Nordic Pulp and Paper Research Journal
Subject Area and Category
- Materials Science (miscellaneous)
Walter de Gruyter GmbH
Publication type
02832631, 20000669
1988, 1990, 1996-2023
Information
How to publish in this journal
The set of journals have been ranked according to their SJR and divided into four equal groups, four quartiles. Q1 (green) comprises the quarter of the journals with the highest values, Q2 (yellow) the second highest values, Q3 (orange) the third highest values and Q4 (red) the lowest values.
Category | Year | Quartile |
---|---|---|
Forestry | 1999 | Q1 |
Forestry | 2000 | Q1 |
Forestry | 2001 | Q1 |
Forestry | 2002 | Q1 |
Forestry | 2003 | Q1 |
Forestry | 2004 | Q1 |
Forestry | 2005 | Q1 |
Forestry | 2006 | Q1 |
Forestry | 2007 | Q1 |
Forestry | 2008 | Q1 |
Forestry | 2009 | Q1 |
Forestry | 2010 | Q1 |
Forestry | 2011 | Q1 |
Forestry | 2012 | Q1 |
Forestry | 2013 | Q2 |
Forestry | 2014 | Q2 |
Forestry | 2015 | Q2 |
Forestry | 2016 | Q2 |
Forestry | 2017 | Q1 |
Forestry | 2018 | Q2 |
Forestry | 2019 | Q3 |
Forestry | 2020 | Q3 |
Forestry | 2021 | Q2 |
Forestry | 2022 | Q2 |
Forestry | 2023 | Q2 |
Materials Science (miscellaneous) | 1999 | Q1 |
Materials Science (miscellaneous) | 2000 | Q1 |
Materials Science (miscellaneous) | 2001 | Q1 |
Materials Science (miscellaneous) | 2002 | Q1 |
Materials Science (miscellaneous) | 2003 | Q1 |
Materials Science (miscellaneous) | 2004 | Q1 |
Materials Science (miscellaneous) | 2005 | Q1 |
Materials Science (miscellaneous) | 2006 | Q1 |
Materials Science (miscellaneous) | 2007 | Q1 |
Materials Science (miscellaneous) | 2008 | Q1 |
Materials Science (miscellaneous) | 2009 | Q1 |
Materials Science (miscellaneous) | 2010 | Q2 |
Materials Science (miscellaneous) | 2011 | Q2 |
Materials Science (miscellaneous) | 2012 | Q2 |
Materials Science (miscellaneous) | 2013 | Q2 |
Materials Science (miscellaneous) | 2014 | Q2 |
Materials Science (miscellaneous) | 2015 | Q2 |
Materials Science (miscellaneous) | 2016 | Q2 |
Materials Science (miscellaneous) | 2017 | Q2 |
Materials Science (miscellaneous) | 2018 | Q2 |
Materials Science (miscellaneous) | 2019 | Q3 |
Materials Science (miscellaneous) | 2020 | Q3 |
Materials Science (miscellaneous) | 2021 | Q3 |
Materials Science (miscellaneous) | 2022 | Q3 |
Materials Science (miscellaneous) | 2023 | Q3 |
The SJR is a size-independent prestige indicator that ranks journals by their 'average prestige per article'. It is based on the idea that 'all citations are not created equal'. SJR is a measure of scientific influence of journals that accounts for both the number of citations received by a journal and the importance or prestige of the journals where such citations come from It measures the scientific influence of the average article in a journal, it expresses how central to the global scientific discussion an average article of the journal is.
Year | SJR |
---|---|
1999 | 1.129 |
2000 | 0.994 |
2001 | 1.078 |
2002 | 1.665 |
2003 | 2.741 |
2004 | 1.802 |
2005 | 1.230 |
2006 | 0.983 |
2007 | 1.876 |
2008 | 0.889 |
2009 | 1.158 |
2010 | 0.670 |
2011 | 0.581 |
2012 | 0.613 |
2013 | 0.385 |
2014 | 0.473 |
2015 | 0.395 |
2016 | 0.411 |
2017 | 0.623 |
2018 | 0.386 |
2019 | 0.286 |
2020 | 0.290 |
2021 | 0.360 |
2022 | 0.302 |
2023 | 0.275 |
Evolution of the number of published documents. All types of documents are considered, including citable and non citable documents.
Year | Documents |
---|---|
1999 | 45 |
2000 | 84 |
2001 | 56 |
2002 | 68 |
2003 | 60 |
2004 | 75 |
2005 | 73 |
2006 | 94 |
2007 | 71 |
2008 | 61 |
2009 | 60 |
2010 | 61 |
2011 | 51 |
2012 | 119 |
2013 | 60 |
2014 | 68 |
2015 | 83 |
2016 | 79 |
2017 | 79 |
2018 | 71 |
2019 | 57 |
2020 | 63 |
2021 | 60 |
2022 | 67 |
2023 | 55 |
This indicator counts the number of citations received by documents from a journal and divides them by the total number of documents published in that journal. The chart shows the evolution of the average number of times documents published in a journal in the past two, three and four years have been cited in the current year. The two years line is equivalent to journal impact factor ™ (Thomson Reuters) metric.
