摘要:
A thermal conductivity measurement apparatus for measuring a thermal conductivity of a one-dimensional material includes a substrate, a vacuum chamber receiving the substrate and four spaced electrodes. The one-dimensional material spans across the four spaced electrodes. A middle part of the one-dimensional material, located between the second and third electrodes, is suspended. The present disclosure further provides a method for measuring the thermal conductivity of the one-dimensional material.
摘要:
The present invention relates to a carbon nanotube composite electrode material, a method for manufacturing the same and an electrode including the carbon nanotube composite material. The carbon nanotube electrode material includes carbon fibers and carbon nanotubes. The carbon fibers constitute a network structure. The carbon nanotubes are wrapped around and adhering to the carbon fibers. Because a diameter of the carbon fibers is about 100 times larger than that of the carbon nanotubes, gaps between the carbon fibers are also larger than that between the carbon nanotubes such that electrolytes can easily penetrate into the carbon fibers and come into contact with all or nearly all of the available surface area of the carbon nanotubes. In other words, an effective surface area of the carbon nanotubes is improved, and capacity of electrode material is also improved.
摘要:
A membrane includes a fiber material (e.g., in fabric form) and an agar material distributed so as to surround the fiber material. Another membrane includes an agar material and a fiber material (e.g., non-woven fibers) dispersed in the agar. Moreover, a method for making the membrane includes the steps of: (a) mixing the agar material with water to form a slurry of agar; (b) immerging a fiber material into the slurry of agar to form a pre-composite; (c) molding the pre-composite to form a composite and solidifying the composite to obtain the membrane.
摘要:
A carbon nanotube composite material (10) includes a matrix material (12) having two opposite surfaces (102) and (104), a number of CNTs (14) each having two opposite end portions (112) and (114) embedded in the matrix material. The two opposite end portions of each CNT extend to and, potentially, out of the respective two opposite surfaces of the matrix material. A method for manufacturing the carbon nanotube composite material includes the steps of: providing a substrate and forming a carbon nanotube array in a selective pattern thereon; providing a pair of protective layers, a respective protective layer being attached on a corresponding portion of ends of CNTs; filling clearances existing among CNTs and between the two protective layers with a matrix material; and removing the protective layers from CNTs.
摘要:
An apparatus for manufacturing a large-area carbon nanotube film includes a reactor chamber, a helical-shaped substrate, and a supporter. The reactor chamber includes an inlet and an outlet. The inlet and the outlet are aligned on an axis of the reactor chamber. The helical-shaped substrate and the supporter are located wholly inside the reactor chamber. The supporter is moveable along the axis of the reactor chamber, and the helical-shaped substrate is supported by the supporter.
摘要:
A strain measurement device includes a strain gauge, a holding device, a transverse strain recorder, and a data processing device. The strain gauge includes at least one first and at least one second layers of carbon nanotube films, each layer of carbon nanotube films having a plurality of carbon nanotubes. The carbon nanotubes in at least one first layer of carbon nanotube film align along a first direction. The carbon nanotubes in at least one second layer of carbon nanotube film align along a second direction. The holding device is used to fasten a specimen and the strain gauge. The transverse strain recorder is used to record a transverse strain of the strain gauge. The data processing device is used to calculate an axial strain of the strain gauge.
摘要:
An electrostrictive composite includes a first material layer and a second material layer. The first material layer and the second material layer are stacked to each other. The thermal expansion coefficients of the first material layer and the second material layer are different. The first material layer includes a polymer matrix and a plurality of carbon nanotubes dispersed therein. Also an electrothermic type actuator using the electrostrictive composite is provided.
摘要:
A thermal interface material includes an array of carbon nanotubes with interspaces defined therebetween; and a low melting point metallic material filled in the interspaces. A method for fabricating a thermal interface material, the method includes (a) providing an array of carbon nanotubes with interspaces defined therebetween; and (b) depositing a low melting point metallic material on the carbon nanotubes in the interspaces therebetween to form a metallic layer with the array of carbon nanotubes embedded therein, and thereby, achieving the thermal interface material.
摘要:
A method for manufacturing a carbon nanotube/polymer composite includes the steps of: (a) providing a carbon nanotube array formed on a substrate in a container; (b) providing a prepolymer of polymethyl methacrylate (PMMA); (c) putting the prepolymer into the container for a period of over 30 minutes to fill in clearances of the carbon nanotube array; and (d) polymerizing the prepolymer film at a temperature of about 50° C. to 60° C. for a period of about 1 hour to 4 hours and then heating the prepolymer film to about 90° C. to 100° C. to form a polymer film, the carbon nanotube array thereby being embedded within the polymer film.
摘要:
A mould includes a base having a first surface and a second surface opposite to the first surface; and a plurality of nano-scaled holes defined through the base. Each nano-scaled hole extends from the first surface to the second surface of the base and is parallel to each other and oriented substantially perpendicular to the first and second surface.