Flowable compositions with low temperature curing to form thermally conductive pathways in electronics type applications and methods relating thereto

What is claimed is: 1. A flowable composition comprising: a. a flowable carrier agent; b. a resin; and c. a blend of conductive flakes and conductive particles, wherein: i. the flowable carrier agent together with the resin are together less than or equal to 15 wt % of the entire flowable composition, ii. the boiling point of the flowable carrier agent is in a range of 160-350 degree C., iii. the conductive flakes together with the conductive particles are together greater than or equal to 85 weight percent of the entire flowable composition, iv. the conductive particles are substantially spherical and have a mean particle diameter in a range of 0.01-0.1 micron, v. the blend of conductive metal flakes and conductive particles have a metal content of 98 weight % or higher, and the resin is at least one of a polyester binder, a cellulose based binder, a melamine based binder or a cycloaliphatic based binder. 2. A flowable composition in accordance with claim 1 , wherein the conductive flakes, on average, are greater than a micron in at least one dimension. 3. A flowable composition in accordance with claim 1 , wherein the conductive flakes and conductive particles comprise silver. 4. A flowable composition in accordance with claim 1 , wherein the conductive flakes and conductive particles are packed together to a packing density greater than 60% of the density of the conductive particles and conductive flakes. 5. A flowable composition in accordance with claim 1 , wherein the conductive flakes have a size that is greater than 1 micron and less than 10 microns. 6. A flowable composition comprising: a. a solvent; b. an organic resin; c. a blend of conductive flakes and substantially spherical conductive particles, wherein the conductive flakes and conductive particles comprise silver, and the conductive particles comprise a microparticle portion and a nanoparticle portion, the nanoparticle portion being particles having all dimensions between 0.01 and 0.1 microns that comprise 10-50 weight percent of the total weight of the conductive flakes and particles, and wherein said microparticle portion comprises particles that have all dimensions that are less than a μm and greater than 0.1 μm on average; wherein the solvent together with the organic resin are together less than 10 wt % of the entire flowable composition, wherein the organic resin is at least one of a polyester binder, a cellulose based binder, a melamine based binder or a cycloaliphatic based binder, and wherein the conductive flakes together with the conductive particles are together greater than 90 weight percent of the entire flowable composition. 7. A flowable composition in accordance with claim 6 , wherein the conductive flakes have a size that is greater than 1 micron and less than 10 microns. 8. A flowable composition comprising: a. a flowable carrier agent; b. a resin; and c. a blend of conductive flakes and conductive particles, wherein: i. the flowable carrier agent together with the resin are together less than or equal to 15 wt % of the entire flowable composition, ii. the boiling point of the flowable carrier agent is below 160 degree C., iii. the conductive flakes together with the conductive particles are together greater than or equal to 85 weight percent of the entire flowable composition, iv. the conductive particles are substantially spherical and have a mean particle diameter in a range of 0.01-0.1 micron, v. the blend of conductive metal flakes and conductive particles have a metal content of 98 weight % or higher, and the resin is at least one of a polyester binder, a cellulose based binder, a melamine based binder or a cycloaliphatic based binder.