An objective of the present invention is to provide a hot melt composition having a high form maintaining property at a high temperature and being in excellent adhesion to a substrate and in disassembly. The present invention relates to a hot melt composition comprising: (A1) a styrene-ethylene-ethylene/propylene-styrene block copolymer (SEEPS) and (B1) a hydrocarbon-based oil having an aniline point of 135 C. or more.

An objective of the present invention is to provide a hot melt composition having a high form maintaining property at a high temperature and being in excellent adhesion to a substrate and in disassembly. The present invention relates to a hot melt composition comprising: (A1) a styrene-ethylene-ethylene/propylene-styrene block copolymer (SEEPS) and (B1) a hydrocarbon-based oil having an aniline point of 135 C. or more.

The invention provides a unique thermoset viscoelastomeric reaction product and a container combination comprised of the supportive base equipped with a thermoset viscoelastomer reaction product possessing unexpectedly superior adhesive and cohesive efficacy rendering it especially useful as an adhesive insert in a container combination. The thermoset insert bonds to any suitable supportive structure. The unique viscoelastomeric reaction product inserts adhesively immobilize items placed thereupon and adhesively or permanently bonds to most conventional containers. The tenacious cohesive and adhesive features of the insert allows for inverted stowage of stowed items. Due to the confining adhesive and cohesive attributes of the insert, structural supports of a flexible or solid base without a conventional confining structure provide a unique container combination for the stowed items. Containers equipped with the unique insert also surprisingly provide an aseptic environment especially useful for hygienic applications.

The invention provides a unique thermoset viscoelastomeric reaction product and a container combination comprised of the supportive base equipped with a thermoset viscoelastomer reaction product possessing unexpectedly superior adhesive and cohesive efficacy rendering it especially useful as an adhesive insert in a container combination. The thermoset insert bonds to any suitable supportive structure. The unique viscoelastomeric reaction product inserts adhesively immobilize items placed thereupon and adhesively or permanently bonds to most conventional containers. The tenacious cohesive and adhesive features of the insert allows for inverted stowage of stowed items. Due to the confining adhesive and cohesive attributes of the insert, structural supports of a flexible or solid base without a conventional confining structure provide a unique container combination for the stowed items. Containers equipped with the unique insert also surprisingly provide an aseptic environment especially useful for hygienic applications.

A gel composition, a manufacturing method thereof, a tempered glass protective film and an electronic device are provided. The gel composition is processed by mixing a thermoplastic elastomer and oil, heating and stirring, using mixer to plastify and performing vacuum defoaming. The gel composition of the present disclosure is soft, and of which the hardness is smaller than 10 and the elastic modulus is about 1.2 Gpa. The gel composition can be completely filled in between the tempered glass and the electronic visual display after applying the tempered glass on the electronic visual display, so as to achieve the complete adherence without any air bubbles.

A gel composition, a manufacturing method thereof, a tempered glass protective film and an electronic device are provided. The gel composition is processed by mixing a thermoplastic elastomer and oil, heating and stirring, using mixer to plastify and performing vacuum defoaming. The gel composition of the present disclosure is soft, and of which the hardness is smaller than 10 and the elastic modulus is about 1.2 Gpa. The gel composition can be completely filled in between the tempered glass and the electronic visual display after applying the tempered glass on the electronic visual display, so as to achieve the complete adherence without any air bubbles.

A bio-based or biodegradable binder is provided that may be made by: (a) mixing tall oil pitch with (i) rosin or fatty acid material, (ii) rosin and a fatty acid material, (iii) a tall oil bio fraction and rosin or fatty acid material, or (iv) rosin, fatty acid material, and tall oil bio fraction, wherein pitch, rosin, fatty acid material, and/or tall oil bio fraction is a salt thereof; or (b) mixing at least one of acrylic acid, maleic acid, maleic anhydride, fumaric acid, acrylic acid, methacrylic acid, or a combination thereof, to a mixture of: (i) tall oil pitch, and rosin or fatty acid material; (ii) rosin, tall oil pitch, and fatty acid material; (iii) tall oil pitch, tall oil bio fraction, and rosin or fatty acid material; or (iv) rosin, tall oil pitch, fatty acid material, and tall oil bio fraction.

A bio-based or biodegradable binder is provided that may be made by: (a) mixing tall oil pitch with (i) rosin or fatty acid material, (ii) rosin and a fatty acid material, (iii) a tall oil bio fraction and rosin or fatty acid material, or (iv) rosin, fatty acid material, and tall oil bio fraction, wherein pitch, rosin, fatty acid material, and/or tall oil bio fraction is a salt thereof; or (b) mixing at least one of acrylic acid, maleic acid, maleic anhydride, fumaric acid, acrylic acid, methacrylic acid, or a combination thereof, to a mixture of: (i) tall oil pitch, and rosin or fatty acid material; (ii) rosin, tall oil pitch, and fatty acid material; (iii) tall oil pitch, tall oil bio fraction, and rosin or fatty acid material; or (iv) rosin, tall oil pitch, fatty acid material, and tall oil bio fraction.

An environmentally friendly, bio-based binder system that is useful for the formation of fiberglass insulation, the system includes: A) an aqueous curable binder composition, which includes a carbohydrate and a crosslinking agent; and B) a dedust composition, which includes a blown, stripped plant-based oil and optionally at least one emulsifying agent. The bio-based binder system is typically heated to form a cured binder system.

An environmentally friendly, bio-based binder system that is useful for the formation of fiberglass insulation, the system includes: A) an aqueous curable binder composition, which includes a carbohydrate and a crosslinking agent; and B) a dedust composition, which includes a blown, stripped plant-based oil and optionally at least one emulsifying agent. The bio-based binder system is typically heated to form a cured binder system.