Search Results - "Monje, I E"

Optimizing thermal conductivity in gas-pressure infiltrated aluminum/diamond composites by precise processing control by Monje, I.E., Louis, E., Molina, J.M.

“…The effects of processing conditions on the thermal conductivity (TC) of aluminum/diamond composites fabricated by means of gas-pressure infiltration, have…”
Get full text

On critical aspects of infiltrated Al/diamond composites for thermal management: Diamond quality versus processing conditions by Monje, I.E., Louis, E., Molina, J.M.

“…Al/diamond composites containing diamond particles of different qualities have been manufactured by gas pressure-assisted metal infiltration and characterized…”
Get full text

Role of Al4C3 on the stability of the thermal conductivity of Al/diamond composites subjected to constant or oscillating temperature in a humid environment by Monje, I. E., Louis, E., Molina, J. M.

“…Present technologies allow fabrication of aluminum/diamond particles composites with excellent thermal properties, in particular showing the by far highest…”
Get full text

Interfacial nano-engineering in Al/diamond composites for thermal management by in situ diamond surface gas desorption by Monje, I.E., Louis, E., Molina, J.M.

“…The manuscript shows that nano-engineering the surface of diamond particles prior contacting the liquid metal strongly enhances the Thermal Conductivity (TC)…”
Get full text

Role of Al sub(4)C sub(3) on the stability of the thermal conductivity of Al/diamond composites subjected to constant or oscillating temperature in a humid environment by Monje, I E, Louis, E, Molina, J M

“…Present technologies allow fabrication of aluminum/diamond particles composites with excellent thermal properties, in particular showing the by far highest…”
Get full text

Role of Al.sub.4C.sub.3 on the stability of the thermal conductivity of Al/diamond composites subjected to constant or oscillating temperature in a humid environment by Monje, I. E, Louis, E, Molina, J. M

“…Present technologies allow fabrication of aluminum/diamond particles composites with excellent thermal properties, in particular showing the by far highest…”
Get full text

Aluminum/diamond composites: A preparative method to characterize reactivity and selectivity at the interface by Monje, I.E., Louis, E., Molina, J.M.

“…Reactivity at the interface in aluminum/diamond composites, which are excellent candidates for thermal management, has been identified to be determinant of…”
Get full text