Boosting the elongation potential of paper by mechanical refining and additives

The procedures used in restraining the web during drying will severely affect paper properties. In this work, the main differences between restrained drying and unrestrained drying on paper properties were identified. The mechanical properties of paper were studied as a function of low-consistency mechanical refining energy; wet-end additions of carboxymethyl cellulose (CMC) with cationic starches; as well as spray addition of alginate, chitosan, and cationic guar gum. After restrained drying, the tensile index and tensile stiffness increased with increasing refining energy, but the elongation at break was severely limited. After unrestrained drying, the elongation at break increased linearly with increasing refining energy. However, unrestrained drying also resulted in significantly lower tensile index and tensile stiffness values. After restrained drying, the largest increases in tensile index and stiffness were obtained by sequential wet-end addition of CMC and cationic starches. Certain combinations could mitigate all of the decrease in tensile index from unrestrained drying, while maintaining the distinctively high elongation potential of the paper. Wet-end addition of CMC and cationic starches could mitigate some of the decrease in tensile stiffness, but not completely. Spray addition of alginate, chitosan, or cationic guar gum increased the tensile index after both restrained and unrestrained drying. Spray addition of alginate resulted in significant increases in elongation at break and two-dimensional formability of the handsheets after unrestrained drying. After restrained drying, the tensile stiffness increased after spray addition of all of the different polysaccharides. After unrestrained drying, however, stiffness was unaffected by all of the tested polysaccharide spray additions. The same pulp treatment/additives will increase either stiffness or stretch, depending on the drying technique, but both properties could not be maximized simultaneously.

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Elastomeric polyethylenes accessible via ethylene homo-polymerization using an unsymmetrical α-diimino-nickel catalyst

Polymer Chemistry ◽

10.1039/c7py00434f ◽

2017 ◽

Vol 8 (18) ◽

pp. 2785-2795 ◽

Cited By ~ 45

Author(s):

Xinxin Wang ◽

Linlin Fan ◽

Yanping Ma ◽

Cun-Yue Guo ◽

Gregory A. Solan ◽

...

Keyword(s):

Thermal Stability ◽

Nickel Catalyst ◽

Elastic Recovery ◽

Nickel Catalysts ◽

High Thermal Stability ◽

Elongation At Break ◽

New Family ◽

High Elongation

Elastomeric polyethylenes, with good elastic recovery and high elongation at break, have been prepared using a new family of unsymmetrical α-diimino-nickel catalysts that display high activities and high thermal stability.

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Carboxymethylation Fiber of Dissolved Air Flotation Rejects and its Influences on Paper Properties

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.651.67 ◽

2013 ◽

Vol 651 ◽

pp. 67-72 ◽

Cited By ~ 3

Author(s):

Yang Hong Wang ◽

Xian Liang Song ◽

Hua Qian

Keyword(s):

Water Retention ◽

Aluminum Sulfate ◽

Carboxyl Content ◽

Dissolved Air Flotation ◽

Paper Properties ◽

Tensile Index ◽

Folding Endurance ◽

Effects Of Ph ◽

Air Flotation ◽

Dissolved Air

Fibers of dissolved air flotation rejects were been carboxymethylated to make dry strengthening agent. The effects of carboxymethylated time on carboxyl content, water retention value and physical properties of paper sheets were discussed. The effects of pH, dose of additive agent and additive aluminum sulfate on paper properties were discussed. The result show that carboxyl content and water retention values increased with the increasing of carboxymethylated time according to the research. IR analysis indicates that carboxymethyl has been connected to the surface of fibers. SEM micrographs shown that fibers were intergraded more closely benefit from the addition of dry strengthening agent. Tensile index, burst index and folding endurance respectively increased by 90.1% 101.8% and 833.3% on the condition: the additive agent amount 3%, pH 5, additive aluminum sulfate 0.5% of original pulp. Tensile index, burst index and folding endurance respectively increased by 74.0%, 87.8% and 877.8% when the carboxymethylated time was 110min for recycled pulp. This paper can be used as the theoretical basis for reusing of fiber of dissolved air flotation rejects.

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Ultra-high molecular weight elastomeric polyethylene using an electronically and sterically enhanced nickel catalyst

Polymer Chemistry ◽

10.1039/c7py01606a ◽

2017 ◽

Vol 8 (41) ◽

pp. 6416-6430 ◽

Cited By ~ 37

Author(s):

Qaiser Mahmood ◽

Yanning Zeng ◽

Erlin Yue ◽

Gregory A. Solan ◽

Tongling Liang ◽

...