Cites per document | Year | Value |
---|---|---|
Cites / Doc. (4 years) | 1999 | 0.800 |
Cites / Doc. (4 years) | 2000 | 1.063 |
Cites / Doc. (4 years) | 2001 | 1.055 |
Cites / Doc. (4 years) | 2002 | 1.201 |
Cites / Doc. (4 years) | 2003 | 1.466 |
Cites / Doc. (4 years) | 2004 | 1.560 |
Cites / Doc. (4 years) | 2005 | 1.301 |
Cites / Doc. (4 years) | 2006 | 1.167 |
Cites / Doc. (4 years) | 2007 | 1.033 |
Cites / Doc. (4 years) | 2008 | 0.955 |
Cites / Doc. (4 years) | 2009 | 1.084 |
Cites / Doc. (4 years) | 2010 | 1.021 |
Cites / Doc. (4 years) | 2011 | 0.913 |
Cites / Doc. (4 years) | 2012 | 1.193 |
Cites / Doc. (4 years) | 2013 | 0.801 |
Cites / Doc. (4 years) | 2014 | 1.134 |
Cites / Doc. (4 years) | 2015 | 1.047 |
Cites / Doc. (4 years) | 2016 | 1.342 |
Cites / Doc. (4 years) | 2017 | 1.379 |
Cites / Doc. (4 years) | 2018 | 1.129 |
Cites / Doc. (4 years) | 2019 | 1.083 |
Cites / Doc. (4 years) | 2020 | 1.122 |
Cites / Doc. (4 years) | 2021 | 1.452 |
Cites / Doc. (4 years) | 2022 | 1.482 |
Cites / Doc. (4 years) | 2023 | 1.421 |
Cites / Doc. (3 years) | 1999 | 0.800 |
Cites / Doc. (3 years) | 2000 | 1.007 |
Cites / Doc. (3 years) | 2001 | 1.075 |
Cites / Doc. (3 years) | 2002 | 1.016 |
Cites / Doc. (3 years) | 2003 | 1.495 |
Cites / Doc. (3 years) | 2004 | 1.457 |
Cites / Doc. (3 years) | 2005 | 1.246 |
Cites / Doc. (3 years) | 2006 | 0.990 |
Cites / Doc. (3 years) | 2007 | 1.000 |
Cites / Doc. (3 years) | 2008 | 0.874 |
Cites / Doc. (3 years) | 2009 | 1.212 |
Cites / Doc. (3 years) | 2010 | 0.938 |
Cites / Doc. (3 years) | 2011 | 0.896 |
Cites / Doc. (3 years) | 2012 | 1.273 |
Cites / Doc. (3 years) | 2013 | 0.823 |
Cites / Doc. (3 years) | 2014 | 1.174 |
Cites / Doc. (3 years) | 2015 | 1.093 |
Cites / Doc. (3 years) | 2016 | 1.341 |
Cites / Doc. (3 years) | 2017 | 1.452 |
Cites / Doc. (3 years) | 2018 | 0.971 |
Cites / Doc. (3 years) | 2019 | 0.987 |
Cites / Doc. (3 years) | 2020 | 1.092 |
Cites / Doc. (3 years) | 2021 | 1.476 |
Cites / Doc. (3 years) | 2022 | 1.594 |
Cites / Doc. (3 years) | 2023 | 1.405 |
Cites / Doc. (2 years) | 1999 | 0.753 |
Cites / Doc. (2 years) | 2000 | 1.067 |
Cites / Doc. (2 years) | 2001 | 0.884 |
Cites / Doc. (2 years) | 2002 | 0.893 |
Cites / Doc. (2 years) | 2003 | 1.266 |
Cites / Doc. (2 years) | 2004 | 1.422 |
Cites / Doc. (2 years) | 2005 | 1.000 |
Cites / Doc. (2 years) | 2006 | 0.818 |
Cites / Doc. (2 years) | 2007 | 0.886 |
Cites / Doc. (2 years) | 2008 | 0.982 |
Cites / Doc. (2 years) | 2009 | 1.038 |
Cites / Doc. (2 years) | 2010 | 0.926 |
Cites / Doc. (2 years) | 2011 | 0.884 |
Cites / Doc. (2 years) | 2012 | 1.473 |
Cites / Doc. (2 years) | 2013 | 0.800 |
Cites / Doc. (2 years) | 2014 | 1.218 |
Cites / Doc. (2 years) | 2015 | 0.961 |
Cites / Doc. (2 years) | 2016 | 1.391 |
Cites / Doc. (2 years) | 2017 | 1.284 |
Cites / Doc. (2 years) | 2018 | 0.937 |
Cites / Doc. (2 years) | 2019 | 0.900 |
Cites / Doc. (2 years) | 2020 | 0.930 |
Cites / Doc. (2 years) | 2021 | 1.600 |
Cites / Doc. (2 years) | 2022 | 1.585 |
Cites / Doc. (2 years) | 2023 | 0.976 |
Evolution of the total number of citations and journal's self-citations received by a journal's published documents during the three previous years. Journal Self-citation is defined as the number of citation from a journal citing article to articles published by the same journal.
Cites | Year | Value |
---|---|---|
Self Cites | 1999 | 32 |
Self Cites | 2000 | 43 |
Self Cites | 2001 | 39 |
Self Cites | 2002 | 57 |
Self Cites | 2003 | 59 |
Self Cites | 2004 | 66 |
Self Cites | 2005 | 41 |
Self Cites | 2006 | 75 |
Self Cites | 2007 | 66 |
Self Cites | 2008 | 37 |
Self Cites | 2009 | 55 |
Self Cites | 2010 | 28 |
Self Cites | 2011 | 32 |
Self Cites | 2012 | 70 |
Self Cites | 2013 | 34 |
Self Cites | 2014 | 53 |
Self Cites | 2015 | 62 |
Self Cites | 2016 | 43 |
Self Cites | 2017 | 75 |
Self Cites | 2018 | 60 |
Self Cites | 2019 | 25 |
Self Cites | 2020 | 33 |
Self Cites | 2021 | 26 |
Self Cites | 2022 | 34 |
Self Cites | 2023 | 21 |
Total Cites | 1999 | 104 |
Total Cites | 2000 | 135 |
Total Cites | 2001 | 186 |
Total Cites | 2002 | 188 |
Total Cites | 2003 | 311 |
Total Cites | 2004 | 268 |
Total Cites | 2005 | 253 |
Total Cites | 2006 | 206 |
Total Cites | 2007 | 242 |
Total Cites | 2008 | 208 |
Total Cites | 2009 | 274 |
Total Cites | 2010 | 180 |
Total Cites | 2011 | 163 |
Total Cites | 2012 | 219 |
Total Cites | 2013 | 190 |
Total Cites | 2014 | 270 |
Total Cites | 2015 | 270 |
Total Cites | 2016 | 283 |
Total Cites | 2017 | 334 |
Total Cites | 2018 | 234 |
Total Cites | 2019 | 226 |
Total Cites | 2020 | 226 |
Total Cites | 2021 | 282 |
Total Cites | 2022 | 287 |
Total Cites | 2023 | 267 |
Evolution of the number of total citation per document and external citation per document (i.e. journal self-citations removed) received by a journal's published documents during the three previous years. External citations are calculated by subtracting the number of self-citations from the total number of citations received by the journal’s documents.
