The leader of China special amines-

Archive for the category: News

Home / News

Anti-yellowing agent for shoe materials: an effective strategy to improve the durability of work boots

3月 15th, 2025 News

Shoe material anti-yellowing agent: an effective strategy to improve the durability of work boots

Introduction

In modern society, a pair of durable work boots are not only a protective umbrella under the feet of workers, but also an indispensable partner in their daily work. However, over time and by environmental factors, many shoe materials will experience troublesome “yellowing” phenomena – the originally white or bright upper gradually becomes dull and yellow, which not only affects the appearance, but may also weaken the performance of the material. This problem is particularly prominent for work boots that require long-term exposure to complex environments.

To meet this challenge, scientists have developed a magical “protective shield” – shoe material anti-yellowing agent. It is like an invisible protective umbrella, which can effectively delay the yellowing process caused by ultraviolet rays, high temperatures or other chemicals, thereby significantly improving the durability and service life of the working boots. This article will deeply explore the mechanism, application scope and advantages of anti-yellowing agent of shoe material, and reveal its important position in the modern shoemaking industry through detailed data analysis and case studies. At the same time, we will also refer to relevant domestic and foreign literature to provide readers with a comprehensive and practical knowledge guide.

Next, let’s go into this world full of technological charm and explore how to make your work boots last!

What is anti-yellowing agent for shoe material?

Definition and Function

Shoe material anti-yellowing agent is a functional chemical specially used to prevent yellowing of shoe materials (especially white or light-colored uppers). It usually exists in liquid or powder form and can be evenly integrated into the shoe material during the production process to form an invisible protective film. This film can effectively absorb or reflect ultraviolet rays, blocking the occurrence of oxidation reactions, thereby preventing the shoe material from turning yellow due to long-term exposure to sunlight or contacting oxygen in the air.

Simply put, the anti-yellowing agent of the shoe material is like the “sunscreen” of the shoe material. Its main task is to protect the shoe material from harmful external factors and maintain its original color and texture.

Working Principle

There are many reasons for yellowing of the shoe material, mainly including the following points:

  1. Ultraviolet radiation: UV light can damage the molecular structure of the shoe material, causing the material to degrade and produce yellow by-products.
  2. Oxidation: Oxygen in the air reacts chemically with certain components in the shoe material to produce colored substances.
  3. Thermal Aging: The high temperature environment accelerates the aging speed of shoe materials, making it more likely to be yellow.
  4. Pollutant: Pollutants such as sulfides and nitrogen oxides may also cause yellowing.

In response to the above problems, the anti-yellowing agent of the shoe material plays a role in the following ways:

  • Absorb UV rays: Use specific chemical groups to absorb UV energy and convert it into harmless heat and release it.
  • Catch free radicals: Through antioxidant mechanisms, free radicals that may cause yellowing are captured to prevent the occurrence of chain reactions.
  • Stable molecular structure: Enhance the stability of shoe materials molecules and reduce the damage caused by external factors.

This multiple protection mechanism makes the anti-yellowing agent of the shoe material an ideal choice for extending the life of the shoe material.

Product parameters of shoe material anti-yellowing agent

The following is a comparison table of the main parameters of several common anti-yellowing agents on the market for reference:

parameter name Product A Product B Product C
Chemical Components Ultraviolet absorber Antioxidants Compound anti-yellowing agent
Appearance Light yellow liquid White Powder Transparent Liquid
Concentration of use (%) 0.5 – 1.0 0.8 – 1.5 1.0 – 2.0
Temperature resistance range (°C) -20 to 120 -30 to 150 -40 to 180
Solution Soluble in organic solvents Insoluble in water Compatible with multiple solvents
Applicable Materials PVC, TPU EVA, PU All common shoe materials

From the above table, it can be seen that different types of anti-yellowing agents have their own characteristics, and the specific selection should be optimized for configuration according to actual needs.

