Lignin: Renewable Raw Material for Adhesive

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Open Journal of Polymer Chemistry

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"Lignin: Renewable Raw Material for Adhesive"
written by Ravindra V. Gadhave, Shrray Srivastava, Prakash A. Mahanwar, Pradeep T. Gadekar,
published by Open Journal of Polymer Chemistry, Vol.9 No.2, 2019

has been cited by the following article(s):

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CrossRef

[1]	The effect of pine cone lignin on mechanical, thermal and barrier properties of faba bean protein films for packaging applications
	Lema, K Nilsson, M Langton, J Trifol… - Journal of Food …, 2023

[2]	Urea‐glutaraldehyde‐formaldehyde resin with low formaldehyde emission and high flexibility: Structure and toughening mechanism
	Polymer Engineering & Science, 2023

[3]	Novel Approaches to Enhancing Sustainable Adhesive System Solutions in Contemporary Book Binding: An Overview
	Heritage, 2023

[4]	Effects of Precipitation pH of Black Liquor on Characteristics of Precipitated and Acetone-Fractionated Kraft Lignin
	Journal of the Korean Wood Science and …, 2023

[5]	Desarrollo y optimización de nuevas formulaciones de biopolímeros con principios activos para aplicaciones en el sector envase-embalaje
	2023

[6]	Lactic Acid-Sustainable Raw Material for Biodegradable Hot Melt Adhesive
	Open Journal of Organic Polymer Materials, 2022

[7]	Recent developments in lignin modification and its application in lignin‐based green composites: A review
	Polymer …, 2022

[8]	Novel lignin as natural‐biodegradable binder for various sectors—A review
	Journal of Applied …, 2022

[9]	State of Research and Trends in the Development of Polyvinyl Acetate-Based Wood Adhesive
	Open Journal of Polymer Chemistry, 2022

[10]	Low carbon footprint preparation of MXene incorporated lignocellulosic fibers for high thermal conductivity applications
	Environmental …, 2022

[11]	Effect of pH and pH-Shifting on Lignin–Protein Interaction and Properties of Lignin-Protein Polymers
	Journal of Polymers and …, 2022

[12]	Calcium-Lignosulfonate-Filled Rubber Compounds Based on NBR with Enhanced Physical–Mechanical Characteristics
	Polymers, 2022

[13]	Eco-friendly, high-density fiberboards bonded with urea-formaldehyde and ammonium lignosulfonate
	2021

[14]	Eco-Friendly, High-Density Fiberboards Bonded with Urea-Formaldehyde and Ammonium Lignosulfonate. Polymers 2021, 13, 220
	2021

[15]	The effect of modified tannic acid (TA) eco-epoxy adhesives on mode I fracture toughness of bonded joints
	2021

[16]	Biobased Phenolic Adhesive Using Unmodified Lignin and Glyoxal
	2020

[17]	Sustainable bio-based adhesives for eco-friendly wood composites. A review
	2020

[18]	Sustainable raw materials in hot melt adhesives: a review
	2020

[19]	Efficient and green catalytic degradation of high crosslinked rigid PU foam and recovery value-added products via selective cleavage of C–O and C–N bonds
	2020

[20]	Structural Application of Eco-Friendly Composites from Recycled Wood Fibres Bonded with Magnesium Lignosulfonate
	2020

[21]	Reviewing the thermo-chemical recycling of waste polyurethane foam
	2020

[22]	Evaluation of adhesive performance of a mixture of soy, sorghum and canola proteins
	2020

[23]	Enhanced Interface Adhesion by Novel Eco-Epoxy Adhesives Based on the Modified Tannic Acid on Al and CFRP Adherends
	2020

[24]	Process modification involving strong-acid step in urea-formaldehyde resin preparation
	2020

[25]	Recycling and Disposal Methods for Polyurethane Wastes: A Review
	2019

[26]	Nanocellulose Applications in Wood Adhesives
	2019

[27]	Chemical Modification of Nanocellulose in Wood Adhesive
	2019

[28]	Sustainable Waste Management of Polyurethane Polymers
	2019

[1]	Novel Approaches to Enhancing Sustainable Adhesive System Solutions in Contemporary Book Binding: An Overview Heritage, 2023 DOI:10.3390/heritage6010033