Cites | Year | Value |
---|---|---|
External Cites per document | 1999 | 0.554 |
External Cites per document | 2000 | 0.687 |
External Cites per document | 2001 | 0.850 |
External Cites per document | 2002 | 0.708 |
External Cites per document | 2003 | 1.212 |
External Cites per document | 2004 | 1.098 |
External Cites per document | 2005 | 1.044 |
External Cites per document | 2006 | 0.630 |
External Cites per document | 2007 | 0.727 |
External Cites per document | 2008 | 0.718 |
External Cites per document | 2009 | 0.969 |
External Cites per document | 2010 | 0.792 |
External Cites per document | 2011 | 0.720 |
External Cites per document | 2012 | 0.866 |
External Cites per document | 2013 | 0.675 |
External Cites per document | 2014 | 0.943 |
External Cites per document | 2015 | 0.842 |
External Cites per document | 2016 | 1.137 |
External Cites per document | 2017 | 1.126 |
External Cites per document | 2018 | 0.722 |
External Cites per document | 2019 | 0.878 |
External Cites per document | 2020 | 0.932 |
External Cites per document | 2021 | 1.340 |
External Cites per document | 2022 | 1.406 |
External Cites per document | 2023 | 1.295 |
Cites per document | 1999 | 0.800 |
Cites per document | 2000 | 1.007 |
Cites per document | 2001 | 1.075 |
Cites per document | 2002 | 1.016 |
Cites per document | 2003 | 1.495 |
Cites per document | 2004 | 1.457 |
Cites per document | 2005 | 1.246 |
Cites per document | 2006 | 0.990 |
Cites per document | 2007 | 1.000 |
Cites per document | 2008 | 0.874 |
Cites per document | 2009 | 1.212 |
Cites per document | 2010 | 0.938 |
Cites per document | 2011 | 0.896 |
Cites per document | 2012 | 1.273 |
Cites per document | 2013 | 0.823 |
Cites per document | 2014 | 1.174 |
Cites per document | 2015 | 1.093 |
Cites per document | 2016 | 1.341 |
Cites per document | 2017 | 1.452 |
Cites per document | 2018 | 0.971 |
Cites per document | 2019 | 0.987 |
Cites per document | 2020 | 1.092 |
Cites per document | 2021 | 1.476 |
Cites per document | 2022 | 1.594 |
Cites per document | 2023 | 1.405 |
International Collaboration accounts for the articles that have been produced by researchers from several countries. The chart shows the ratio of a journal's documents signed by researchers from more than one country; that is including more than one country address.
Year | International Collaboration |
---|---|
1999 | 15.56 |
2000 | 2.38 |
2001 | 0.00 |
2002 | 2.94 |
2003 | 20.00 |
2004 | 22.67 |
2005 | 17.81 |
2006 | 8.51 |
2007 | 18.31 |
2008 | 24.59 |
2009 | 11.67 |
2010 | 21.31 |
2011 | 41.18 |
2012 | 21.85 |
2013 | 15.00 |
2014 | 25.00 |
2015 | 24.10 |
2016 | 13.92 |
2017 | 17.72 |
2018 | 9.86 |
2019 | 10.53 |
2020 | 22.22 |
2021 | 10.00 |
2022 | 20.90 |
2023 | 12.73 |
Not every article in a journal is considered primary research and therefore "citable", this chart shows the ratio of a journal's articles including substantial research (research articles, conference papers and reviews) in three year windows vs. those documents other than research articles, reviews and conference papers.
Documents | Year | Value |
---|---|---|
Non-citable documents | 1999 | 0 |
Non-citable documents | 2000 | 1 |
Non-citable documents | 2001 | 3 |
Non-citable documents | 2002 | 3 |
Non-citable documents | 2003 | 2 |
Non-citable documents | 2004 | 0 |
Non-citable documents | 2005 | 0 |
Non-citable documents | 2006 | 1 |
Non-citable documents | 2007 | 2 |
Non-citable documents | 2008 | 2 |
Non-citable documents | 2009 | 1 |
Non-citable documents | 2010 | 2 |
Non-citable documents | 2011 | 2 |
Non-citable documents | 2012 | 2 |
Non-citable documents | 2013 | 0 |
Non-citable documents | 2014 | 0 |
Non-citable documents | 2015 | 1 |
Non-citable documents | 2016 | 2 |
Non-citable documents | 2017 | 2 |
Non-citable documents | 2018 | 1 |
Non-citable documents | 2019 | 4 |
Non-citable documents | 2020 | 4 |
Non-citable documents | 2021 | 4 |
Non-citable documents | 2022 | 0 |
Non-citable documents | 2023 | 0 |
Citable documents | 1999 | 130 |
Citable documents | 2000 | 133 |
Citable documents | 2001 | 170 |
Citable documents | 2002 | 182 |
Citable documents | 2003 | 206 |
Citable documents | 2004 | 184 |
Citable documents | 2005 | 203 |
Citable documents | 2006 | 207 |
Citable documents | 2007 | 240 |
Citable documents | 2008 | 236 |
Citable documents | 2009 | 225 |
Citable documents | 2010 | 190 |
Citable documents | 2011 | 180 |
Citable documents | 2012 | 170 |
Citable documents | 2013 | 231 |
Citable documents | 2014 | 230 |
Citable documents | 2015 | 246 |
Citable documents | 2016 | 209 |
Citable documents | 2017 | 228 |
Citable documents | 2018 | 240 |
Citable documents | 2019 | 225 |
Citable documents | 2020 | 203 |
Citable documents | 2021 | 187 |
Citable documents | 2022 | 180 |
Citable documents | 2023 | 190 |
Ratio of a journal's items, grouped in three years windows, that have been cited at least once vs. those not cited during the following year.