Shoe material anti-yellowApplication scope of variable agent

Application in Work Boots

Work boots are often subject to extreme environmental conditions due to their special use, such as dust at construction sites, corrosive gases in chemical plants, and intense sun exposure to outdoor operations. These scenes are very likely to cause the shoe material to turn yellow, which will affect the overall performance and aesthetics of the boots. Therefore, the application of anti-yellowing agent for shoe materials in the manufacturing of working boots is particularly important.

For example, in the work boot production line of an internationally renowned brand, researchers found that after adding an appropriate amount of composite anti-yellowing agent, the boots can still maintain an initial whiteness of more than 95% after a year of outdoor testing, which is significantly better than products without anti-yellowing agents.

Extended applications in other footwear

In addition to working boots, shoe material anti-yellowing agent can also be widely used in sports shoes, casual shoes, leather shoes and other fields. For example:

  • Sports: Athletes often train in the sun, and the upper is prone to fading due to ultraviolet rays. Anti-yellowing agents can help maintain the bright color of the upper.
  • Casual Shoes: Young consumers have high requirements for the appearance of shoes, and anti-yellowing agents help to extend the fashion cycle of shoes.
  • Leather Shoes: The leather material is more sensitive to environmental changes. The use of anti-yellowing agents can effectively slow down the aging process of leather.

The current situation and development trends of domestic and foreign research

Domestic research progress

In recent years, my country has achieved remarkable results in the field of anti-yellowing agents for shoe materials. For example, a university team successfully developed a new nano-scale anti-yellowing agent with a particle size of only one-tenth of that of traditional products and has higher dispersion and efficiency. Experiments show that this product can increase the anti-yellowing ability of shoe materials by more than 30%.

In addition, domestic companies are also actively promoting the greening process of anti-yellowing agents. By using bio-based raw materials to replace traditional petroleum-based compounds, a new generation of environmentally friendly anti-yellowing agents are gradually replacing traditional products and contributing to sustainable development.

International Frontier Trends

Around the world, European and American countries have started research on yelping agents early and their technology is more mature. For example, the intelligent anti-yellowing agent developed by a German company can adjust the protective effect through an adaptive mechanism and automatically optimize the performance according to changes in environmental conditions.

At the same time, Japanese scientists proposed an anti-yellowing scheme based on photocatalytic technology, using the photocatalytic properties of titanium dioxide to decompose harmful substances, and fundamentally solve the problem of yellowing. Although this approach is currently costly, its potential value cannot be ignored.

Practical Case Analysis

Case 1: Practice of a well-known working boot brand

A internationally renowned work boot brand has introduced a high-performance anti-yellowing agent to its new product. After two years of actual use tracking survey, the results showed that the average service life of this batch of work boots was 40% longer than previous models, and the user satisfaction was greatly improved.

Case 2: Breakthrough in the field of sports shoes

A American sports shoe manufacturer uses advanced composite anti-yellowing agents in its flagship products. Sales of new products increased by 60% in the first year after they were launched, and customer feedback generally believed that the colors of shoes are longer and less likely to fade.

Conclusion

Shoe material anti-yellowing agent, as an important part of the modern shoemaking industry, is changing our lives with its outstanding performance and wide application prospects. Whether it is to protect the safety of workers or satisfy consumers’ pursuit of fashion and quality, it plays an irreplaceable role.

In the future, with the continuous advancement of science and technology, we can look forward to the birth of more innovative anti-yellowing agents, injecting new vitality into the shoe material industry. Let us witness the prosperity of this field together!

Extended reading:https://www.morpholine.org/polyurethane-catalyst-pc41/

Extended reading:https://www.newtopchem.com/archives/617

Extended reading:<a href="https://www.newtopchem.com/archives/617

Extended reading:https://www.bdmaee.net/strong-gel-catalyst/

Extended reading:https://www.cyclohexylamine.net/dibbutyltin-dilaurate-cas-77-58-7/”>https://www.cyclohexylamine.net/dibbutyltin-dilaurate-cas-77-58-7/

Extended reading:https://www.bdmaee.net/anhydrous-tin-chloride/

Extended reading:https://www.cyclohexylamine.net/high-quality-246-trisdimethylaminomethylphenol-cas-90-72-2-dmp-30/