[2]	Urea‐glutaraldehyde‐formaldehyde resin with low formaldehyde emission and high flexibility: Structure and toughening mechanism Polymer Engineering & Science, 2023 DOI:10.1002/pen.26224

[3]	Effects of Precipitation pH of Black Liquor on Characteristics of Precipitated and Acetone-Fractionated Kraft Lignin Journal of the Korean Wood Science and Technology, 2023 DOI:10.5658/WOOD.2023.51.1.38

[4]	A sustainable tannin-citric acid wood adhesive with favorable bonding properties and water resistance Industrial Crops and Products, 2023 DOI:10.1016/j.indcrop.2023.116933

[5]	Facile design of renewable lignin copolymers by photoinitiated RAFT polymerization as Pickering emulsion stabilizers Green Chemistry, 2023 DOI:10.1039/D3GC01500A

[6]	The effect of pine cone lignin on mechanical, thermal and barrier properties of faba bean protein films for packaging applications Journal of Food Engineering, 2023 DOI:10.1016/j.jfoodeng.2022.111282

[7]	A sustainable tannin-citric acid wood adhesive with favorable bonding properties and water resistance Industrial Crops and Products, 2023 DOI:10.1016/j.indcrop.2023.116933

[8]	Isolation and characterization of soda lignin from OPEFB and evaluation of its performance as wood adhesive Materials Today: Proceedings, 2023 DOI:10.1016/j.matpr.2023.09.112

[9]	In Situ Lignin Adhesion for High-Performance Bamboo Composites Nano Letters, 2023 DOI:10.1021/acs.nanolett.3c01497

[10]	A sustainable alternative? A comparative life cycle assessment of epoxy adhesives Journal of Applied Polymer Science, 2023 DOI:10.1002/app.54725

[11]	The effect of pine cone lignin on mechanical, thermal and barrier properties of faba bean protein films for packaging applications Journal of Food Engineering, 2023 DOI:10.1016/j.jfoodeng.2022.111282

[12]	Novel lignin as natural‐biodegradable binder for various sectors—A review Journal of Applied Polymer Science, 2022 DOI:10.1002/app.51951

[13]	Calcium-Lignosulfonate-Filled Rubber Compounds Based on NBR with Enhanced Physical–Mechanical Characteristics Polymers, 2022 DOI:10.3390/polym14245356

[14]	Low carbon footprint preparation of MXene incorporated lignocellulosic fibers for high thermal conductivity applications Environmental Research, 2022 DOI:10.1016/j.envres.2022.114213

[15]	Recent developments in lignin modification and its application in lignin‐based green composites: A review Polymer Composites, 2022 DOI:10.1002/pc.26824

[16]	Novel lignin as natural‐biodegradable binder for various sectors—A review Journal of Applied Polymer Science, 2022 DOI:10.1002/app.51951

[17]	Recent developments in lignin modification and its application in lignin‐based green composites: A review Polymer Composites, 2022 DOI:10.1002/pc.26824

[18]	Low carbon footprint preparation of MXene incorporated lignocellulosic fibers for high thermal conductivity applications Environmental Research, 2022 DOI:10.1016/j.envres.2022.114213

[19]	The effect of modified tannic acid (TA) eco-epoxy adhesives on mode I fracture toughness of bonded joints Polymer Testing, 2021 DOI:10.1016/j.polymertesting.2021.107122

[20]	Reviewing the thermo-chemical recycling of waste polyurethane foam Journal of Environmental Management, 2021 DOI:10.1016/j.jenvman.2020.111527

[21]	Eco-Friendly, High-Density Fiberboards Bonded with Urea-Formaldehyde and Ammonium Lignosulfonate Polymers, 2021 DOI:10.3390/polym13020220

[22]	Enhanced Interface Adhesion by Novel Eco-Epoxy Adhesives Based on the Modified Tannic Acid on Al and CFRP Adherends Polymers, 2020 DOI:10.3390/polym12071541

[23]	Evaluation of adhesive performance of a mixture of soy, sorghum and canola proteins Industrial Crops and Products, 2020 DOI:10.1016/j.indcrop.2020.112898

[24]	Structural Application of Eco-Friendly Composites from Recycled Wood Fibres Bonded with Magnesium Lignosulfonate Applied Sciences, 2020 DOI:10.3390/app10217526

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	customer@scirp.org
	+86 18163351462(WhatsApp)
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