A control module that may be configured to detect animal activity of a pet at a waste pad, litter box, or feeding station. The control module comprises a sensor system having a camera. The control module is configured to analyze pet information and generate user data based on the pet information. Additionally, a mobile device is configured to detect animal activity within a field of view. The mobile device is configured to analyze pet information and generate user data based on the pet information.

Lightweight, breathable, non-woven fibrous materials and composite articles incorporating the same are provided. Composite articles are formed by merging an open, non-woven grid formed from high tenacity elongate bodies with at least one substrate, forming an article having excellent tensile strength, excellent breathability and a unique aesthetic appearance.

A control module that may be configured to detect animal activity of a pet at a waste pad, litter box, or feeding station. The control module comprises a sensor system having a camera. The control module is configured to analyze pet information and generate user data based on the pet information. Additionally, a mobile device is configured to detect animal activity within a field of view. The mobile device is configured to analyze pet information and generate user data based on the pet information.

A control module that may be configured to detect animal activity of a pet at a waste pad, litter box, or feeding station. The control module comprises a sensor system having a camera. The control module is configured to analyze pet information and generate user data based on the pet information. Additionally, a mobile device is configured to detect animal activity within a field of view. The mobile device is configured to analyze pet information and generate user data based on the pet information.

Disclosed herein are conformable protection pads, which can be integrated into articles such as clothing and protective cases. An exemplary cushioning pad can include an upper layer and a lower layer and cushioning material therebetween in a first cushioning region and one or more second cushioning regions, and one or more grooves between the first cushioning region and the second cushioning regions to enable articulation of the second cushioning regions relative to the first cushioning region.

Portions of various buildings or edifices, including the roof and walls, can be protected from water using a flexible and water vapor permeable laminate. The laminate includes a non-woven layer providing a protective surface that is bonded to a woven scrim. The woven scrim provides substantial reinforcement to the laminate and is backed with a tacky layer to make the laminate resistant to sliding or stretching across an installation surface. The layers of the laminate each contribute to the water vapor permeability, where a bonding layer joining the non-woven layer and the scrim layer, as well as the tacky layer, can each include pores allowing water vapor therethrough.

Embodiments are directed to a stretch hood or stretch label multilayer film comprising a first skin layer, a second skin layer, and a core layer disposed between the first skin layer and the second skin layer, wherein: the first skin layer, the second skin layer, or both independently comprise at least 50 wt. % of a linear low density polyethylene (LLDPE) resin, wherein the skin LLDPE resin exhibits each of the following properties: a Crystallization Elution Fractionation (CEF) fraction of less than 8% above an elution temperature of 94° C.; and a melt index (I.sub.2) of 0.1 to 2.0 g/10 min when measured according to ASTM D 1238 at a load of 2.16 kg and temperature of 190° C. The core layer comprises a polyethylene resin having a wt. % crystallinity of from 10% to 40% and a single melting peak as measured by differential scanning calorimetry.

A fire-retardant polyurethane foam mattress and a method of manufacture thereof are provided. The mattress comprises a polyurethane foam prepared from a composition comprising at least a polyol, an organic polyisocyanate and a fire retardant and is provided with an outer layer encapsulating the polyurethane foam, the outer layer comprising a waterproof membrane of silicone rubber. A fire-resistant barrier layer is disposed substantially between the waterproof membrane and the polyurethane foam.

Ethylene/1-butene copolymers made with a single site catalyst system have high melt strength and good processability.

A thin and high strength composite laminate includes a fabric, an elastic layer and a water-based polyurethane layer. The fabric is weaved by high-tenacity filament or high-tenacity monofilament. The high-tenacity filament or high-tenacity monofilament is made of polyethylene terephthalate (PET). The fabric has a first surface and a second surface opposite to the first surface. The elastic layer is laminated on the first surface of the fabric. The water-based polyurethane layer is laminated on the second surface of the fabric. In this way, a thin, anti-fouling, abrasion resistance and high physical strength composite laminate can be manufactured.