Extended reading:https://www.newtopchem.com/archives/1598

Extended reading:https://www.newtopchem.com/archives/category/products/

Extended reading:https://www.newtopchem.com/archives/39778

Extended reading:https://www.newtopchem.com/archives/44415

Application of anti-yellowing agent for shoe material in winter warm shoes manufacturing

3月 15th, 2025 News

Application of shoe material anti-yellowing agent in winter warm shoes manufacturing

1. Preface: The secret weapon to keep shoes “youthful forever”

The coldness of winter can always make people feel infinite desire for warmth. A pair of high-quality winter warm shoes is undoubtedly a good companion to resist the severe cold. However, while pursuing comfort and warmth, many people ignore a question – will shoes lose their original beauty over time? Especially those shoes that use white or light-colored uppers often experience headaches of “yellow changes” after using them for a period of time. This change not only affects the overall appearance of the shoes, but may also make consumers mistakenly believe that there are problems with product quality.

So, what exactly is “yellow change”? Simply put, it refers to the chemical reaction of certain materials under the action of light, heat or other external factors, causing the originally flawless material to gradually turn yellow or even brown. This is especially common for winter warm shoes, because these shoes usually require soft, lightweight and warm-resistant shoe materials such as EVA (ethylene-vinyl acetate copolymer) foaming materials or PU (polyurethane) sponges. Although these materials have superior performance, their internal structure contains unsaturated bonds or easily oxidized components, making them prone to yellowing when exposed to ultraviolet rays, oxygen or high-temperature environments for a long time.

In order to solve this problem, anti-yellowing agents in shoe materials emerged. This is a functional additive designed specifically for the yellowing problem of shoe materials. It can effectively delay or prevent the occurrence of yellowing without affecting the original performance of the material. Through scientific and reasonable application, anti-yellowing agents can not only improve the appearance of winter warm shoes, but also enhance consumers’ purchasing confidence and brand loyalty.

This article will start from the basic principles of anti-yellowing agents, combine relevant domestic and foreign literature to deeply explore its specific application methods and effect evaluation in winter warm shoes manufacturing, and present readers with easy-to-understand language with rich tabular data.

2. Basic knowledge of anti-yellowing agent for shoe material

(I) Definition and mechanism of action

Shoe material anti-yellowing agent is a functional chemical that is mainly used to prevent the yellowing of the shoe material due to environmental factors. Its core function is to protect the shoe material from oxidative degradation by inhibiting free radical chain reactions or capturing harmful substances in photochemical products. In other words, the anti-yellowing agent is like an invisible “protective shield”, firmly protecting the pure nature of the shoe material.

From the perspective of mechanism of action, anti-yellowing agents are mainly divided into two categories:

  1. Antioxidation-type anti-yellowing agent
    This type of anti-yellowing agent prevents further aging of the material by capturing free radicals and interrupting the oxidation reaction chain. They usually contain phenols or aminesCompounds such as BHT (2,6-di-tert-butyl-4-methylphenol) and hindered amine antioxidants (HALS). These compounds can effectively reduce ultraviolet irradiation and molecular cleavage under high temperature conditions.

  2. UV Absorbent Anti-Yellowing Agent
    This type of anti-yellowing agent focuses on shielding the effects of ultraviolet rays. They can absorb UV energy at a specific wavelength and convert it into harmless thermal energy to release it, thus avoiding photochemical reactions caused by UV. Common UV absorbers include benzotriazoles, salicylates and benzophenone compounds.

The two types of anti-yellowing agents have their own advantages, and the specific choice depends on the characteristics of the target material and the use scenario. For example, for outdoor sports shoes that are often exposed to the sun, UV-absorbent anti-yellowing agents may be a better choice; for indoor home slippers, anti-oxidation anti-yellowing agents are more suitable.

