Particulate-matter detecting sensor element

The invention claimed is: 1. A particulate-matter detecting sensor element for detecting particulate-matters in a gas to be measured comprising: an insulating substrate having a detecting face to which particulate matters adhere; a plurality of detecting conductors formed in the insulating substrate, the detecting conductors having mutually different polarity; and a heating section formed at the insulating substrate; wherein each detecting conductor includes: a detecting electrode part at least partly exposed to the detecting face; a terminal part formed on an external surface of the insulating substrate and electrically connected to the detecting electrode part; and a connecting part that electrically connects the detecting electrode part and the terminal part, wherein at least a portion of the detecting conductor including the detecting electrode part is constituted of a noble metal conductor formed mainly of at least one noble metal selected from Pt, Au, Pd, Rh, and Ir; at least a portion of the connecting part is constituted of a low expansion conductor formed mainly of a low expansion coefficient metal which linear expansion coefficient is lower than that of the noble metal, and wherein the noble metal conductor and the low expansion conductor are joined at an overlapping part at which the noble metal conductor and the low expansion conductor are partly overlapped with each other on an insulating layer which forms the insulating substrate in a normal line direction of the insulating layer. 2. The particulate-matter detecting sensor element according to claim 1 , wherein the low expansion coefficient metal is at least one metal selected from W and Mo. 3. The particulate-matter detecting sensor element according to claim 1 , wherein the terminal part of the detecting conductor is constituted of the noble metal conductor. 4. The particulate-matter detecting sensor element according to claim 1 , wherein the low expansion conductor is formed inside of the insulating substrate. 5. The particulate-matter detecting sensor element according to claim 1 , wherein the insulating layer is formed in a plural number, a plurality of the insulating layers having the detecting electrode part formed therebetween, and the detecting face is formed on an end surface of the insulating substrate in a direction orthogonal to a laminated direction of the plurality of the insulating layers. 6. The particulate-matter detecting sensor element according to claim 1 , wherein the detecting conductor includes an inner layer conductor formed between each of the plurality of the insulating layers and an outer layer conductor formed on the external surface of the insulating substrate in the laminated direction, an interlaminar via which interlayer-connects the inner layer conductor and the outer layer conductor is formed, and a via conductor in the interlaminar via is formed of the noble metal conductor. 7. The particulate-matter detecting sensor element according to claim 6 , wherein a portion of the inner layer conductor which is directly connected to the interlaminar via connected to the outer layer conductor is formed of the noble metal conductor. 8. The particulate-matter detecting sensor element according to claim 1 , wherein the overlapping part includes a solid solution layer formed by the noble metal and the low expansion coefficient metal. 9. The particulate-matter detecting sensor element according to claim 1 , wherein the terminal part is constituted of the noble metal conductor that is porous. 10. The particulate-matter detecting sensor element according to claim 1 , wherein at least a portion of an area between the connecting part and the terminal part formed of the low expansion conductor of the detecting conductor is constituted of the noble metal conductor with closed pores.