enhanced through-plane thermal conductivity and

ENHANCED THERMAL CONDUCTIVITY THROUGH THE

significantly enhanced thermal conductivities relative to conventional heat transfer fluids. Numerous theoretical and experimental studies of the effective thermal conductivity of dispersions containing particles have been conducted since Maxwell's theoretical work was

Construction of low melting point alloy/graphene three

the through-plane thermal conductivity of polymer-based composites is as important as in-plane thermal conductivity. In the PVDF4.8Gr/10LMPA composites with 4.8 vol% graphene and 10.0 vol% LMPA exhibited an outstanding in-plane-1 K-1

Enhanced through

2017/7/1Between the heated device and the thermal sink, there is a layer of thermal interface materials (TIMs) with high thermal conductivity in the through-plane direction to ensure heat transfer. Since polymers used in TIMs such as epoxy resins and silicone gel exhibit a poor thermal conductivity between 0.1 and 0.3 W/m K, they cannot meet the requirement of fast heat conduction for the

Graphite films/carbon fiber fabric/ polyurethane

2020/9/8The in-plane thermal conductivity (TC) of composite reaches 242 W m −1 K −1 with the loading of 25 vol% GF and 60 vol% CF, which is 1210 times that of pure TPU. The great improvement of TC is ascribed to the thermal conductive pathways formed by continuous GF with ultrahigh TC.

Enhanced thermal conductivity and mechanical

2021/5/1Enhanced through-plane thermal conductivity in polymer nanocomposites by constructing graphene-supported BN nanotubes J. Mater. Chem. C, 8 (28) (2020), pp. 9569-9575 CrossRef View Record in Scopus Google Scholar [26] S. Liu, B. Zhao, L. Jiang, Y.-W.,

Enhanced thermal conductivity for traditional epoxy

2020/6/12The thermal conductivity of EP/SiO 2 was only 0.45 W m −1 K −1 due to the low thermal conductivity of SiO 2 spheres. As the decrease of SiO 2 /BN ratio, the thermal conductivity of EP/SiO 2 BN enhanced, indicating that the content of BN in hybrid fillers played an important role to form the continuous thermally conductive network.

Simultaneously enhanced dielectric properties and through

Simultaneously enhanced dielectric properties and through-plane thermal conductivity of epoxy composites with alumina and boron nitride Scientific Reports ( IF 3.998) Pub Date : 2021-01-28 Zhengdong Wang, Guo, Liangliang Wang, Liliang Tian, Siyu Chen, Guanglei Wu, Bo Kong, Yonghong Cheng

A Novel Organic Substrate with Enhanced Thermal

The composite with a hexagonal boron nitride weight loading of 50 wt% exhibit the maximum in-plane and through-plane thermal conductivities of 5.85 and 1.60 W/m K, respectively. In addition, the polymer composites also possess good thermal stability, low dielectric

Enhanced thermal conductivity and mechanical

2021/5/1Enhanced through-plane thermal conductivity in polymer nanocomposites by constructing graphene-supported BN nanotubes J. Mater. Chem. C, 8 (28) (2020), pp. 9569-9575 CrossRef View Record in Scopus Google Scholar [26] S. Liu, B. Zhao, L. Jiang, Y.-W.,

Enhanced thermal conductivity and lower density composites

Enhanced thermal conductivity and lower density composites with brick-wall microstructure based on highly oriented graphite nanoplatelet: towards manufacturable cooling substrates for high power density electronic devices Minghao Zhang1,2, Huatao Wang1,2,6, Zhiwei Su1,2, Cong Tian1,2,

Boosting the Heat Dissipation Performance of

Its superior thermal management capability compared with aluminum foil is also revealed by proving its benefit as a thermal interface material. More importantly, by coupling the hypermetallic thermal conductivity in two directions, a novel type of carbon film origami heat sink is proposed and demonstrated, outperforming copper foil in terms of heat extraction and heat transfer for high‐power

Enhanced through‐plane thermal conductivity of

In this article, enhanced TPTC samples of PA6/BN composites with vertical alignment of BN are achieved by FDM, and the maximum of TPTC of samples is 2.03 Wm −1 K −1. Suitable design can reduce the negative effects of voids produced during the deposition of filaments.

Implications for Thermal Management Nanosheets for Enhanced Thermal Conductivity

The through-plane thermal conductivity measurement by TCi. Figure S2. Steady-state temperature profile of G-AP-G and G-AW-G system obtained using the NEMD approach at 300K. Figure S3. The accumulated thermal energies (averaged over the heat source .