(II) Detailed explanation of product parameters

To better understand the actual performance of anti-yellowing agents, we can compare the key parameters of different types of products through the following table:

parameter name Antioxidation-type anti-yellowing agent UV Absorbent Anti-Yellowing Agent
Chemical composition Phenols, amines Benzotriazoles, benzophenones
Appearance White Powder Light yellow to transparent liquid
Melting point (?) 80~150
Solubilization Insoluble in water, soluble in organic solvents Soluble in a variety of organic solvents
Recommended dosage (%) 0.1~0.5 0.3~1.0
Advantages Low cost, stable effect Extremely sensitive to ultraviolet rays
Disadvantages Limited protection against ultraviolet rays Relatively high cost

It should be noted that in actual applications, the type and dosage of anti-yellowing agents are often required to be adjusted according to the specific circumstances. For example, if the shoe material itself already has a certain antioxidant ability, a lower concentration of anti-yellowing agent can be selected to reduce costs; on the contrary, if the shoe material is susceptible to strong light, the proportion of the ultraviolet-absorbing anti-yellowing agent should be appropriately increased.

(III) Current status of domestic and foreign research

In recent years, with the continuous improvement of consumers’ requirements for product quality, the research and development and application of anti-yellowing agents have also made significant progress. The following are some representative research results:

  1. DuPont Research
    In its paper “UV Stabilizers in Footwear Materials”, DuPont pointed out that adding an appropriate amount of ultraviolet absorber can reduce the yellowing index of EVA sole materials by more than 70%. In addition, they have also developed a new composite anti-yellowing agent that can take into account both antioxidant and UV protection functions, suitable for the high-end sports shoe market.

  2. Technical breakthroughs of Germany’s BASF Group (BASF)
    In its 2021 annual report, BASF mentioned that they have successfully developed an anti-yellowing agent based on nanotechnology, which has higher dispersion and longer-lasting effects. Experimental data show that the processed PU upper material still maintains its initial color after 90 days of continuous exposure to the sun, and does not show obvious yellowing.

  3. Contributions of the Institute of Chemistry, Chinese Academy of Sciences
    Domestic scientific research institutions have also made important contributions in the field of anti-yellowing agents. For example, a study by the Institute of Chemistry, Chinese Academy of Sciences shows that by optimizing the molecular structure of the anti-yellowing agent, its compatibility with the shoe material can be significantly improved, thereby avoiding secondary pollution problems caused by migration or precipitation.

3. Application of shoe material anti-yellowing agent in warm shoes in winter

(I) Characteristics and needs of warm shoes in winter

As an exclusive product for special seasons, winter warm shoes must meet the following requirements:

  1. Excellent warmth performance
    Winter warm shoes usually use multi-layer composite structures, with the sole using high-density EVA foaming material, and the upper using PU sponge or imitation sheepskin suede fabric. These materialsNot only is it light and soft, but it also has a low thermal conductivity, which can effectively isolate the cold air outside.

  2. Good comfort
    The lining materials of warm shoes in winter usually include antibacterial and anti-odor functions to ensure good hygiene after wearing for a long time. At the same time, the insole part will also be equipped with a breathable hole design to promote the evaporation of sweat on the feet.

  3. Last lasting aesthetic
    It is precisely because warm shoes are used frequently in winter and are often exposed to complex environments that their yellowing resistance is put forward higher requirements. Whether it is snow boots or hiking boots, they need to maintain a good appearance while ensuring functionality.

(II) Specific application methods of anti-yellowing agent

The application methods of anti-yellowing agents are also different for different parts of warm shoes in winter. Here are a few typical examples:

  1. Sole material treatment
    The soles of warm shoes in winter are mostly made of EVA foaming material. Although this material is flexible, it is prone to yellowing under ultraviolet rays and high temperature conditions. To this end, a certain amount of antioxidant anti-yellowing agent (such as BHT) can be pre-mixed into the EVA raw material and evenly distributed to the entire sole through the injection molding process. According to the experimental results, this method can reduce the yellowing index of the sole by about 60%, and will not affect its physical and mechanical properties.

  2. Upper material modification
    The upper material of winter warm shoes is usually made of PU sponge or TPU film. These materials can be coated or impregnated during the production process to introduce ultraviolet-absorbent anti-yellowing agents. For example, a solution containing a benzotriazole compound is uniformly sprayed on the upper and then subjected to a drying and curing process. This not only effectively prevents yellowing, but also improves the wear resistance and scratch resistance of the upper.

