the mounting member, the first port and the second port allowing a fluid to selectively flow to the advanced angle chamber and the retarded angle chamber or flow out from the advanced angle chamber and the retarded angle chamber based on a movement of the spool, a first flow passage connecting the first port and the advanced angle chamber to each other and a second flow passage connecting the second port and the retarded angle chamber to each other are provided at the driven-side rotational member, a thermal expansion coefficient of a material forming the driven-side rotational member is greater than a thermal expansion coefficient of a material forming the mounting member. 2. The valve opening and closing timing control apparatus according to claim 1 , wherein a supply port at which a fluid from the pump is supplied to the spool is provided at the tubular wall portion of the mounting member, a supply flow passage in communication with the supply port is provided at the driven-side rotational member, at least one of a first communication passage connecting the supply flow passage and the first flow passage to each other and a second communication passage connecting the supply flow passage and the second flow passage to each other is provided at an outer portion of the mounting member. 3. The valve opening and closing timing control apparatus according to claim 2 , wherein at least one of the first communication passage and the second communication passage is provided at an inner peripheral surface of the driven-side rotational member. 4. The valve opening and closing timing control apparatus according to claim 3 , wherein at least one of the first communication passage and the second communication passage extends along a rotation axis of the driven-side rotational member, the driven-side rotational member being formed by an extrusion processing of metal. 5. The valve opening and closing timing control apparatus according to claim 2 , wherein at least one of the first communication passage and the second communication passage is provided at an outer peripheral surface of the mounting member. 6. The valve opening and closing timing control apparatus according to claim 2 , wherein a flow passage resistance of the first communication passage and a flow passage resistance of the second communication passage at an outer portion of the mounting member are different from each other. 7. A valve opening and closing timing control apparatus comprising: a drive-side rotational member rotating synchronously with a crankshaft of an internal combustion engine; a driven-side rotational member fixed to a camshaft for opening and closing a valve to integrally rotate with the camshaft; an advanced angle chamber and a retarded angle chamber defined by the drive-side rotational member and the driven-side rotational member; a mounting member including a tubular wall portion and being coaxial with the camshaft, the mounting member mounting the driven-side rotational member to the camshaft; and a spool housed within a void which is defined by the tubular wall portion of the mounting member in a reciprocatable manner along an axis of the mounting member, the spool being supplied with a fluid discharged from an outside pump, wherein a first port and a second port are provided at the tubular wall portion of the mounting member, the first port and the second port allowing a fluid to selectively flow to the advanced angle chamber and the retarded angle chamber or flow out from the advanced angle chamber and the retarded angle chamber based on a movement of the spool, a first flow passage connecting the first port and the advanced angle chamber to each other and a second flow passage connecting the second port and the retarded angle chamber to each other are provided at the driven-side rotational member, a partition member is provided between the driven-side rotational member and the mounting member, the partition member being formed of a material including a greater thermal expansion coefficient than a thermal expansion coefficient of a material forming the mounting member. 8. The valve opening and closing timing control apparatus according to claim 7 , wherein a supply port at which a fluid from the pump is supplied to the spool is provided at the tubular wall portion of the mounting member, a supply flow passage in communication with the supply port is provided at the driven-side rotational member, at least one of a first communication passage connecting the supply flow passage and the first flow passage to each other and a second communication passage connecting the supply flow passage and the second flow passage to each other is provided at an outer portion of the mounting member. 9. The valve opening and closing timing control apparatus according to claim 8 , wherein at least one of the first communication passage and the second communication passage is provided at an inner peripheral surface of the partition member.