Documents | Year | Value |
---|---|---|
Uncited documents | 1999 | 68 |
Uncited documents | 2000 | 70 |
Uncited documents | 2001 | 77 |
Uncited documents | 2002 | 93 |
Uncited documents | 2003 | 74 |
Uncited documents | 2004 | 68 |
Uncited documents | 2005 | 89 |
Uncited documents | 2006 | 93 |
Uncited documents | 2007 | 114 |
Uncited documents | 2008 | 130 |
Uncited documents | 2009 | 105 |
Uncited documents | 2010 | 101 |
Uncited documents | 2011 | 90 |
Uncited documents | 2012 | 64 |
Uncited documents | 2013 | 121 |
Uncited documents | 2014 | 106 |
Uncited documents | 2015 | 127 |
Uncited documents | 2016 | 86 |
Uncited documents | 2017 | 98 |
Uncited documents | 2018 | 128 |
Uncited documents | 2019 | 118 |
Uncited documents | 2020 | 99 |
Uncited documents | 2021 | 79 |
Uncited documents | 2022 | 78 |
Uncited documents | 2023 | 83 |
Cited documents | 1999 | 62 |
Cited documents | 2000 | 64 |
Cited documents | 2001 | 96 |
Cited documents | 2002 | 92 |
Cited documents | 2003 | 134 |
Cited documents | 2004 | 116 |
Cited documents | 2005 | 114 |
Cited documents | 2006 | 115 |
Cited documents | 2007 | 128 |
Cited documents | 2008 | 108 |
Cited documents | 2009 | 121 |
Cited documents | 2010 | 91 |
Cited documents | 2011 | 92 |
Cited documents | 2012 | 108 |
Cited documents | 2013 | 110 |
Cited documents | 2014 | 124 |
Cited documents | 2015 | 120 |
Cited documents | 2016 | 125 |
Cited documents | 2017 | 132 |
Cited documents | 2018 | 113 |
Cited documents | 2019 | 111 |
Cited documents | 2020 | 108 |
Cited documents | 2021 | 112 |
Cited documents | 2022 | 102 |
Cited documents | 2023 | 107 |
Evolution of the percentage of female authors.
Year | Female Percent |
---|---|
1999 | 25.88 |
2000 | 30.77 |
2001 | 25.00 |
2002 | 24.41 |
2003 | 29.31 |
2004 | 28.21 |
2005 | 24.14 |
2006 | 25.39 |
2007 | 32.87 |
2008 | 26.92 |
2009 | 24.83 |
2010 | 33.12 |
2011 | 22.73 |
2012 | 25.08 |
2013 | 34.55 |
2014 | 25.37 |
2015 | 24.52 |
2016 | 25.94 |
2017 | 31.30 |
2018 | 27.32 |
2019 | 29.17 |
2020 | 32.48 |
2021 | 34.39 |
2022 | 34.30 |
2023 | 32.19 |
Evolution of the number of documents cited by public policy documents according to Overton database.
Documents | Year | Value |
---|---|---|
Overton | 1999 | 0 |
Overton | 2000 | 2 |
Overton | 2001 | 0 |
Overton | 2002 | 1 |
Overton | 2003 | 0 |
Overton | 2004 | 0 |
Overton | 2005 | 1 |
Overton | 2006 | 1 |
Overton | 2007 | 1 |
Overton | 2008 | 0 |
Overton | 2009 | 2 |
Overton | 2010 | 0 |
Overton | 2011 | 0 |
Overton | 2012 | 1 |
Overton | 2013 | 1 |
Overton | 2014 | 3 |
Overton | 2015 | 1 |
Overton | 2016 | 3 |
Overton | 2017 | 1 |
Overton | 2018 | 0 |
Overton | 2019 | 0 |
Overton | 2020 | 0 |
Overton | 2021 | 0 |
Overton | 2022 | 0 |
Overton | 2023 | 0 |
Evoution of the number of documents related to Sustainable Development Goals defined by United Nations. Available from 2018 onwards.
Documents | Year | Value |
---|---|---|
SDG | 2018 | 11 |
SDG | 2019 | 11 |
SDG | 2020 | 12 |
SDG | 2021 | 15 |
SDG | 2022 | 11 |
SDG | 2023 | 17 |
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Nordic Pulp & Paper Research Journal Latest Publications
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Effect of filler additions on pilot-scale extrusion coating of paperboard with PLA-based blends
Abstract We study the incorporation of minerals (talc, kaolin and surface-treated calcium carbonate) in paperboard coatings based on PLA to improve their performance, often limited by the low crystallinity and moderate gas barrier of the polymer. Masterbatches of PLA-based blends mixed with the mineral fillers were melt-blended in a twin-screw extruder and applied as a coating on paperboard in a pilot-scale unit operating at velocities up to 140 m/min. Thermal imaging was used during the extrusion coating and the effect of the fillers was investigated as far as processability and their effect on the mechanical performance. A reduction of neck-in and improved adhesion between the coating and the substrate were achieved at intermediate mineral loadings. Excess filler and low coating weight generated pinholes, leading to a reduction of the integrity and mechanical properties of the coatings. Overall, we define the performance window for continuous, pilot-scale coating of paperboard with a biopolyester filled with mineral particles, opening the opportunity to realize operations in industrial settings.