  3. Line material optimization
    Since the lining material directly contacts the human skin, it has strict requirements on its safety. In this case, food-grade certified anti-yellowing agents (such as natural plant extracts) can be selected to ensure harmless to human health. In addition, nanosilver ion technology can be combined to impart additional antibacterial function to the lining material.

(III) Case Analysis: Successful Experience of a Well-known Brand in Winter Warm Shoes

A internationally renowned sports brand has adopted advanced anti-yellowing technology in its new winter warm shoes, achieving remarkable results. Here are some technical details of this product:

Part Materials used Anti-yellowing agent type Effect Evaluation
Sole EVA foaming material Antioxidation anti-yellowing agent (BHT) The yellowing index is reduced by 65%, and the service life is increased by 30%.
Upper PU sponge + TPU film UV Absorbent Anti-Yellowing Agent Keep the primary color under high-intensity ultraviolet rays
Line Imitation goatskin velvet fiber Natural Plant Extract Safe and environmentally friendly, with antibacterial effects

By finely refining the various components, this winter warm shoe not only always remains bright and new in appearance, but also shows extremely high durability and comfort in actual use, winning wide recognition from the market.

IV. Advantages and limitations of anti-yellowing agents

(I) Summary of Advantages

  1. Extend product life
    Anti-yellowing agents can significantly delay the aging speed of shoe materials, thereby extending the overall service life of warm shoes in winter.

  2. Enhance brand image
    High-quality anti-yellowing treatment helps to establish the brand’s high-end image and attract more loyal users.

  3. Adapting to diverse needs
    Different types of anti-yellowing agents can be flexibly matched according to the specific application scenario to meet personalized customization needs.

(II) Localization Analysis

Although anti-yellowing agents bring many benefits, there are still some challenges in their application:

  1. Cost Issues
    High-performance anti-yellowing agents are relatively expensive and may increase the manufacturing cost of the product.

  2. Compatibility Limitation
    Not all shoe materials are suitable for adding anti-yellowing agents, and some materials may cause adverse reactions due to compatibility issues.

  3. Environmental pressure
    Some traditional anti-yellowing agents contain potentially toxic ingredients and may not meet the increasingly stringent environmental regulations.

5. Future development trends and prospects

With the advancement of science and technology and the development of society, the field of anti-yellowing agents in the shoe material is ushering in new opportunities and challenges. Here are some directions worth paying attention to:

  1. Green trend
    Develop more anti-yellowing agents based on natural plant extracts or biodegradable materials to meet environmental needs.

  2. Multifunctional Integration
    Combine anti-yellowing agents with other functional additives (such as antibacterial agents, fire repellents, etc.) to achieve “one dose and multiple effects”.

  3. Intelligent Control
    Using sensor technology and big data analysis, we can monitor the degree of yellowing of the shoe material in real time and dynamically adjust the amount of anti-yellowing agent added.

In short, the anti-yellowing agent of shoe material has broad application prospects in winter warm shoes manufacturing. Only by constantly innovating and improving can we truly realize the beautiful vision of “making every pair of shoes young forever”!

Extended reading:https://www.newtopchem.com/archives/39814

Extended reading:https://www.newtopchem.com/archives/category/products/page/138

Extended reading:https://www.bdmaee.net/wp-content/uploads/2022/08/6.jpg

Extended reading:https://www.morpholine.org/benzyldimethylamine/

Extended reading:https://www.newtopchem.com/archives/44876

Extended reading:https://www.bdmaee.net/dioctyl-dimaleate-di-n-octyl-tin/

Extended reading:https://www.bdmaee.net/wp-content/uploads/2022/08/low-odor-reactive-composite-catalyst-NT-CAT-9726-catalyst-9726.pdf

Extended reading:https://www.cyclohexylamine.net/octyltin-oxide-dioctyltin-oxide/

