Tork Wipeable Champagne Milk Slipcover
  • Tork Wipeable Champagne Milk Slipcover
474621

Tork Wipeable Champagne Milk Slipcover

Tork Wipeable Champagne Milk Slipcover
  • Tork Wipeable Champagne Milk Slipcover

Description

Tork Wipeable Slipcovers are perfect to decorate your restaurant table in style. The individual slipcovers protect the table and add a clean appearance for your guests.
  • Easy to wipe for a longer use
  • Engage with guests through custom print - 75% of napkin users read the message
  • Fold easily due to size and thickness

Product and delivery data

Quality
Advanced
Unfolded length
90 cm
Unfolded width
90 cm
Folded length
45 cm
Folded width
30 cm
Ply
3
Print
No
Embossing
No
Colour
Champagne
Folding type
1/6

Delivery data

Consumer units
Transport units
Pallet
(CON)
(TRP)
(PAL)
EAN
5010195451193
5010195451193
5010195003309
Packaging material
none
Carton
-
Pieces
100
100 (1 CON)
7700 (77 TRP)
Gross weight
4503 g
4.5 kg
346.73 kg
Height
110 mm
110 mm
1373 mm
Length
320 mm
470 mm
1200 mm
Width
470 mm
320 mm
1000 mm
Net weight
4212 g
4.2 kg
324.32 kg
Volume
16.54 dm3
16.54 dm3
1.27 m3
Layer per pallet
-
-
11
Transport units per layer
-
-
7
Consumer units
(PAL)
EAN
5010195451193
Packaging material
none
Pieces
100
Gross weight
4503 g
Height
110 mm
Length
320 mm
Width
470 mm
Net weight
4212 g
Volume
16.54 dm3
Layer per pallet
-
Transport units per layer
-
Transport units
(TRP)
EAN
5010195451193
Packaging material
Carton
Pieces
100 (1 CON)
Gross weight
4.5 kg
Height
110 mm
Length
470 mm
Width
320 mm
Net weight
4.2 kg
Volume
16.54 dm3
Layer per pallet
-
Transport units per layer
-
Pallet
(PAL)
EAN
5010195003309
Packaging material
-
Pieces
7700 (77 TRP)
Gross weight
346.73 kg
Height
1373 mm
Length
1200 mm
Width
1000 mm
Net weight
324.32 kg
Volume
1.27 m3
Layer per pallet
11
Transport units per layer
7

Content

The product is made from

Fresh fibres

Recycled fibres

Chemicals

The packaging material is made from paper or plastic.

Material

Fresh fibres and recycled fibres

In the tissue process, both fresh fibres and recovered paper are being used. The choice of pulp is made based on product requirements and pulp availability so the pulp is used in the most efficient way.

Recycling of paper is an efficient use of resources as the wood fibres are used more than once.

High demands are put on quality and purity of recovered fibres, considering each step of the chain (collection, sorting, transport, storage, use), to ensure safe and hygienic products.

Recycled fibres can be produced from different types of recovered paper, such as collected newsprint, magazines, office waste, paper cups, drink cartons, corrugated boxes and paper hand towels. The choice of recovered paper grades is made for each product, depending on its specific requirements on performance properties and brightness. The paper is dissolved in water, washed and treated with chemicals under high temperature and screened to separate out impurities.

Fresh fibre pulp is produced from softwood or hardwood. The wood is subject to chemical and/or mechanical processes where the cellulose fibres are separated out and lignin and other residuals are removed.Bleaching of pulp, used for tissue, is primarily a process to remove substances that could have a negative effect on important properties of the finished product such as purity, absorption, strength and colour of the pulp. There are two different methods used today for bleaching fresh fibre pulp: ECF (elementary chlorine free), where chlorine dioxide is used, and TCF (totally chlorine free) where ozone, oxygen and hydrogen peroxide are used.

Bleaching of the recycled fibre pulp is done using chlorine-free bleaching agents (hydrogen peroxide and sodium dithionite).

Chemicals

All chemicals (process aids as well as additives) are assessed from an environmental, occupational health and safety and product safety point of view.

To control product performance we use additives:

  • Wet strength agents (for Wipers and Hand Towels)
  • Dry strength agents (are used together with mechanical treatment of the pulp to make strong products like wipers)
  • For coloured papers dyes and fixatives (to secure perfect fastness of the colour) are added
  • For printed products printing inks (pigments with carriers and fixatives) are applied
  • For multi ply products we often use a water soluble glue to secure the integrity of the product

In most of our mills we do not add optical brighteners but it often occurs in recovered paper since it is used in printing paper.

We do not use softeners for professional hygiene products.

High product quality is secured through quality and hygiene management systems throughout production, storage and transport.

In order to maintain a stable process and product quality the paper manufacturing process is supported by the following chemicals/ process aids:

  • defoamers (surfactants and dispersing agents)
  • pH-control (sodium hydroxide and sulphuric acid)
  • retention aids (chemicals that help to agglomerate small fibres to prevent fibre loss)
  • Coating chemicals (that help to control the creping of the paper to make it soft and absorbent)

To reuse broke and to utilise recovered fibres we use:

  • Pulping aid (chemicals that help to repulp wet strong paper)
  • Flocculation chemicals (that help to clean out printing inks and fillers from recovered paper)
  • Bleaching agents (to increase the brightness of pulp from recovered paper)

In the cleaning of our waste water we use flocculation agents and nutritients for the biological treatment to secure that no negative impact on water quality comes from our mills.

Packaging

Fulfilment of Packaging and Packaging Waste Directive (94/62/EC): Yes

Article creation date and latest article revision

Date of issue: 19-04-2019
Revision date: 16-11-2023

Production

This product is produced at External mill, NL.

Destruction

This product is suitable in normal waste handling systems by the community. Used products should not be handled over to recycling systems.

Essity UK Ltd, Southfields Road, Dunstable, Bedfordshire LU6 3EJ, United Kingdom