Method of resistively welding parts and parts made thereby

The invention claimed is: 1. A method of securing a first component part and a second component part together, the method comprising: (a) providing a meltable substrate, which has an electrically conductive member directly provided thereon, between a first surface of the first component part and a facing first surface of the second component part wherein the electrically conductive member comprises a first portion connectable to a source of current and a second portion electrically connected to the first portion and comprising a plurality of sub-conductive members; (b) melting the meltable substrate at a melting temperature achieved by passing a current through the electrically conductive member, wherein essentially only the meltable substrate melts at the melting temperature, and (c) after step (b), cooling the meltable substrate whereby the first and second component parts are secured together. 2. The method of claim 1 wherein the first surface of the first component part has a surface area that is to be connected to the first surface of the second component part and the plurality of sub-conductive members are distributed across at least 50% of the surface area. 3. The method of claim 1 wherein the first surface of the first component part has a surface area that is to be connected to the first surface of the second component part and the plurality of sub-conductive members are distributed across at least 75% of the surface area. 4. The method of claim 1 wherein the sub-conductive members are generally evenly spaced apart from each other. 5. The method of claim 1 wherein the first portion of the electrically conductive member and each of the sub-conductive members has a longitudinal length and a width in a direction transverse to the length and the width of each of the sub-conductive members is narrower than the width of the first portion of the electrically conductive member. 6. The method of claim 1 wherein at least the first component part comprises wood. 7. The method of claim 1 , wherein the meltable substrate has a lower melting point than each of the first and second component parts. 8. A meltable substrate having an electrically conductive member provided thereon wherein the electrically conductive member comprises a first portion connectable to a source of current and a second portion electrically connected to the first portion, the second portion comprising a plurality of sub-conductive members, wherein the meltable substrate is made of a material that comprises a resistively weldable plastic, wherein a face of the substrate on which the electrically conductive member is provided has a surface area and the sub-conductive members are distributed across at least 50% of the surface area. 9. The meltable substrate of claim 8 wherein the sub-conductive members are distributed across at least 75% of the surface area. 10. The meltable substrate of claim 8 wherein the sub-conductive members are generally evenly spaced apart from each other. 11. The meltable substrate of claim 8 wherein the first portion of the electrically conductive member and each of the sub-conductive members has a longitudinal length and a width in a direction transverse to the length and the width of each of the sub-conductive members is narrower than the width of the first portion of the electrically conductive member. 12. A method of securing a first component part and a second component part together, the method comprising: (a) providing an assembly consisting of a meltable substrate, which has an electrically conductive member secured thereto, between a first surface of the first component part and a facing first surface of the second component part, wherein the meltable substrate is separate from the first and second component parts before performing step (a), wherein the electrically conductive member is connectable to a source of current, wherein the meltable substrate has a lower melting point than both the first surface of the first component part and the first surface of the second component part; (b) melting the meltable substrate at the lower melting point by passing a current through the electrically conductive member, and (c) after step (b), cooling the meltable substrate to form a joining portion whereby the first surface of the first component part and the first surface of the second component part are secured together by the joining portion which contacts the first surface of the first component part and the first surface of the second component part. 13. The method of claim 12 , wherein only the meltable substrate melts at the melting temperature achieved by passing the current through the electrically conductive member. 14. The method of claim 12 , wherein the electrically conductive member comprises a first portion connectable to the source of current and a second portion electrically connected to the first portion and comprising a plurality of sub-conductive members. 15. The method of claim 12 , wherein the meltable substrate consists of a resistively weldable plastic. 16. The method of claim 12 , wherein the meltable substrate consists essentially of a single layer of resistivity weldable plastic.