1、Recent advancement in bio

In this review, background information on protein composition and its interaction with wood are initially discussed, followed by the methodology necessary to pre-treat the protein. Important factors for determining bonding strength and the most likely bonding mechanism are also introduced.

2、Preparation and Characterization of Soybean Protein Adhesives Modified

Herein, we prepared a novel, environmentally friendly soybean protein-based adhesive by adding tannin-based resin (TR) to improve the performance of water resistance and wet bonding strength.

3、Bonding wood with uncondensed lignins as adhesives

Our strategy involves separation of uncondensed or slightly condensed lignins from biomass followed by direct application of a suspension of the lignin and water as an adhesive on wood veneers.

4、Construction of Eco

The objective of this investigation was to enhance the adhesion and water resistance properties of peanut protein-based adhesive through the incorporation of formaldehyde-free urea-glyoxal (UG) resin into the curing system.

Bio

Plant oils consist of triglycerides which can be modified and used to synthesize polymeric materials which serve as adhesives. This book chapter intends to focus on the structure-property relationships of the synthesized bio-based adhesives derived from naturally occurring plant oils.

Preparation and Characterization of Soybean Protein Adhesives Modified

Herein, we prepared a novel, environmentally friendly soybean protein-based adhesive by adding tannin-based resin (TR) to improve the performance of water resistance and wet bonding strength.

A Narrative Review: Modification of Bio

Most researchers have used physical and chemical methods to modify bio-based adhesives in order to improve their overall performance.

Design of tough, strong and recyclable plant protein

We determined the effects of cured resin residue on the new adhesive system by grinding cured adhesives to 200 mesh particles and adding them to the fresh adhesives in different amounts to mimic the recycling and reconstitution process of wood-based panels.

Tough, Waterproofing, and Sustainable Bio‐Adhesive Inspired by the

In this work, we design and develop a bio-adhesive with a double cross-linked network inspired by the dragonfly wing. The network contains a lignin polyurea (LPU) rigid skeleton pattern and a soybean protein (SP) based energy-absorbing units.

A reusable soy protein adhesive with enhanced weather resistance

This adhesive effectively bonds various substrates, enabling stainless-steel sheets to pull a 1,135 kg car. Additionally, the adhesive exhibits remarkable weather resistance comparable to a phenolic resin (PF) adhesive in an accelerated aging test.

How to Use Plant-Modified Resin Adhesive

The Wonderful Applications of Plant-Modified Resin Adhesive

In today's society, where sustainability and green living are increasingly valued, plant-modified resin adhesive, as an eco-friendly material, is gradually entering people's的视野. It not only retains the adhesive properties of traditional resin adhesives but also demonstrates significant potential in terms of environmental protection and renewability. This article will explore in depth the usage methods and applications of plant-modified resin adhesive in various fields.

I. Introduction to Plant-Modified Resin Adhesive

Plant-modified resin adhesive is a high-performance resin adhesive obtained through biotechnological modification of plant materials. This type of adhesive not only preserves the natural characteristics of plant materials, such as high biodegradability and low toxicity, but also enhances its mechanical strength, temperature resistance, and chemical corrosion resistance through chemical or physical methods. Compared to traditional petroleum-based resin adhesives, plant-modified resin adhesive is more environmentally friendly and has a smaller impact on the ecological environment.

II. Usage Methods

1. Preparation Phase

   • Surface Cleaning: Ensure the surfaces to be bonded are dry, dust-free, and oil-free.
   • Sanding: For uneven surfaces, sand with sandpaper until the roughness is适中.
   • Priming: If needed, apply a layer of专用 primer to enhance adhesion.

2. Application Process

   • Resin Adhesive Quantity: Use the amount recommended by the product instructions.
   • Mixing: Thoroughly mix the resin adhesive with the curing agent using an electric mixer or other tools.
   • Application: Evenly apply the mixed resin adhesive to the prepared surface, avoiding air bubbles.
   • Alignment and Fixing: Align the two materials to be bonded, gently press, and ensure the resin adhesive fully penetrates the gaps.

3. Curing Process

   • Natural Curing: Allow the resin adhesive to cure naturally at room temperature. The curing time varies depending on the type and formulation, typically ranging from several hours to one day.
   • Hot Air Curing: To accelerate curing, use a hot air gun to heat the application area. Control the temperature and time carefully to avoid deformation or damage to the material.

III. Application Areas

1. Construction Industry

   • Wood Bonding: Used for bonding wood, improving structural stability and durability.
   • Tile Bonding: Suitable for bonding tiles to other building materials, ensuring firm attachment.

2. Automotive Manufacturing

   • Interior Bonding: Used for bonding automotive interior materials (e.g., leather, plastic, metal), enhancing aesthetics and safety.
   • Body Repair: Quickly repairs scratches, dents, and other damage to vehicle bodies.

3. Electronics and Appliances

   • Circuit Board Bonding: Bonds electronic components, improving circuit stability and reliability.
   • Plastic Housing Bonding: Bonds plastic housings to other materials, ensuring sealing and durability.

4. Furniture Manufacturing

   • Wood Bonding: Used for wood joints in furniture making, enhancing structural stability.
   • Wood Product Repair: Repairs cracks, breaks, and other issues in furniture.

5. Craftsmanship

   • Ceramic Bonding: Bonds ceramic crafts, ensuring integrity and aesthetics.
   • Glass Bonding: Bonds glass crafts, improving transparency and wear resistance.

As an emerging eco-friendly material, plant-modified resin adhesive has demonstrated巨大的潜力 and broad prospects in various fields. With continuous technological advancements and market maturation, it is believed that more innovations and applications will emerge in the future, bringing greater convenience and beauty to people's lives. Let us look forward to this green revolution and contribute to the sustainable development of our planet.