A foaming adhesive sheet comprising a substrate and an adhesive layer placed on at least one surface side of the substrate; wherein the adhesive layer includes a curable adhesive, and a forming agent; the adhesive layer is placed on an outermost surface; a pressure-sensitive adhesive force of the adhesive layer is 0 N/25 mm or more and 0.1 N/25 mm or less; a static friction coefficient of a surface of the adhesive layer opposite to the substrate is 0.30 or less; and a pencil hardness of a surface of the adhesive layer opposite to the substrate is F or more.

An injection resin composition for a home appliance having high flowability, high tensile strength, and excellent chemical resistance and a refrigerator using the same. A refrigerator according to an embodiment of the present disclosure includes: a cabinet frame defining an external appearance of the refrigerator; a liner separating an inside of the refrigerator from an insulation material while the insulation material is provided between the cabinet frame and the liner, wherein the liner includes a high impact polystyrene (HIPS) injection material or an acrylonitrile butadiene styrene (ABS) ALLOY injection material.

A probe pin cleaning pad including a release layer or composite plate, an adhesive layer, a substrate layer, a cleaning layer, and a polishing layer is provided. The adhesive layer is disposed on the release layer or composite plate. The substrate layer is disposed on the adhesive layer. The cleaning layer is disposed on the substrate layer. The polishing layer is disposed on the cleaning layer. A cleaning method for a probe pin is also provided.

Provided is a thermally conductive resin sheet having sufficient withstand voltage performance and excellent moisture absorption reflow tolerance that comprises a resin composition containing a crystalline thermoplastic resin having a melting point of 300° C. or higher and a thermally conductive filler, the thermally conductive filler comprising boron nitride agglomerated particles.

In addition, the thermally conductive resin sheet according to another embodiment of the present invention comprises a resin composition containing 15% by mass or more and 40% by mass or less of a crystalline thermoplastic resin having a melting point of 300° C. or higher and 60% by mass or more and 85% by mass or less of a thermally conductive filler, a thermal conductivity of the thermally conductive resin sheet in the thickness direction at 25° C. being 5.0 W/m.Math.K or more.

Disclosed is a biaxially oriented polyester film that is superior in transparency and easy to perform secondary processing such as coating and vapor deposition, and satisfies performance after the secondary processing. The biaxially oriented polyester film consists of a polyester resin composition including particles, and at least one surface of the film satisfies all of the following requirements (1) to (3): (1) the number of micro protrusions having a height of less than 3 nm per an area of 4×10.sup.−12 m.sup.2 of 250 or more and 600 or less; (2) the number of micro protrusions having a height of 3 nm or more per an area of 4×10.sup.−12 m.sup.2 of 300 or more and 600 or less; and (3) an arithmetic average height Sa of 0.010 μm or more and 0.025 μm or less.

A light reflecting headgear assembly includes an article of headgear that is wearable on a user's head. The article of headgear is comprised of a rigid material to protect the user's head from impact. A substrate is coupled on the article of headgear and a plurality of beads is each partially embedded into the substrate. Each of the beads is comprised of a translucent material to pass light therethrough. Each of the beads is partially embedded into the substrate to reflect light for enhancing visibility of the article of headgear in a darkened environment. A covering layer is positioned over the plurality beads and the covering layer is comprised of a translucent material to pass light therethrough.

The problem to be solved by the invention is to provide a laminate capable of effectively enhancing thermal conductivity and adhesiveness, in spite of the relatively large thickness of a patterned metal layer. The laminate (1) according to the present invention includes a metal substrate (4), an insulating layer (2) laminated on one surface of the metal substrate (4), and a patterned metal layer (3) laminated on the surface of the insulating layer (2) on the side opposite to the metal substrate (4), the metal layer (3) is 300 m or more in thickness, and the insulating layer (2) includes boron nitride (12) and an inorganic filler (13) other than boron nitride.

The invention describes the use of magnetic platelet particles as a multifunctional additive to various formulations of polyolefin plastic films usable to fabricate packaging and to provide said packaging with similar barrier properties as aluminium metallizations or other gas barriers, with the added benefit of allowing separation and recovery of the packaging by magnetic means. Such novel additives, films and packaging are environmentally friendly and food-safe, so that after use they can be either recovered for reuse, composted, or dumped in the environment to biodegrade. The invention comprises various types of films comprising the additive and methods to improve the properties of said films.

An apparatus to emit and/or receive electromagnetic waves, the apparatus including a first material having a high electrical permittivity, and a second material having a high magnetic permeability, wherein the first material contacts the second material while maintaining a dielectric enhancement between the first material and the second material by combining the first material and the second material under a low pressure.

A probe pin cleaning pad including a foam layer, a cleaning layer, and a polishing layer is provided. The cleaning layer is disposed between the foam layer and the polishing layer. A cleaning method for a probe pin is also provided.