A method and a mineral wool product include a multiple of lamellae, such as a sandwich panel core. The product includes a plurality of lamellae cut from a mineral wool web, and bonded together by applying an adhesive on the surfaces of two adjacent lamellae to form a web-like product, wherein the adhesive comprises at least one hydrocolloid.

A method and a mineral wool product include a multiple of lamellae, such as a sandwich panel core. The product includes a plurality of lamellae cut from a mineral wool web, and bonded together by applying an adhesive on the surfaces of two adjacent lamellae to form a web-like product, wherein the adhesive comprises at least one hydrocolloid.

A method of forming an apertured hydro-patterned nonwoven web including the steps of forming a nonwoven batt comprising continuous spunmelt fibers, calender bonding the nonwoven batt to form a fully bonded precursor nonwoven web with a regular bond pattern that defines individual bond impressions and unbonded areas between the individual bond impressions, the regular bond pattern having a percentage bond area of 10% to 25%, and hydraulically imparting the fully bonded precursor nonwoven web with a plurality of apertures, the step of hydraulically imparting comprising hydraulically treating the fully bonded precursor nonwoven web by a plurality of steps of water injection as the fully bonded nonwoven web passes over a plurality of pins.

A method of forming an apertured hydro-patterned nonwoven web including the steps of forming a nonwoven batt comprising continuous spunmelt fibers, calender bonding the nonwoven batt to form a fully bonded precursor nonwoven web with a regular bond pattern that defines individual bond impressions and unbonded areas between the individual bond impressions, the regular bond pattern having a percentage bond area of 10% to 25%, and hydraulically imparting the fully bonded precursor nonwoven web with a plurality of apertures, the step of hydraulically imparting comprising hydraulically treating the fully bonded precursor nonwoven web by a plurality of steps of water injection as the fully bonded nonwoven web passes over a plurality of pins.

Described herein are propylene-based polymer compositions that comprise a reactor blend of a first polymer component and a second polymer component. The first polymer component has an ethylene content of from greater than 12 to less than 19 wt % ethylene, and the second polymer component has an ethylene content of from greater than 4 to less than 10 wt % ethylene. Preferably, the ethylene content of the first and second polymer components satisfy the formula:
−1.7143R.sub.1+29.771≤R.sub.2≤−1.9167R.sub.1+37.25.
The propylene-based polymer compositions are particularly useful for forming meltspun nonwoven compositions that exhibit a desirable balance of retractive force and permanent set.

Described herein are propylene-based polymer compositions that comprise a reactor blend of a first polymer component and a second polymer component. The first polymer component has an ethylene content of from greater than 12 to less than 19 wt % ethylene, and the second polymer component has an ethylene content of from greater than 4 to less than 10 wt % ethylene. Preferably, the ethylene content of the first and second polymer components satisfy the formula:
−1.7143R.sub.1+29.771≤R.sub.2≤−1.9167R.sub.1+37.25.
The propylene-based polymer compositions are particularly useful for forming meltspun nonwoven compositions that exhibit a desirable balance of retractive force and permanent set.

Fibres and nonwoven materials comprising microfibrillated cellulose, and optionally inorganic particulate material and/or additional additives, and optionally a water soluble or dispersible polymer. Nonwoven materials made from fibres comprising microfibrillated cellulose, and optionally inorganic particulate material and/or a water soluble or dispersible polymer.

Fibres and nonwoven materials comprising microfibrillated cellulose, and optionally inorganic particulate material and/or additional additives, and optionally a water soluble or dispersible polymer. Nonwoven materials made from fibres comprising microfibrillated cellulose, and optionally inorganic particulate material and/or a water soluble or dispersible polymer.

An elastic hydrophilic non-woven fabric is provided, which is made from composition grains using a meltblown process. The composition grains include 3 to 30 parts by weight of a hydrophilic auxiliary agent and 70 to 97 parts by weight of a hydrogenated styrene based triblock copolymer based on 100 parts by total weight. The hydrophilic auxiliary agent includes polylactic acid and polyvinyl acetate. A method that the elastic hydrophilic non-woven fabric is fabricated at least includes a step to melt the composition grains to form a melt body, and a step to squeezed the melt body through a spinneret by the meltblown process, then the elastic hydrophilic non-woven fabric is finished. Hence, the elastic hydrophilic non-woven fabric has both of elasticity and hydrophilicity.

An elastic hydrophilic non-woven fabric is provided, which is made from composition grains using a meltblown process. The composition grains include 3 to 30 parts by weight of a hydrophilic auxiliary agent and 70 to 97 parts by weight of a hydrogenated styrene based triblock copolymer based on 100 parts by total weight. The hydrophilic auxiliary agent includes polylactic acid and polyvinyl acetate. A method that the elastic hydrophilic non-woven fabric is fabricated at least includes a step to melt the composition grains to form a melt body, and a step to squeezed the melt body through a spinneret by the meltblown process, then the elastic hydrophilic non-woven fabric is finished. Hence, the elastic hydrophilic non-woven fabric has both of elasticity and hydrophilicity.