An object of the present invention is to provide a golf club grip having high tensile strength in the outer layer and little entrainment of air between the outer layer and the inner layer. The present invention provides a golf club grip comprising a cylindrical portion composed of a cylindrical inner layer and a cylindrical outer layer covering the inner layer, wherein a ratio (E′.sub.23/E′.sub.60) of a storage modulus (E′.sub.23) at 23° C. of the outer layer to a storage modulus (E′.sub.60) at 60° C. of the outer layer, measured with a dynamic viscoelasticity measuring apparatus under measuring conditions of an oscillation frequency: 10 Hz, a strain amplitude: 0.05%, and a tensile mode, ranges from 1.20 to 1.32.

An object of the present invention is to provide a golf club grip having high tensile strength in the outer layer and little entrainment of air between the outer layer and the inner layer. The present invention provides a golf club grip comprising a cylindrical portion composed of a cylindrical inner layer and a cylindrical outer layer covering the inner layer, wherein a ratio (E′.sub.23/E′.sub.60) of a storage modulus (E′.sub.23) at 23° C. of the outer layer to a storage modulus (E′.sub.60) at 60° C. of the outer layer, measured with a dynamic viscoelasticity measuring apparatus under measuring conditions of an oscillation frequency: 10 Hz, a strain amplitude: 0.05%, and a tensile mode, ranges from 1.20 to 1.32.

The present disclosure describes a stable composition including a sulfopolymer, and a high loading of one or more active agents and the use of the composition on plants. The sulfopolymer in the composition enables the high loading of the one or more active agents into the composition.

The present disclosure describes a stable composition including a sulfopolymer, and a high loading of one or more active agents and the use of the composition on plants. The sulfopolymer in the composition enables the high loading of the one or more active agents into the composition.

A film coating composition, and seed coating composition formed comprising the film forming composition. The film coating composition comprises rosin resin and/or starch derivative and wax dispersion. The sum of rosin/starch and wax in the film coating composition being in the range 2 to 60 wt.%. The seed coating formulation optionally comprises an agrochemical active and/or nutrient, and is applied to seeds or bulbs for wet and dry flowability, abrasion resistance, dust off, germination, plantability and colour retention. In particular, the seed coating composition provides said properties whilst essentially or completely microplastic free. There is also provided a method of making the formulations, and for treating seeds or bulbs with seed coating formulation.

A film coating composition, and seed coating composition formed comprising the film forming composition. The film coating composition comprises rosin resin and/or starch derivative and wax dispersion. The sum of rosin/starch and wax in the film coating composition being in the range 2 to 60 wt.%. The seed coating formulation optionally comprises an agrochemical active and/or nutrient, and is applied to seeds or bulbs for wet and dry flowability, abrasion resistance, dust off, germination, plantability and colour retention. In particular, the seed coating composition provides said properties whilst essentially or completely microplastic free. There is also provided a method of making the formulations, and for treating seeds or bulbs with seed coating formulation.

An associative rheology modifier is obtained by coupling of a rheology modifier precursor with a coupling agent. The rheology modifier precursor is formed by reacting a rosin acid with a polyether at a mole ratio of the rosin acid to the polyether of >2:1, at a temperature from 180-350° C. and in the presence of an acid catalyst. The polyether has a molecular weight of 500-10,000 g/mol and the rheology modifier precursor has a water solubility of >10 wt. % concentration. The associative rheology modifier has a molecular weight (Mw) from 1500-25,000 g/mol. The associative rheology modifier shows a high shear thinning effect at low shear rate. A composition is also provided comprising the associative rheology modifier.

An associative rheology modifier is obtained by coupling of a rheology modifier precursor with a coupling agent. The rheology modifier precursor is formed by reacting a rosin acid with a polyether at a mole ratio of the rosin acid to the polyether of >2:1, at a temperature from 180-350° C. and in the presence of an acid catalyst. The polyether has a molecular weight of 500-10,000 g/mol and the rheology modifier precursor has a water solubility of >10 wt. % concentration. The associative rheology modifier has a molecular weight (Mw) from 1500-25,000 g/mol. The associative rheology modifier shows a high shear thinning effect at low shear rate. A composition is also provided comprising the associative rheology modifier.

Disclosed are apparatuses and methods including incorporation of additives into a bulk materials container by coating, impregnating, or otherwise applying the additives to at least a portion of the container and/or the material comprising the container. The container may be intended for containing bulk material used in a batch or continuous process, where the container can be consumed by the process along with the bulk material. The additives incorporated into the container can be substances that may be used by the process. The additives can modify the process. The additives can modify and/or condition the product being formed by the process.

Disclosed are apparatuses and methods including incorporation of additives into a bulk materials container by coating, impregnating, or otherwise applying the additives to at least a portion of the container and/or the material comprising the container. The container may be intended for containing bulk material used in a batch or continuous process, where the container can be consumed by the process along with the bulk material. The additives incorporated into the container can be substances that may be used by the process. The additives can modify the process. The additives can modify and/or condition the product being formed by the process.