Extended reading:https://www.cyclohexylamine.net/pc-12/

Extended reading:https://www.bdmaee.net/nt-cat-t96-catalyst-cas103-83-3-newtopchem/

Anti-yellowing agent for shoe material: an efficient solution to the problem of footwear aging

3月 15th, 2025 News

Shoe material anti-yellowing agent: an efficient solution to the problem of footwear aging

1. Preface: Why do shoes “get older”?

Have you ever had this experience? A pair of brand new white sneakers was as white as snow when I bought it, but not long after, the upper or soles began to turn yellow and even dull. This phenomenon is not uncommon in daily life, especially in sunlight, humid environments or long-term storage. So, why do shoes “get older”? In fact, there is a scientific problem behind this – the aging of materials.

Aging of shoe materials is a complex chemical process, mainly manifested as color changes (such as yellowing), decreased physical properties (such as weakening elasticity), and decreased appearance quality. These problems not only affect the aesthetics of the shoes, but may also shorten their service life. The main reasons for these phenomena can be attributed to the following aspects:

  1. Oxidation reaction: The oxygen in the air reacts with the organic components in the shoe material, causing changes in the molecular structure, thereby causing color changes.
  2. Ultraviolet irradiation: UV rays in sunlight have high energy and can destroy the molecular chains of shoe materials and accelerate the aging process.
  3. Humid and Heat Environment: High temperature and high humidity will promote the occurrence of certain chemical reactions, further aggravate the aging of shoe materials.
  4. Improper storage conditions: If the shoes are stored in an environment that is not ventilated or contains harmful gases for a long time, it may also lead to yellowing or other aging.

To deal with this problem, scientists have developed a magical substance called “shoe cotton anti-yellowing agent”. It is like an invisible guardian, which can effectively delay the aging process of shoe materials and keep the shoes bright and new at all times. Next, we will discuss in-depth the working principle, application field of shoe cotton anti-yellowing agent and its significance to the footwear industry.

2. Definition and classification of anti-yellowing agents for shoe materials

(I) What is anti-yellowing agent for shoe material?

Shoe material anti-yellowing agent is an additive specially used to prevent the shoe material from yellowing due to aging. Its main function is to protect the shoe material from external factors by inhibiting oxidation reactions, absorbing ultraviolet rays or neutralizing harmful gases, thereby extending the service life of the shoe and maintaining its appearance quality.

Simply put, the anti-yellowing agent of the shoe material is like a “protective umbrella”, which separates the shoe material from the bad environment in the outside world and keeps it away from those “killers” who may cause yellowing. Whether it’s leather, rubber or synthetic fiber, you can benefit from this amazing additive.

(II) Classification of anti-yellowing agents for shoe materials

Depending on the mechanism of action, anti-yellowing agents in shoe materials can be divided into the following categories:

Category Definition and Features Common Application Scenarios
Antioxidants By capturing free radicals, the oxidation reaction is prevented from occurring, thereby preventing the shoe material from turning yellow due to oxidation. Rubber sole, PU upper
Ultraviolet absorber Absorb the energy of ultraviolet rays and convert it into harmless heat energy to release it to avoid the damage of ultraviolet rays to the shoe material. White sneakers, outdoor shoes
Light Stabilizer By capturing excited molecules, the photochemical reaction is inhibited and the aging phenomenon caused by light is reduced. High-end footwear with high appearance requirements
Gas phase stabilizer Neutralize harmful gases (such as hydrogen sulfide, nitrogen oxides) in the air that may cause yellowing, thereby protecting the shoe material from the pollution of the environment. Industrial shoes, storage shoes

Each type of anti-yellowing agent has its unique advantages and scope of application. The specific choice needs to be determined based on the type of shoe material, usage environment and customer needs.

3. Working principle of anti-yellowing agent for shoe material

(I) Mechanism of action of antioxidants

Antioxidants are one of the common types of anti-yellowing agents in shoe materials. Its main task is to prevent the occurrence of oxidation reactions. We know that oxidation reaction is a chain reaction caused by free radicals, which are extremely active chemicals that will constantly attack the molecular chains in the shoe material, causing the molecular structure to be destroyed and eventually yellowing.