Investigation of the effect of light fastness on the color changes of maps prepared by electrophotographic digital printing
Abstract In this study the prints were made on paper substrates, which were thought as map substrate alternatives, with 3 different surface properties at 1200 dpi by using the electrophotographic printing system. Color and gloss values of the samples were determined both before and after exposure to light for a period of 42 hours to determine the light fastness of the substrate and the print on it. The studies revealed that after the light fastness tests (i) the width of the color universe of the papers with matte surfaces is more than that of the papers with glossy surfaces, (ii) the loss of brightness of woodfree paper is higher than that of the other paper samples and (iii) the print chroma values obtained in woodfree paper is lower than those of the coated surfaces. Moreover, (iv) the delta E 00 {E_{00}} measurements revealed that all paper samples experienced different color losses in different colors, and the most significant differences in these color losses were in magenta and black.
Hybrid films from plant and bacterial nanocellulose: mechanical and barrier properties
Abstract The accumulation of petroleum polymers compromises biodiversity and causes environmental problems. Nanocellulose enhances biodegradability and can improve the physical-mechanical performance of materials. The objective was to produce and characterize hybrid films composed of bacterial cellulose (BC) and plant nanocellulose from Eucalyptus (Euc) or Pinus (Pin). Films were produced by the casting method using filmogenic suspensions with different cellulose nanofibrils (CNFs) proportions from both the sources (0, 25, 50, 75 and 100 %). CNFs suspensions were characterized by transmission electron microscopy. The morphology of the films was analyzed using scanning electron microscopy. In addition, the transparency, contact angle, wettability, oil and water vapor barrier and mechanical properties were also evaluated. The contact angles were smaller for films with BC and the wettability was greater when comparing BC with plant CNFs (0.10 ° s − 1 {\text{s}^{-1}} for 75 % Euc/25 % BC and 0.20 ° s − 1 {\text{s}^{-1}} for 25 % Euc/75 % BC). The water vapor permeability (WVP) of the 100 % BC films and the 25 % Euc/75 % BC composition were the highest among the studied compositions. Tensile strength, Young’s modulus and puncture strength decreased considerably with the addition of BC in the films. More studies regarding pre-treatments to purify BC are needed to improve the mechanical properties of the films.
Evaluation of fines separation from unbleached softwood kraft pulp using microperforated hole screens
Abstract The application of a bench scale and an industrial scale pressure screen to separate cellulosic fines from an unbleached softwood kraft pulp containing 5 % (w/w) primary fines was investigated and the results were compared. In the bench scale trials different microperforated screens with hole diameters of 150 µm, 250 µm, 400 µm and 600 µm were used. Based on these results a screen hole diameter of 400 µm was selected for the industrial scale trials. In all cases, a high accept flow rate proved to be the crucial parameter for high removal efficiency of the fines material and a removal efficiency of well above 50 % could be achieved. Further of interest were the limiting factors regarding increased accept flow rates with a focus on the interrelations between pressure difference, slot velocity and reject consistency. As expected, investigation of electric energy demand showed a correlation between removal efficiency and specific energy consumption, which did not exceed 35 kWh/t(od) feed.
Application of DSA to improve strength of thermomechanical pulp blended paper
Abstract A more efficient application of a dry strength agent (DSA) was investigated to improve the strength of thermomechanical pulp (TMP) blended paper. Strength improvement by DSA application was more effective for hardwood bleached kraft pulp (Hw-BKP) than TMP. The degree of strength improvement of DSA further increased with the increasing degree of refining of Hw-BKP. The strength of the paper was decreased by the fines fractionation of TMP, but the strength improvement efficiency of DSA for the fines fractionated TMP increased. In order to increase the strength of TMP mixed paper using DSA, it is expected that DSA should be adsorbed only to Hw-BKP with high strength improvement efficiency, not TMP fines. When the DSA was mixed with Hw-BKP before contact with other stocks, it was confirmed that the effect of improving the strength by the DSA is the best. The strength improving effect increased as TMP fines were removed. Therefore, to improve the strength of the paper containing TMP in Hw-BKP by adding a DSA, it is preferable to selective apply the DSA to Hw-BKP while blending only the fibers of TMP by fractionation.
Frontmatter
Preparation and properties of an intelligent adjustable functional paper for organic cultural relics.
Abstract Precious organic cultural relics are easily affected by temperature, humidity, and harmful gases in the environment, resulting in embrittlement, fading, mildew, moth damage and other aging forms. An energy-saving and environmentally friendly material is needed to stabilize humidity and adsorb harmful gases in the environment. In this paper, with an intelligent adjustment function, functional paper containing sepiolite and tourmaline natural minerals was successfully prepared. The component of 80 % of wingceltis and 20 % of straw in dry pulp as main raw material was conducive to the desorption of water molecules. As favorable structure inside functional paper, the adsorption point and the adsorption contact area increased by the rough surface of fiber bundles, the addition of sepiolite and the ordered molecular chains of copolymers destroyed. So, the relative humidity could be adjusted to 55 % ± 3 within 2 hours and was stable with functional paper. At the same time, 1.11 ppm sulfur dioxide and 2.98 ppm ammonia could be effectively adsorbed in 10 and 12 h, respectively, by 1 g of paper in a 5 L container. The pH of the paper was adjusted to neutral with tourmaline, even if the pH was changed by acidic or alkaline gas absorption. Therefore, for long-term organic cultural relic preservation, preparing a constant-humidity and clean environment is of great significance. This is possible through this paper.
Effects of plate wear on bar forces and fiber properties in a mill scale LC-refiner
Abstract A set of piezo electric force sensors is implemented in a 52-inch mill-scale low consistency refiner to explore the effect of refiner plate wear on bar force sensor measurements. The sensor replaces a short length of a stator bar and measures normal and shear forces applied during the passage of each rotor bar. In previous work with this type of force sensor, force profiles for individual bar passing events (BPE) were investigated. In the work presented here, force profiles for individual BPEs are identified based on key features in the time domain force data. The individual bar force profiles are classified as single peak events which feature one peak corresponding to the fiber compression force and as dual peak events corresponding to fiber compression force and the corner force. The bar passing events are then analysed, based on dual peak ratio and time to peak of the early peak in the dual peak events. Force measurements are evaluated over the full run time of a set of refiner plates. Findings are compared with refiner plate wear measurements and discharge fiber analysis. It is shown that the decrease in the prevalence of the corner force correlates with the wear of the leading edge of the refiner bars or bar rounding of the run time of the refiner plate. This is accompanied by a decrease in plate performance which is represented by a decrease in fiber length and freeness reduction for the same refiner load.
