2013
DOI: 10.1115/1.4024737
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Modeling and Experimental Characterization of Metal Microtextured Thermal Interface Materials

Abstract: A metal mierotextured thermal interface material (MMT-TIM) has been proposed to address some of the shortcomings of conventional TIMs. These materials consist of arrays of small-scale metal features that plastically deform when compressed hetu'een mating surfaces, conforming to the surface asperities of the contacting bodies and resulting in a low-thermal resistance assembly. The present work details the development of an accurate thermal model to predict the thermal resistance and effective thermal conductiv… Show more

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Cited by 11 publications
(5 citation statements)
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“…A metal foil is textured with microfeatures such as cones which deform and conform to a surface under pressure. Several different foil geometries have been investigated [179], and while the performance of these metal micro-textured TIMs is much lower than the highest-performing TIMs, on the order of 100 Kmm 2 W −1 , it compares favourably compared to common graphite pads [178, 180]. Further optimisation and a more facile manufacturing method could make this a viable TIM in some applications.…”
Section: Other Timsmentioning
confidence: 99%
“…A metal foil is textured with microfeatures such as cones which deform and conform to a surface under pressure. Several different foil geometries have been investigated [179], and while the performance of these metal micro-textured TIMs is much lower than the highest-performing TIMs, on the order of 100 Kmm 2 W −1 , it compares favourably compared to common graphite pads [178, 180]. Further optimisation and a more facile manufacturing method could make this a viable TIM in some applications.…”
Section: Other Timsmentioning
confidence: 99%
“…Metal foil with microtextured surface have been proposed by Kempers et al . where the authors modelled and fabricated 36 and 28 µm thick Ag foils with cones approximately 0.95 mm tall and 1 mm base on a 2 mm pitch [99]. The concept was aimed to target the interfacial contact resistance and associated intimate contact area by using a compliant metal and then plastically deforming the small structures when the two opposing faces were compressed.…”
Section: Different Types Of Thermal Interface Materialsmentioning
confidence: 99%
“…Vertically aligned carbon nanotubes (CNTs) have extremely high axial thermal conductivity [22,23] and can be bonded to mating surfaces to enhance contact thermal conductance [24,25]. Metal nanowires [26,27] and nanotubes [28,29] having intrinsically high material thermal conductivity can be designed to have high mechanical compliance by engineering their shape/structure. These TIMs have reported extraordinary thermal performance, but permanent bonds must be created between the mating surfaces, which is not possible for pluggable optical modules.…”
Section: Introductionmentioning
confidence: 99%