A composition that toughens and impact modifies epoxy resin based compositions comprising one or more co-polyamides and one or more block copolymers with polyamide and polyether blocks. The disclosure also relates to epoxy resin compositions containing the composition comprising one or more co-polyamides and one or more block copolymers with polyamide and polyether blocks and films, adhesives, foamable compositions and foamed compositions containing such a composition.

A composition that toughens and impact modifies epoxy resin based compositions comprising one or more co-polyamides and one or more block copolymers with polyamide and polyether blocks. The disclosure also relates to epoxy resin compositions containing the composition comprising one or more co-polyamides and one or more block copolymers with polyamide and polyether blocks and films, adhesives, foamable compositions and foamed compositions containing such a composition.

An adhesive for semiconductors, the adhesive containing a thermoplastic resin, a thermosetting resin, a curing agent having a reactive group, and a flux compound having an acid group. The adhesive has a calorific value of 20 J/g or less at 60° C. to 155° C. on a DSC curve, which is obtained by differential scanning calorimetry involving heating the adhesive at a rate of temperature increase of 10° C./min.

A conductive adhesive composition, the composition containing: (A) conductive particles; (B) a thermosetting resin; and (C) a flux activator. The conductive particles contain a metal having a melting point of 200° C. or lower. In a volume-based cumulative particle size distribution of the conductive particles, a cumulative 50% particle diameter D50 is 3 to 10 μm, and a cumulative 10% particle diameter D10 is 2.4 μm or more. The flux activator contains a compound having a hydroxyl group and a carboxyl group.

A conductive adhesive composition, the composition containing: (A) conductive particles; (B) a thermosetting resin; and (C) a flux activator. The conductive particles contain a metal having a melting point of 200° C. or lower. In a volume-based cumulative particle size distribution of the conductive particles, a cumulative 50% particle diameter D50 is 3 to 10 μm, and a cumulative 10% particle diameter D10 is 2.4 μm or more. The flux activator contains a compound having a hydroxyl group and a carboxyl group.

An epoxy conductive paste is disclosed, based on 100 parts by total mass, comprising the following raw material components: 30˜81 parts of conductive particles, 16˜30 parts of epoxy, 0.2˜3 parts of acrylic, 1˜15 parts of reactive diluent, 1˜15 parts of toughening agent, 0.4˜5 parts of silane coupling agent, and 0.4˜5 parts of cationic curing agent; wherein, the conductive particles include conductive particles with a three-dimensional dendritic microstructure. The conductive paste of the disclosure has the characteristics of good conductivity, short curing time, strong adhesion, and capability for long-term operation at room temperature.

An epoxy conductive paste is disclosed, based on 100 parts by total mass, comprising the following raw material components: 30˜81 parts of conductive particles, 16˜30 parts of epoxy, 0.2˜3 parts of acrylic, 1˜15 parts of reactive diluent, 1˜15 parts of toughening agent, 0.4˜5 parts of silane coupling agent, and 0.4˜5 parts of cationic curing agent; wherein, the conductive particles include conductive particles with a three-dimensional dendritic microstructure. The conductive paste of the disclosure has the characteristics of good conductivity, short curing time, strong adhesion, and capability for long-term operation at room temperature.

An epoxy conductive paste is disclosed, based on 100 parts by total mass, comprising the following raw material components: 30˜81 parts of conductive particles, 16˜30 parts of epoxy, 0.2˜3 parts of acrylic, 1˜15 parts of reactive diluent, 1˜15 parts of toughening agent, 0.4˜5 parts of silane coupling agent, and 0.4˜5 parts of cationic curing agent; wherein, the conductive particles include conductive particles with a three-dimensional dendritic microstructure. The conductive paste of the disclosure has the characteristics of good conductivity, short curing time, strong adhesion, and capability for long-term operation at room temperature.

Disclosed are a UV curable adhesive composition, an adhesive tape comprising the UV curable adhesive composition, an adhesive film formed by UV curing of the adhesive composition, and a corresponding bonding member. The UV curable adhesive composition and the adhesive tape comprising the UV curable adhesive composition have a hybrid system of reactive polyacrylate/epoxy resin/core-shell rubber particles/hydroxy-containing compound, wherein a cationic photoinitiator is used to initiate curing of the epoxy a resin.

Disclosed are a UV curable adhesive composition, an adhesive tape comprising the UV curable adhesive composition, an adhesive film formed by UV curing of the adhesive composition, and a corresponding bonding member. The UV curable adhesive composition and the adhesive tape comprising the UV curable adhesive composition have a hybrid system of reactive polyacrylate/epoxy resin/core-shell rubber particles/hydroxy-containing compound, wherein a cationic photoinitiator is used to initiate curing of the epoxy a resin.