Influence of paper properties on adhesive strength of starch gluing
Abstract The effect of paper properties on the strength of starch gluing for Kraft sack papers has been investigated. We analyzed the effect of surface roughness, wettability and glue penetration. Surface roughness was found not to be related to gluing strength, also surface wetting measured by contact angle showed only a weak relation. Liquid penetration measured by ultrasound (ULP) was found to have a substantial correlation to gluing strength. Comparing ULP liquid penetration speed with actual glue uptake during the gluing process we found that they are only moderately connected. We are attributing this to the fact that the penetration and spreading of the glue on the paper is driven by applying an external pressure during the gluing process, which is not the case for the liquid penetration measurement. Investigating how asymmetrical glue penetration affects gluing strength we found that the relationship was low. The best indication for gluing strength turned out to be the surface wetting/substrate swelling parameter from the ultrasonic liquid penetration measurement. We conclude that the main parameter capturing gluing strength combines the influence of fiber wetting and penetration of the glue into the fibers.
Research on the physical properties of calcium sulfate whisker and the effects of its addition on paper and its printing performance
Abstract In this investigation, softwood pulp and bleached wheat straw pulp were used as raw materials, and Calcium Sulfate Whiskers (CSW) were used as fillers. Based on the structural properties and characteristics of CSW, the printing properties of the paper with CSW, such as whiteness, opacity, pH value, uniformity, Z-direction tensile strength and surface strength, were analyzed. The results showed that CSW has low solubility, high retention and fiber-like appearance. The whiteness of the paper is the best when the filling amount of CSW is 20 %. The paper opacity of softwood pulp increases significantly, and the opacity of bleached wheat straw pulp decreases significantly when CSW is more than 30 %. The addition reduces pH and surface strength of the paper. The evenness of the paper does not change obviously. The Z-direction tensile strength of the paper decreases in the softwood paper, but increases obviously in the bleached wheat straw paper.
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NORDIC PULP & PAPER RESEARCH JOURNAL
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Note: The following journal information is for reference only. Please check the journal website for updated information prior to submission.
NORD PULP PAP RES J
MATERIALS SCIENCE, PAPER & WOOD
Category | Quartile | Rank |
---|---|---|
Agricultural and Biological Sciences - Forestry | Q2 | #67/174 |
Agricultural and Biological Sciences - General Materials Science | Q3 | #293/463 |
Science Citation Index Expanded (SCIE) | Social Sciences Citation Index (SSCI) |
---|---|
Indexed | - |
Category (Journal Citation Reports 2024) | Quartile |
---|---|
MATERIALS SCIENCE, PAPER & WOOD | Q3 |
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Resource information
Title proper: Nordic pulp & paper research journal
Other variant title: Nordic pulp & [and] paper research journal
Country: Germany
Medium: Print
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Last modification date: 18/08/2018
Type of record: Confirmed
ISSN Center responsible of the record: ISSN National Centre for Germany For all potential issues concerning the description of the publication identified by this bibliographic record (missing or wrong data etc.), please contact the ISSN National Centre mentioned above by clicking on the link.
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Nordic Pulp & Paper Research Journal
Number of papers | 262 |
H4-Index | |
TQCC | |
Average citations | 1.725 |
Median citations | |
Impact Factor | 0.900 (based on 2023) |
@ (ca. 2 followers) |
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Twitter : @ NordicPulp (2 followers as of 2023-11-01)
Impact Factor : 0.900 (based on Web of Science 2023)
- # 10 / 16 (Q3) in Materials Science, Paper & Wood
Partner: • University Press Alert
Nordic Pulp and Paper Research Journal - Impact Score, Ranking, SJR, h-index, Citescore, Rating, Publisher, ISSN, and Other Important Details
Published By: SPCI
Abbreviation: Nord. Pulp Pap. Res. J.
Impact Score The impact Score or journal impact score (JIS) is equivalent to Impact Factor. The impact factor (IF) or journal impact factor (JIF) of an academic journal is a scientometric index calculated by Clarivate that reflects the yearly mean number of citations of articles published in the last two years in a given journal, as indexed by Clarivate's Web of Science. On the other hand, Impact Score is based on Scopus data.
Important details.
Nordic Pulp and Paper Research Journal | |
Nord. Pulp Pap. Res. J. | |
Journal | |
Forestry (Q2); Materials Science (miscellaneous) (Q3) | |
1.58 | |
0.302 | |
53 | |
15071 | |
SPCI | |
Sweden | |
20000669, 02832631 | |
1988, 1990, 1996-2022 | |
Q2 | |
(Last 3 Year) | 286 |
About Nordic Pulp and Paper Research Journal
Nordic Pulp and Paper Research Journal is a journal published by SPCI . This journal covers the area[s] related to Forestry, Materials Science (miscellaneous), etc . The coverage history of this journal is as follows: 1988, 1990, 1996-2022. The rank of this journal is 15071 . This journal's impact score, h-index, and SJR are 1.58, 53, and 0.302, respectively. The ISSN of this journal is/are as follows: 20000669, 02832631 . The best quartile of Nordic Pulp and Paper Research Journal is Q2 . This journal has received a total of 286 citations during the last three years (Preceding 2022).
Nordic Pulp and Paper Research Journal Impact Score 2022-2023
The impact score (IS), also denoted as the Journal impact score (JIS), of an academic journal is a measure of the yearly average number of citations to recent articles published in that journal. It is based on Scopus data.
Prediction of Nordic Pulp and Paper Research Journal Impact Score 2023
Impact Score 2022 of Nordic Pulp and Paper Research Journal is 1.58 . If a similar downward trend continues, IS may decrease in 2023 as well.
Impact Score Graph
Check below the impact score trends of nordic pulp and paper research journal. this is based on scopus data..
