The present disclosure provides paper wraps, paper wrapped products, such as rolled bath tissue, paper towel products, or bundles of rolled bath tissue or paper towels, and methods for covering a product or bundled products in a paper wrap. For example, printed paper wraps and their use are described, wherein the printed paper wraps comprise at least one heat-sealable adhesive that may be applied in varying locations, coverage levels, and patterns comprising different seal strengths, which may be sealed using heat and/or pressure external to the products for packaging and protective purposes.

The present disclosure provides paper wraps, paper wrapped products, such as rolled bath tissue, paper towel products, or bundles of rolled bath tissue or paper towels, and methods for covering a product or bundled products in a paper wrap. For example, printed paper wraps and their use are described, wherein the printed paper wraps comprise at least one heat-sealable adhesive that may be applied in varying locations, coverage levels, and patterns comprising different seal strengths, which may be sealed using heat and/or pressure external to the products for packaging and protective purposes.

An adaptive towelette dispensing device is provided. The device is operable in conjunction with a container storing a plurality of dried, compressed, individually wrapped, preferably sealed towelettes. The adaptive towelette dispensing device is contemplated to include one or more reservoirs adapted to receive additives, one or more pumps configured to transfer additives through a conduit to be incorporated into a dispensed solution. The adaptive towelette dispensing device is further contemplated to include a towelette releasing mechanism, a towelette chute, a towelette dispensing mechanism, and a controller.

An adaptive towelette dispensing device is provided. The device is operable in conjunction with a container storing a plurality of dried, compressed, individually wrapped, preferably sealed towelettes. The adaptive towelette dispensing device is contemplated to include one or more reservoirs adapted to receive additives, one or more pumps configured to transfer additives through a conduit to be incorporated into a dispensed solution. The adaptive towelette dispensing device is further contemplated to include a towelette releasing mechanism, a towelette chute, a towelette dispensing mechanism, and a controller.

To provide tissue paper excellent in softness and smoothness. In tissue paper that is two-ply non-moisturizing tissue paper to which no chemical solution is applied, a basis weight per sheet is 10.0 to 18.0 g/m.sup.2, the thickness of two plies is 100 to 240 μm, a dry tensile strength in the paper horizontal direction is 70 to 180 cN/25 mm, a wet tensile strength in the paper horizontal direction is 25 to 55 cN/25 mm, and a free sensory evaluation value E.sub.f calculated according to the following Equation 1 is 3.7 to 6.6, and a slip sensory evaluation value E.sub.s calculated according to the following Equation 2 is 5.0 to 8.2.
Free sensory evaluation value E.sub.f=−2.879×(dry tensile strength in paper horizontal direction)+6.55×(wet tensile strength in paper horizontal direction)+5.36  (Equation 1)
Slip sensory evaluation value E.sub.s=−8.80×(dynamic friction coefficient)−0.41×(arithmetic mean surface roughness)+13.58  (Equation 2)

To provide tissue paper excellent in softness and smoothness. In tissue paper that is two-ply non-moisturizing tissue paper to which no chemical solution is applied, a basis weight per sheet is 10.0 to 18.0 g/m.sup.2, the thickness of two plies is 100 to 240 μm, a dry tensile strength in the paper horizontal direction is 70 to 180 cN/25 mm, a wet tensile strength in the paper horizontal direction is 25 to 55 cN/25 mm, and a free sensory evaluation value E.sub.f calculated according to the following Equation 1 is 3.7 to 6.6, and a slip sensory evaluation value E.sub.s calculated according to the following Equation 2 is 5.0 to 8.2.
Free sensory evaluation value E.sub.f=−2.879×(dry tensile strength in paper horizontal direction)+6.55×(wet tensile strength in paper horizontal direction)+5.36  (Equation 1)
Slip sensory evaluation value E.sub.s=−8.80×(dynamic friction coefficient)−0.41×(arithmetic mean surface roughness)+13.58  (Equation 2)

The present invention discloses a papermaking fabric having a both machine direction (MD) and cross-machine direction (CD) oriented protuberances for molding and structuring a nascent paper web, particularly tissue paper webs. The MD oriented protuberances are spaced apart from one another in the fabric cross-machine direction and may be continuous and parallel to one another. The CD oriented protuberances are preferably discrete and comprise less than 15 percent of the web contacting surface of the fabric. In certain instances the MD oriented protuberances are formed from interwoven filaments and the CD oriented protuberances are nonwoven and may be applied to the woven fabric substrate by printing.

The present invention discloses a papermaking fabric having a both machine direction (MD) and cross-machine direction (CD) oriented protuberances for molding and structuring a nascent paper web, particularly tissue paper webs. The MD oriented protuberances are spaced apart from one another in the fabric cross-machine direction and may be continuous and parallel to one another. The CD oriented protuberances are preferably discrete and comprise less than 15 percent of the web contacting surface of the fabric. In certain instances the MD oriented protuberances are formed from interwoven filaments and the CD oriented protuberances are nonwoven and may be applied to the woven fabric substrate by printing.

A cleansing wipe may be formed from a nonwoven and includes a first ethylene/alpha-olefin interpolymer and a second ethylene/alpha-olefin interpolymer. The cleansing wipe may also have a SaMbSc configuration, wherein the M, meltblown layer, is formed from the first ethylene/alpha-olefin interpolymer and the second ethylene/alpha-olefin interpolymer. The cleansing wipe may be formed a nonwoven comprising bicomponent fibers that incorporate the first ethylene/alpha-olefin interpolymer and the second ethylene/alpha-olefin interpolymer.

A cleansing wipe may be formed from a nonwoven and includes a first ethylene/alpha-olefin interpolymer and a second ethylene/alpha-olefin interpolymer. The cleansing wipe may also have a SaMbSc configuration, wherein the M, meltblown layer, is formed from the first ethylene/alpha-olefin interpolymer and the second ethylene/alpha-olefin interpolymer. The cleansing wipe may be formed a nonwoven comprising bicomponent fibers that incorporate the first ethylene/alpha-olefin interpolymer and the second ethylene/alpha-olefin interpolymer.