摘要:
There is provided a resin composition which can be thermoset at a temperature of approximately 80° C., and has excellent PCT resistance and a long pot life. This resin composition is suitable as a one-component adhesive agent to be used during the manufacture of image sensor modules or electronic components. The resin composition according to the present invention is a resin composition having the following characteristics. The resin composition includes (A) a compound represented by formula (1) below, an oligomer having as its basic skeleton a structure represented by formula (2) below, (C) an epoxy resin, and (D) a curing accelerator. The mass ratio ((B)/(A)) between the compound of the (A) component and the oligomer of the (B) component is 5 to 25%. Furthermore, the total content of the compound of the (A) component and the oligomer of the (B) component is 0.5 equivalents to 2.5 equivalents in terms of the ratio of the thiol equivalent of the compound of the (A) component and the oligomer of the (B) component with respect to the epoxy equivalent of the (C) component. In addition, the chloride ion concentration in the resin composition is 230 ppm or less.
摘要:
This liquid sealing material has low thermal expansion and has injection properties for injection into gaps between a semiconductor element and a substrate; this electronic component is formed by sealing a sealing site using the liquid sealing material. This liquid sealing material is characterized by containing (A) a liquid epoxy resin, (B) a curing agent, (C) a silica filler with an average particle diameter of 7-50 nm, surface treated with 2-(3,4-epoxy cyclohexyl) ethyl trimethoxysilane, and (D) a silica filler with an average particle diameter of 0.2-5 μm, wherein relative to a total of 100 parts by mass of all components of the liquid sealing material, the total of the silica filler of component (C) and the silica filler of the component (D) is 45-77 parts by mass, and the mixing ratio (weight ratio) of the silica filler of component (C) and the silica filler of component (D) is 1:10.2-1:559.
摘要:
The purpose of the present invention is to provide: a liquid sealing material which has excellent PCT (pressure cooker test) resistance; and an electronic component which is obtained by sealing a part to be sealed with use of the liquid sealing material. A liquid sealing material of the present invention contains (A) a liquid epoxy resin, (B) a curing agent, (C) a silica filler and (D) a coupling agent, and is characterized in that the boron content in the silica filler (C) has an average of 1-50 ppm.
摘要:
A liquid sealing material which has excellent PCT (pressure cooker test) resistance, and an electronic component which is obtained by sealing a part to be sealed with use of the liquid sealing material. A liquid sealing material contains (A) a liquid epoxy resin, (B) a curing agent, (C) a silica filler and (D) a coupling agent, and the boron content in the silica filler (C) has an average of 1-50 ppm.
摘要:
An underfill composition for encapsulating a bond line and a method of using the underfill composition are described. Advantageously, the disclosed underfill composition in an uncured state has a fluidity value of less than about ten minutes over about a two centimeter distance at a temperature of about 90 degrees C. and at a bond line thickness of about 50 microns or less and still have a bulk thermal conductivity that is greater than about 0.8 W/mK in the cured state.
摘要:
A conductive paste including (A) conductive particles, (B) a glass frit containing substantially no lead, arsenic, tellurium, and antimony, and (C) a solvent. The glass frit (B) has a remelting temperature of 320 to 360° C., wherein the remelting temperature is indicated by a peak top of at least one endothermic peak having an endotherm of 20 J/g or more in a DSC curve as measured by a differential scanning calorimeter. The conductive paste can also include at least one metal oxide (D) selected from the group consisting of tin oxide, zinc oxide, indium oxide, and copper oxide. The glass frit (B) can further include (B-1) Ag2O, (B-2) V2O5, and (B-3) MoO3. The conductive paste can achieve binding at a relatively low temperature (such as 370° C. or lower) and maintains a bond strength at a relatively high temperature (such as 300 to 360° C.).
摘要:
Conventional ion rechargeable batteries having an electrode layer on an electrolyte layer suffer from an impurity layer formed at the interface, degrading performance. Conventional batteries with no such impurity layer have a problem of weak interface bonding. In the present invention, in a baking process step after an electrode layer is laminated on an electrolyte layer, materials for an electrode layer and an electrolyte layer are selected such that an intermediate layer formed of a reaction product contributing to charging and discharging reactions is formed at the interface of the electrode layer and the electrolyte layer. In addition, a paste that an active material is mixed with a conductive material at a predetermined mixing ratio is used to form a positive electrode layer and a negative electrode layer. Reductions in electrode resistance and interface resistance and improvement of charging and discharging cycle characteristics are made possible.
摘要:
A metal particle which is a non-nucleated, spherical porous material having continuous open pores, and which is formed from dendritic crystals which have grown uniformly outward from the center without requiring a nucleating agent. The metal particle is unlikely to suffer bonding or aggregation of the metal particles and exhibits excellent dispersibility. When the metal particle is used in a conductive composition, such as a conductive paste, a cured product having satisfactory conduction properties can be obtained at a relatively low temperature, making it possible to easily control the specific gravity or resistance.
摘要:
This is to provide an all solid state secondary battery which can be produced by an industrially employable method capable of mass-production and has excellent secondary battery characteristics.This is an all solid state secondary battery containing a laminated material in which a positive-electrode unit and a negative-electrode unit are laminated alternately through an ion conductive inorganic-material layer, the positive-electrode unit has positive active material layers on both surfaces of a positive-electrode collector layer, the above-mentioned negative-electrode unit has negative active material layers on both surfaces of a negative-electrode collector layer, (A) at least one of the positive-electrode collector layer and the negative-electrode collector layer comprises a metal of either of Ag, Pd, Au and Pt, or an alloy containing either of Ag, Pd, Au and Pt, or a mixture containing two or more kinds selected from the metals and alloys, (B) each layer is in a sintered state, or (C) at least the starting material for the ion conductive inorganic material of the ion conductive inorganic-material layer is a calcined powder.
摘要:
A liquid epoxy resin composition for semiconductor encapsulation comprising: (A) an epoxy resin, (B) an imidazole compound, and (C) a maleimide compound, a semiconductor device encapsulated by the liquid epoxy resin composition, and an assembly in which a cured material of the liquid epoxy resin is positioned between a printed circuit substrate and a semiconductor die.The liquid epoxy resin composition provides a cured material that has an excellent adhesiveness to a semiconductor chip surface and has an excellent moisture resistance.