NTSTRENGTH 150 Series
Dry Strength Agents
NTSTRENGTH 150-Series are water soluble Acryl-amide polymers which improve the dry strength of paper and paperboard without creating a broke recovery problem. Unlike the dry strength derived from refining, these dry strength resins can dramatically increase the dry strength test without changing the bulk (density) or porosity. This is particularly advantageous for the manufacture of printing papers and low-density paperboard.
NTSTRENGTH 150-Series can be used in the wet end as a slush stock additive, or they can be added at the size press to the dry sheet.
1. Typical Properties
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Name
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150AN
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150AP
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Chemical Description
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Modified Polyacrylamide
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Appearance
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Clear to haze Liquid
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Active Content
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15.0 ± 1.0
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15.0 ± 1.0
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pH
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6.0 ± 1.0
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3.5 ± 1.0
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Viscosity
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4,000 ± 1,000
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3,500 ± 1,000
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Ionic Character
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Anion
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Amphoteric
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Stability
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6 Month
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6 Month
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Solubility
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Easily soluble in water
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2. Advantage
NTSTRENGTH 150-Series help:
A.Cut furnish costs by allowing substitution of weaker, cheaper pulps; e.g. secondary fiber and substitution of fillers for fiber.
B.Reduce energy costs through reduced refining and dryer steam requirements.
C.Increase machine output where refining, drainage or drying limitations exist.
D.Improve paper quality to meet higher specifications.
E.Reduce other chemical additive levels e.g. rosin size or wet strength resin.
F.Reduce waste treatment costs.
3.Application
STRENGTH 150-Series are usually added to the slush stock but can also be applied to the surface of paper. For slush stock (wet end) additions, dosages between 0.15% and 0.5% resins solids, based on dry fiber, are recommended. As much as 1% resin can be used with good effect. At least 1.5% -2.0% Alum, based on dry fiber, should be used. Optimum performance will be realized in the pH range from 4.3 to 5.0.
Actually NTSTRENGTH Series’ dosage is depended on user’s condition.
4. Storage
Under some storage conditions, a separation of the emulsifier may occur. Storage above 5C will normally prevent this.
Should separation occur, moderate stirring or mixing, with no resultant loss of efficiency can return the product to their normal state. Generally, rolling of the drums around the floor will be sufficient to assure remixing of the component
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Wet Strength Agent
NTSTRENGTH WS-125
DESCRIPTION
NTSTRENGTH WS-125 is a cationic wet strength agent that can be used in the wide range of pH 5 to pH 9. So we can reduce the dosage of alum or not use.
NTSTRENGTH WS-125 is applicable to various usages such as dry strength, Sizing Promotion, Retention promotion, etc, as well as wet strength agents.
PHYSICAL PROPERTIES
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NTSTRENGTH WS-125
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Name
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12.5 ± 1.0
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Active Content
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Polyamine Polyamide - Epichlorohydrin
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Chemical Description
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Light yellow transparent Liquid
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Appearance
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4.0 ± 1.5
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pH
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1.03 ± 0.01
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Specific Gravity
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Cation
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Ionic Character
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3 Month (at around 25â)
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Stability
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Completely soluble
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Solubility
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HEALTH & SAFETY
Toxicity caused by NTSTRENGTH WS-125 products alone and when incorporated into papers and paperboards, has not been reported so far. The content of NTSTRENGTH WS-125 is listed under Title 21 of the Code of Federal Regulations, Paragraph 176.170. However, contact with the NTSTRENGTH WS-125 solution should be avoided because of its acidic nature. When exposed to the solutions, wash with fresh water immediately.
WHAT is PAE – WET STRENGTH AGENT ?
The need for a wet-strength resin which could be used in neutral or alkaline papermaking led, over fifty years ago, to the development of poly(aminoamide)- epichlorohydrin (PAE) resins, sometimes referred to as polyamide-polyamine- epichlorohydrin (PPE) resins.
A dibasic acid is condensed with poly-functional amine to give a water-soluble polyamide. The secondary amine groups of the polyamide are then alkylated with epichlorohydrin, and a number of reactions take place. The resulting product consists of relatively low molecular weight polyamide backbones with many reactive side chains. Chloride counter-ions are formed as a result of the epoxidation and, at the end of the manufacturing process, the resin is usually acidified to provide stability against gelation during storage.
As the resin is dried in a paper sheet, the hydroxyazetidinium groups have two possibilities for reaction. One is to react through the amine groups of other resin molecules to give a homo-crosslinked network, and the other is to react with available carboxyl groups in the paper.
The wet strength is not fully developed by the time a paper product reaches the end of a paper machine, and strength continues to develop as the paper is stored. The rate of curing is affected by the temperature and the length of time in contact with heat. The bonds that are eventually formed are not readily broken under either acid or slightly alkaline conditions, and the wet strength is therefore permanent. Whilst this can be an advantage in certain applications, it does make the paper or paperboard more difficult to disintegrate. However, the difficulties for the disintegration of PAE-treated paper have not been reported practically when the dosage level of PAE resin is below 4%.
PAE resins are most often used in a pH range of 6 to 8, but their efficiency is adequate in the pH range 5 to 9. Reducing the pH of a papermaking furnish leads to two effects that discourage adsorption. Firstly, fewer carboxyl groups on the pulp are dissociated. Secondly, although most of the charge on the PAE resin is due to the azetidinium groups, which are insensitive to pH change, there are some tertiary amine groups present in the polymer and these lose their charge at lower pH.
PAE resins are used extensively in all types of wet-strength papers. Major examples are household products such as paper towels, napkins, facial tissue, and packaging materials like liquid packaging, corrugated boxes, paper bags, and specialties such as photographic papers, wrappings and disposables.
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