Year | Impact Score (IS) |
---|---|
2023/2024 | Coming Soon |
2022 | 1.58 |
2021 | 1.62 |
2020 | 0.93 |
2019 | 0.89 |
2018 | 0.94 |
2017 | 1.33 |
2016 | 1.39 |
2015 | 0.97 |
2014 | 1.22 |
Nordic Pulp and Paper Research Journal h-index
The h-index of Nordic Pulp and Paper Research Journal is 53 . By definition of the h-index, this journal has at least 53 published articles with more than 53 citations.
What is h-index?
The h-index (also known as the Hirsch index or Hirsh index) is a scientometric parameter used to evaluate the scientific impact of the publications and journals. It is defined as the maximum value of h such that the given Journal has published at least h papers and each has at least h citations.
Nordic Pulp and Paper Research Journal ISSN
The International Standard Serial Number (ISSN) of Nordic Pulp and Paper Research Journal is/are as follows: 20000669, 02832631 .
The ISSN is a unique 8-digit identifier for a specific publication like Magazine or Journal. The ISSN is used in the postal system and in the publishing world to identify the articles that are published in journals, magazines, newsletters, etc. This is the number assigned to your article by the publisher, and it is the one you will use to reference your article within the library catalogues.
ISSN code (also called as "ISSN structure" or "ISSN syntax") can be expressed as follows: NNNN-NNNC Here, N is in the set {0,1,2,3...,9}, a digit character, and C is in {0,1,2,3,...,9,X}
Nordic Pulp and Paper Research Journal Ranking and SCImago Journal Rank (SJR)
SCImago Journal Rank is an indicator, which measures the scientific influence of journals. It considers the number of citations received by a journal and the importance of the journals from where these citations come.
Nordic Pulp and Paper Research Journal Publisher
The publisher of Nordic Pulp and Paper Research Journal is SPCI . The publishing house of this journal is located in the Sweden . Its coverage history is as follows: 1988, 1990, 1996-2022 .
Call For Papers (CFPs)
Please check the official website of this journal to find out the complete details and Call For Papers (CFPs).
Abbreviation
The International Organization for Standardization 4 (ISO 4) abbreviation of Nordic Pulp and Paper Research Journal is Nord. Pulp Pap. Res. J. . ISO 4 is an international standard which defines a uniform and consistent system for the abbreviation of serial publication titles, which are published regularly. The primary use of ISO 4 is to abbreviate or shorten the names of scientific journals using the technique of List of Title Word Abbreviations (LTWA).
As ISO 4 is an international standard, the abbreviation ('Nord. Pulp Pap. Res. J.') can be used for citing, indexing, abstraction, and referencing purposes.
How to publish in Nordic Pulp and Paper Research Journal
If your area of research or discipline is related to Forestry, Materials Science (miscellaneous), etc. , please check the journal's official website to understand the complete publication process.
Acceptance Rate
- Interest/demand of researchers/scientists for publishing in a specific journal/conference.
- The complexity of the peer review process and timeline.
- Time taken from draft submission to final publication.
- Number of submissions received and acceptance slots
- And Many More.
The simplest way to find out the acceptance rate or rejection rate of a Journal/Conference is to check with the journal's/conference's editorial team through emails or through the official website.
Frequently Asked Questions (FAQ)
What is the impact score of nordic pulp and paper research journal.
The latest impact score of Nordic Pulp and Paper Research Journal is 1.58. It is computed in the year 2023.
What is the h-index of Nordic Pulp and Paper Research Journal?
The latest h-index of Nordic Pulp and Paper Research Journal is 53. It is evaluated in the year 2023.
What is the SCImago Journal Rank (SJR) of Nordic Pulp and Paper Research Journal?
The latest SCImago Journal Rank (SJR) of Nordic Pulp and Paper Research Journal is 0.302. It is calculated in the year 2023.
What is the ranking of Nordic Pulp and Paper Research Journal?
The latest ranking of Nordic Pulp and Paper Research Journal is 15071. This ranking is among 27955 Journals, Conferences, and Book Series. It is computed in the year 2023.
Who is the publisher of Nordic Pulp and Paper Research Journal?
Nordic Pulp and Paper Research Journal is published by SPCI. The publication country of this journal is Sweden.
What is the abbreviation of Nordic Pulp and Paper Research Journal?
This standard abbreviation of Nordic Pulp and Paper Research Journal is Nord. Pulp Pap. Res. J..
Is "Nordic Pulp and Paper Research Journal" a Journal, Conference or Book Series?
Nordic Pulp and Paper Research Journal is a journal published by SPCI.
What is the scope of Nordic Pulp and Paper Research Journal?
- Materials Science (miscellaneous)
For detailed scope of Nordic Pulp and Paper Research Journal, check the official website of this journal.
What is the ISSN of Nordic Pulp and Paper Research Journal?
The International Standard Serial Number (ISSN) of Nordic Pulp and Paper Research Journal is/are as follows: 20000669, 02832631.
What is the best quartile for Nordic Pulp and Paper Research Journal?
The best quartile for Nordic Pulp and Paper Research Journal is Q2.
What is the coverage history of Nordic Pulp and Paper Research Journal?
The coverage history of Nordic Pulp and Paper Research Journal is as follows 1988, 1990, 1996-2022.
Credits and Sources
- Scimago Journal & Country Rank (SJR), https://www.scimagojr.com/
- Journal Impact Factor, https://clarivate.com/
- Issn.org, https://www.issn.org/
- Scopus, https://www.scopus.com/
Note: The impact score shown here is equivalent to the average number of times documents published in a journal/conference in the past two years have been cited in the current year (i.e., Cites / Doc. (2 years)). It is based on Scopus data and can be a little higher or different compared to the impact factor (IF) produced by Journal Citation Report. Please refer to the Web of Science data source to check the exact journal impact factor ™ (Thomson Reuters) metric.