Keyword(s):

Molecular Weight ◽

Tensile Strength ◽

High Molecular Weight ◽

Nickel Catalyst ◽

High Tensile Strength ◽

Elongation At Break ◽

Highly Active ◽

High Elongation ◽

Ultra High Molecular Weight ◽

Shape Fixity

Highly active para-t-Bu-containing 1,2-bis(imino)acenaphthene-Ni(ii) catalysts are disclosed which afford hyper-branched PEs with Mw's up to 3.1 × 106 g mol−1; high tensile strength, excellent shape fixity as well as high elongation at break are a feature.

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A Two-Dimensional Model of the Fluid Dynamics of an Air Reverser

Journal of Applied Mechanics ◽

10.1115/1.2789021 ◽

1998 ◽

Vol 65 (1) ◽

pp. 171-177 ◽

Cited By ~ 8

Author(s):

S. Mu¨ftu¨ ◽

T. S. Lewis ◽

K. A. Cole ◽

R. C. Benson

Keyword(s):

Design Guidelines ◽

Dimensional Case ◽

Two Dimensional ◽

Dimensional Model ◽

Web Handling ◽

One Dimensional ◽

Air Supply ◽

Two Dimensional Model ◽

The One ◽

The Web

A theoretical analysis of the fluid mechanics of the air cushion of the air reversers used in web-handling systems is presented. A two-dimensional model of the air flow is derived by averaging the equations of conservation of mass and momentum over the clearance between the web and the reverser. The resulting equations are Euler’s equations with nonlinear source terms representing the air supply holes in the surface of the reverser. The equations are solved analytically for the one-dimensional case and numerically for the two-dimensional case. Results are compared with an empirical formula and the one-dimensional airjet theory developed for hovercraft. Conditions that maximize the air pressure supporting the web are analyzed and design guidelines are deduced.

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Low Stress, High Resolution Photosensitive Polyimide Based on a BPDA/PDA/6FDAm Copolymer

MRS Proceedings ◽

10.1557/proc-323-259 ◽

1993 ◽

Vol 323 ◽

Cited By ~ 1

Author(s):

Marie Angelopoulos ◽

Jeff Gelorme ◽

Sally Swanson ◽

Jeff Labadie

Keyword(s):

High Resolution ◽

Physical Properties ◽

Thick Film ◽

High Performance ◽

Elongation At Break ◽

Optically Transparent ◽

High Elongation

AbstractA novel series of BPDA/PDA/6FDAm polyimide copolymers have been developed. These materials are more flexible, soluble, and more optically transparent than the homopolymer BPDA/PDA. A negative acting PSPI has been developed based on one of these copolymers. This PSPI exhibits high resolution. 6 μm lines can be delineated in a 19 μm thick film. In addition, the PSPI exhibits high performance mechanical/physical properties such as a low CTE, low stress, and high elongation at break.

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Research of Properties and Preparation on Zero-VOC Acrylic Elastic Emulsion

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.150-151.745 ◽

2010 ◽

Vol 150-151 ◽

pp. 745-748 ◽

Cited By ~ 1

Author(s):

Qian Xu ◽

Shao Guo Wen ◽

Hong Bo Liu ◽

Ji Hu Wang ◽

Yan Shen

Keyword(s):

Mechanical Properties ◽

Potential Application ◽

Core Shell ◽

Functional Monomer ◽

Mass Ratio ◽

Acrylic Emulsion ◽

Elongation At Break ◽

The Core ◽

Coating Industry ◽

High Elongation

The core-shell acrylic emulsion was synthesized，with P(MMA/BA) as core，and with P(2-EHA/MBA/HPA) as shell. The influence of the mass ratio of core/shell on mechanical properties was investigated in detail. The high elongation at break proved that the emulsion may have a potential application in coating industry, afforded by HPA as functional monomer. However, when the amount of HPA exceeds 1.5 wt. % to the total monomers, the emulsion will become unstable and precipitation occurs.

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Impact of fabric parameters and properties on a 2D cutting and stitching line.