Enhanced thermal conductivity and mechanical

2021/5/1Enhanced through-plane thermal conductivity in polymer nanocomposites by constructing graphene-supported BN nanotubes J. Mater. Chem. C, 8 (28) (2020), pp. 9569-9575 CrossRef View Record in Scopus Google Scholar [26] S. Liu, B. Zhao, L. Jiang, Y.-W.,

Enhanced the Thermal Conductivity of

When the loading of AgNWs thermal film is 2.0 mg/mL, the in-plane thermal conductivity of the composite material is significantly increased to 29.2 W/(mK) []. Unique connected structure fillers were also reported, which were fabricated by many methods, such as grafting and so on [ 18, 26 ].

Enhanced thermal conductivity and mechanical

2021/5/1Enhanced through-plane thermal conductivity in polymer nanocomposites by constructing graphene-supported BN nanotubes J. Mater. Chem. C, 8 (28) (2020), pp. 9569-9575 CrossRef View Record in Scopus Google Scholar [26] S. Liu, B. Zhao, L. Jiang, Y.-W.,

Enhanced through

High thermal conductivity of nanocomposite-based polymer matrix is one of the most important keys in developing many heat exchanger instruments. Here, we report a novel nanocomposite system based on silver-coated reduced graphene oxide (Ag/rGO) in silane cross-linked low-density polyethylene (XLPE) matrix with unprecedented through-plane thermal conductivity.

Thickness‐Dependent In‐Plane Thermal Conductivity and

Here, the in‐plane thermal conductivity and power factor in exfoliated few‐layer ZrTe 5 nanoribbons with different thickness measured using suspended thermal bridge method are reported. A nearly linearly thickness‐dependent thermal conductivity κ is observed where thicker nanoribbons present higher thermal conductivity in the temperature range of 100–300 K due to phonon‐boundary

Enhanced thermal conductivity through the

2021/4/20article{osti_459378, title = {Enhanced thermal conductivity through the development of nanofluids}, author = {Eastman, J A and Choi, U S and Li, S and Thompson, L J and Lee, S}, abstractNote = {Low thermal conductivity is a primary limitation in the development of energy-efficient heat transfer fluids required in many industrial applications.

The enhanced thermal transport properties of a heat

The through-plane thermal conductivity of AGP reaches 6.67 W m −1 K −1 with 42.36 wt% APBI and the tensile strength of AGP reaches 47.9 MPa with 14.22 wt% APBI. AGP, with both good thermal transport properties and mechanical properties, is expected to be used for thermal management applications as a heat spreader in industry.

Simultaneously enhanced dielectric properties and through

Simultaneously enhanced dielectric properties and through-plane thermal conductivity of epoxy composites with alumina and boron nitride Scientific Reports ( IF 3.998) Pub Date : 2021-01-28 Zhengdong Wang, Guo, Liangliang Wang, Liliang Tian, Siyu Chen, Guanglei Wu, Bo Kong, Yonghong Cheng

Highly flexible biodegradable cellulose

The in-plane thermal conductivity of the CNFG composite film loaded with 50 wt% graphene reached 164.7 W m −1 K −1, and the through-plane thermal conductivity reached 5.0 W m −1 K −1. More importantly, the thermal conductivities of the CNFG composite films in both the axial and radial directions barely changed after 1000 bending cycles.

Enhanced thermal conductivity and mechanical

2021/5/1Enhanced through-plane thermal conductivity in polymer nanocomposites by constructing graphene-supported BN nanotubes J. Mater. Chem. C, 8 (28) (2020), pp. 9569-9575 CrossRef View Record in Scopus Google Scholar [26] S. Liu, B. Zhao, L. Jiang, Y.-W.,

Enhanced thermal conductivity through the

2021/4/20article{osti_459378, title = {Enhanced thermal conductivity through the development of nanofluids}, author = {Eastman, J A and Choi, U S and Li, S and Thompson, L J and Lee, S}, abstractNote = {Low thermal conductivity is a primary limitation in the development of energy-efficient heat transfer fluids required in many industrial applications.

Largely Suppressed Magneto

Highly conductive topological semimetals with exotic electronic structures offer fertile ground for the investigation of the electrical and thermal transport behavior of quasiparticles. Here, we find that the layer-structured Dirac semimetal PtSnsub4/sub exhibits a largely suppressed thermal conductivity under a magnetic field. At low temperatures, a dramatic decrease in the thermal

Preparation of PMIA dielectric nanocomposite with

Additionally, the enhanced through-plane thermal conductivity also can be ascribed to the additional heat transfer pathways formed by MWCNTs. To observe the different thermal conduction between FGC-0 and FGC/PMIA nanocomposite more intuitively, FGC-0 and FGC-3

Thickness‐Dependent In‐Plane Thermal Conductivity and

Here, the in‐plane thermal conductivity and power factor in exfoliated few‐layer ZrTe 5 nanoribbons with different thickness measured using suspended thermal bridge method are reported. A nearly linearly thickness‐dependent thermal conductivity κ is observed where thicker nanoribbons present higher thermal conductivity in the temperature range of 100–300 K due to phonon‐boundary

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