Impact Score, SJR, h-Index, and Other Important metrics of These Journals, Conferences, and Book Series
Journal/Conference/Book Title | Type | Publisher | Ranking | SJR | h-index | Impact Score |
---|---|---|---|---|---|---|
Check complete list
Nordic Pulp and Paper Research Journal Impact Score (IS) Trend
Year | Impact Score (IS) |
---|---|
2023/2024 | Updated Soon |
2022 | 1.58 |
2021 | 1.62 |
2020 | 0.93 |
2019 | 0.89 |
2018 | 0.94 |
2017 | 1.33 |
2016 | 1.39 |
2015 | 0.97 |
2014 | 1.22 |
Top Journals/Conferences in Forestry
Top journals/conferences in materials science (miscellaneous).
IMAGES
COMMENTS
Nordic Pulp & Paper Research Journal (NPPRJ) is a peer-reviewed, international scientific journal covering to-date science and technology research in the areas of wood-based biomass: Pulp and paper: products and processes. Wood constituents: characterization and nanotechnologies. Bio-refining, recovery and energy issues.
Volume 35, issue 1 of the journal Nordic Pulp & Paper Research Journal was published in 2020.
Aims and scope Nordic Pulp & Paper Research Journal is a peer-reviewed, international scientific journal covering to-date science and technology research in the areas of wood-based biomass.
Scope. Nordic Pulp & Paper Research Journal (NPPRJ) is a peer-reviewed, international scientific journal covering to-date science and technology research in the areas of wood-based biomass: Pulp and paper: products and processes Wood constituents: characterization and nanotechnologies Bio-refining, recovery and energy issues Utilization of side ...
Volume 37, issue 2 of the journal Nordic Pulp & Paper Research Journal was published in 2022.
Find the latest published papers in Nordic Pulp & Paper Research Journal + Top authors, related hot topics, the most cited papers, and related journals
Nordic Pulp and Paper Research Journal | Citations: 1,155 | Read 59 articles with impact on ResearchGate, the professional network for scientists.
Optical properties of paper samples prepared from acetylated and non-treated unbleached and hydrogen-peroxide-bleached thermomechanical pulp (TMP) from spruce are reported.
Nordic Pulp & Paper Research Journal (NPPRJ) is a peer-reviewed, international scientific journal covering to-date science and technology research in the areas of wood-based biomass: Pulp and paper: products and processes Wood constituents: characterization and nanotechnologies Bio-refining, recovery and energy issues
The work on Pulp (paper) tackled in Nordic Pulp & Paper Research Journal brings together disciplines like Kraft paper, Nuclear chemistry, Bar (music), Hydrogen peroxide and Alkali metal. The study on Composite material presented in the journal intersects with subjects under the field of Hemicellulose. The research on Kraft process featured in ...
The ISSN of Nordic Pulp and Paper Research Journal journal is 20000669, 02832631 . An International Standard Serial Number (ISSN) is a unique code of 8 digits. It is used for the recognition of journals, newspapers, periodicals, and magazines in all kind of forms, be it print-media or electronic. Nordic Pulp and Paper Research Journal is cited by a total of 286 articles during the last 3 years ...
Resource information Title proper: Nordic pulp & paper research journal Other variant title: Nordic pulp & [and] paper research journal Country: Germany Medium: Print
Volume 37, issue 3 of the journal Nordic Pulp & Paper Research Journal was published in 2022.
Open data-based citation metrics about Nordic Pulp & Paper Research Journal, but also research trends, citation patterns, altmetric scores, similar journals and impact factors.
NORDIC PULP AND PAPER RESEARCH JOURNAL ISSN 0283-2631 Diffusion Title: NORDIC PULP AND PAPER RESEARCH JOURNAL related ISSN: 2000-0669 Country: Sweden Subject: AGRONOMY; BIOLOGY; PHYSICS AND SPACE SCIENCES; INDUSTRIAL ENGINEERING; CHEMISTRY Academic field: MATERIALS SCIENCE; FORESTRY Indexed in: Science Citation Index Expanded (Clarivate), Scopus (ELSEVIER), Academic Search Ultimate (EBSCO ...
Nordic Pulp and Paper Research Journal Scopus 4-Year Impact Factor Trend. Note: impact factor data for reference only. Nordic Pulp and Paper Research Journal Impact Factor History. 2-year 3-year 4-year. 2022 Impact Factor . 1.577 1.589 1.478. 2021 Impact Factor . 1.542 1.414 1.381. 2020 Impact Factor .
About Nordic Pulp and Paper Research Journal Nordic Pulp and Paper Research Journal is a journal published by SPCI. This journal covers the area [s] related to Forestry, Materials Science (miscellaneous), etc . The coverage history of this journal is as follows: 1988, 1990, 1996-2022. The rank of this journal is 15071. This journal's impact score, h-index, and SJR are 1.58, 53, and 0.302 ...
Special Issue: CELLULOSE DISSOLUTION A ND REGENERATION: SYSTEMS AND IN TERACTIONS Nordic Pulp & Paper Research Journal Vol 30 no (1) 2015 43 Ioncell-F: A High-strength regenerated cellulose fibre ...
Nordic Pulp and Paper Research Journal 2023-2024 Journal's Impact IF is 1.595. Check Out IF Ranking, Prediction, Trend & Key Factor Analysis.
ResearchGuide is created in order to improve, to facilitate, and to help researchers to find the best journals for their publications for their publications
Nordic Pulp & Paper Research Journal(NPPRJ) is a quarterly, international scientific journal covering to-date science and technology research in the areas of wood-based biomass: • Pulp and paper: products and processes • Wood constituents: characterization and nanotechnologies • Bio-refining, recovery and energy issues • Utilization of side-streams from pulping processes • Novel ...
Nordic Pulp & Paper Research Journal (NPPRJ) is a peer-reviewed, international scientific journal covering to-date science and technology research in the areas of wood-based biomass: Pulp and paper: products and processes Wood constituents: characterization and nanotechnologies Bio-refining, recovery and energy issues Utilization of side ...