Development of a High Performance Thermal Interface Material With Vertically Aligned Graphite Platelets

Thermal management technology plays a key role in the continuing miniaturization, performance improvements, and higher reliability of electronic systems. For the past decade, and particularly, the past 4 years, the Defense Advanced Research Projects Agency (DARPA) has aggressively pursued the application of micro-and nano-technology to reduce or remove thermal constraints on the performance of defense electronic systems. The DARPA Thermal Management Technologies (TMT) portfolio is comprised of five technical thrust areas: Thermal Ground Plane (TGP), Microtechnologies for Air-Cooled Exchangers (MACE), NanoThermal Interfaces (NTI), Active Cooling Modules (ACM), and Near Junction Thermal Transport (NJTT). An overview of the TMT program will be presented with emphasis on the goals and status of these efforts relative to the current State-of-the-Art. The presentation will close with future challenges and opportunities in the thermal management of defense electronics.

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“…A selected bibliography of NTI team publications is included in this paper [31][32][33][34][35][36][37].…”

Section: Nano Thermal Interfaces (Nti)mentioning

confidence: 99%

Advanced thermal management technologies for defense electronics

Bloschock

Bar‐Cohen

2012

SPIE Proceedings

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“…This allows the process to engineer the desired shear and compressive compliance within the interface while also optimizing for minimal thermal resistance. Teledyne developed a bonding process that vertically aligns graphite platelets within the contact area between two surfaces [14]. The platelets are first aligned and compressed into thin layers before a solder binds the graphite layers to each other and to the surfaces.…”

Section: Description Of Test Samplesmentioning

confidence: 99%

Thermal performance and reliability characterization of bonded interface materials (BIMs)

DeVoto¹,

Paret²,

Mihalic³

et al. 2014

Fourteenth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm)

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“…The GLAD copper springs (GE) and graphite-solder laminated structures (Teledyne) showed the lowest resistivities and are currently undergoing aging and temperature cycling tests to establish their robustness and durability. A selected bibliography of NTI team publications is included in this paper [37][38][39][40][41][42][43][44].…”

Section: Nano Thermal Interfaces (Nti)mentioning

confidence: 99%

Towards Embedded Cooling - Gen 3 Thermal Packaging Technology

Bar‐Cohen

2014

Encyclopedia of Thermal Packaging

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From the dawn of the Information Age thermal management technology has played a key role in the continuing miniaturization, performance improvements, and higher reliability of electronic systems. During the past 65 years, thermal packaging has migrated from ventilation and air-conditioning to cabinet cooling, to package cooling with heat sinks and cold plates, and is today addressing on-chip hot spots and near-junction thermal transport. Following a brief history of thermal packaging, attention will turn to a review of emerging micro and nano-technologies for reducing the thermal resistance of defense electronic systems. The asymptotic maturation of current technology and growing thermal management demands in high performance computing and RF systems have led DARPA to initiate efforts in third-generation "embedded" thermal management technology based on intrachip and interchip microfluidic cooling. The motivation, technological thrusts, and promise of this new thermal management paradigm will be discussed.

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Development of a High Performance Thermal Interface Material With Vertically Aligned Graphite Platelets

Cited by 7 publications

References 0 publications

Advanced thermal management technologies for defense electronics

Advanced thermal management technologies for defense electronics

Thermal performance and reliability characterization of bonded interface materials (BIMs)

Towards Embedded Cooling - Gen 3 Thermal Packaging Technology

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