Communications in Development and Assembling of Textile Products ◽

10.25367/cdatp.2020.1.p80-87 ◽

2020 ◽

Vol 1 (1) ◽

pp. 80-87

Author(s):

Magdalena Owczarek

Keyword(s):

Raw Materials ◽

Relative Elongation ◽

Subjective Assessment ◽

Component Composition ◽

Two Dimensional ◽

Surface Mass ◽

Textile Materials ◽

Shape Precision ◽

High Elongation ◽

Made In

The paper presents the influence of fabric parameters and properties on the circle shape precision confectioning in the 2D plane. The properties of textiles affect the fit of the entire product, which is often subject to the subjective assessment of a technologist. In the case of cutting lines made in the two-dimensional area, it seems that there should be no problem with its implementation. Unfortunately, in the clothing, furniture, and automotive industries there are difficulties in combining the same and different textile and non-textile materials (leather). There is no objective method of predicting the precision of circle cutting shape, for different types and properties of fabrics. The work analyzes the shape of a circle cutting and stitching line in a two-dimensional area, taking into account selected properties of textiles (surface weight, elongation, relative bending stiffness). It turns out that the different properties of textiles cause, to a greater or lesser extent, the accuracy of a given circle shape. The fabric with the three-component composition of raw materials and the highest surface mass, as well as the smallest stiffness and high elongation obtained the highest precision of the circle shape reproduction. The least precision, i.e. the ability to maintain a given circle shape, was obtained in viscose fabric with low surface mass, high stiffness, and the highest relative elongation. Correlation analysis showed a significant relationship between shape and surface mass and the number of warp threads.

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Mapping variation of handsheet properties within loblolly pine trees

Nordic Pulp & Paper Research Journal ◽

10.1515/npprj-2020-0109 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Laurence R. Schimleck ◽

Finto Antony ◽

Christian Mora ◽

Joseph Dahlen

Keyword(s):

Loblolly Pine ◽

Forest Resources ◽

Important Paper ◽

Paper Properties ◽

Tensile Index ◽

Property Data ◽

Pine Trees ◽

Short Span ◽

Sheet Density ◽

Handsheet Properties

Abstract Within-tree variation of four handsheet properties (burst index, sheet density, STFI short-span compression strength (STFI) and tensile index) was mapped for loblolly pine trees aged 13 and 22 years using NIR predicted handsheet property data (representing an average of 18 trees for each age). All within-tree maps were similar demonstrating a radial decrease in handsheet properties at all heights, with sheet density and tensile index having the greatest within-tree variation. The corewood zone had the highest values for all properties, while the lowest values were observed in a region consistent with juvenile and transitional outerwood as defined by Burdon et al. (2004). The maps are also similar to, but the inverse of, maps reported in prior studies for density and tracheid coarseness and wall thickness. Relationships amongst the examined handsheet properties and wood and tracheid properties explains the overall similarities of the different maps. The maps provide a representation of within-tree variation of important paper properties at two different ages. An understanding of how these properties vary within loblolly pine trees can aid in better utilization of forest resources.

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Soft, Formstable (Co)Polyester Blend Elastomers

Nanomaterials ◽

10.3390/nano11061472 ◽

2021 ◽

Vol 11 (6) ◽

pp. 1472

Author(s):

Axel T. Neffe ◽

Victor Izraylit ◽

Paul J. Hommes-Schattmann ◽

Andreas Lendlein

Keyword(s):

Crystallization Rate ◽

Thermoplastic Elastomers ◽

Sequence Length ◽

Copolymer Composition ◽

Medical Applications ◽

Sequence Structure ◽

Average Molar Mass ◽

Elongation At Break ◽

Polymer Systems ◽

High Elongation

High crystallization rate and thermomechanical stability make polylactide stereocomplexes effective nanosized physical netpoints. Here, we address the need for soft, form-stable degradable elastomers for medical applications by designing such blends from (co)polyesters, whose mechanical properties are ruled by their nanodimensional architecture and which are applied as single components in implants. By careful controlling of the copolymer composition and sequence structure of poly[(L-lactide)-co-(ε-caprolactone)], it is possible to prepare hyperelastic polymer blends formed through stereocomplexation by adding poly(D-lactide) (PDLA). Low glass transition temperature Tg ≤ 0 °C of the mixed amorphous phase contributes to the low Young’s modulus E. The formation of stereocomplexes is shown in DSC by melting transitions Tm > 190 °C and in WAXS by distinct scattering maxima at 2θ = 12° and 21°. Tensile testing demonstrated that the blends are soft (E = 12–80 MPa) and show an excellent hyperelastic recovery Rrec = 66–85% while having high elongation at break εb up to >1000%. These properties of the blends are attained only when the copolymer has 56–62 wt% lactide content, a weight average molar mass >140 kg·mol−1, and number average lactide sequence length ≥4.8, while the blend is formed with a content of 5–10 wt% of PDLA. The devised strategy to identify a suitable copolymer for stereocomplexation and blend formation is transferable to further polymer systems and will support the development of thermoplastic elastomers suitable for medical applications.

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