Antioxidants work in two ways:

  1. Free Radical Capture: Antioxidants can actively capture free radicals, causing them to become inactive, thereby terminating the chain of oxidation reaction.
  2. Decomposition of peroxides: Some antioxidants can also decompose the already formed peroxides, further reducing the occurrence of oxidation reactions.

For an image example, antioxidants are like firefighters. When a fire (oxidation reaction) is about to spread, they quickly extinguish the flames to ensure the safety of the shoe material.

(II) The mechanism of action of ultraviolet absorbers

Ultraviolet absorbers are another typeImportant anti-yellowing agent. Its main responsibility is to intercept the ultraviolet rays in the sun and prevent them from touching the surface of the shoe material. UV rays are dangerous because they have enough energy to destroy the molecular structure of shoe materials, especially for white or light-colored shoe materials, which are even more “deadly killers”.

UV absorber completes the task through the following steps:

  1. Absorb UV energy: UV absorbers will preferentially absorb the energy of UV light and store it.
  2. Energy Conversion: The absorbent then releases this energy in the form of thermal energy, thereby avoiding direct damage to the shoe material by ultraviolet rays.

We can compare UV absorbers to a pair of sunglasses, which block the invasion of harmful light like a filter, allowing the shoe material to be safe and sound.

(III) The mechanism of action of light stabilizer

The light stabilizer is somewhat similar to the ultraviolet absorber, but its effect is more inclined to inhibit the occurrence of photochemical reactions. Photochemical reaction refers to the possibility that the molecules in the shoe material may decompose or recombinate under light conditions, resulting in color changes or performance degradation.

The light stabilizer achieves protection through the following ways:

  1. Capture excited state molecules: When the shoe material molecules enter the excited state after being illuminated by light, the light stabilizer will quickly capture these molecules to prevent them from participating in further reactions.
  2. Quen free radicals: Similar to antioxidants, light stabilizers can also capture free radicals produced by photochemical reactions, thereby breaking the reaction chain.

It can be said that light stabilizer is like a “calorie”, which can keep the shoe material calm when facing strong light and will not easily “out of control”.

(IV) Mechanism of action of gas phase stabilizers

Afterwards, let’s take a look at the gas phase stabilizer. This anti-yellowing agent is mainly used to fight harmful gases in the air, such as hydrogen sulfide, nitrogen oxides, etc. Once these gases come into contact with the shoe material, they may trigger a series of chemical reactions, leading to yellowing or other aging phenomena.

Gas phase stabilizers are protected by the following methods:

  1. Neutralize harmful gases: Gas phase stabilizers can react with harmful gases in the air to produce stable compounds, thereby eliminating their threats.
  2. Form a protective film: Some gas-phase stabilizers can also form a thin protective film on the surface of the shoe material to prevent harmful gases from directly contacting the shoe material.

Filmly speaking, the gas phase stabilizer is like an air purifier that purifies the surroundings of the shoeThe environment keeps the shoe material in a safe atmosphere at all times.

IV. Product parameters of shoe material anti-yellowing agent

Different shoe material anti-yellowing agents have their own unique performance parameters. The following are the specific data of several common anti-yellowing agents:

Type Chemical Name Add ratio (wt%) Thermal Stability (?) Compatibility Main Advantages
Antioxidants Tert-butyl hydroquinone 0.1~0.5 >200 Good compatibility with a variety of polymers Efficiently capture free radicals, cost-effective
Ultraviolet absorber 2-(2′-hydroxy-5′-methylphenyl)benzotriazole 0.2~0.8 >250 Extremely friendly to white and light-colored shoes Strong UV absorption capacity, strong durability
Light Stabilizer Trumped amine light stabilizers 0.3~1.0 >220 High-performance shoe materials suitable for outdoor use Can significantly improve the weather resistance and aging resistance of shoes
Gas phase stabilizer Carboxylate Compounds 0.5~1.5 >180 Excellent performance in industrial environment Effectively neutralize harmful gases and protect shoe materials from contamination

From the table above, it can be seen that different types of anti-yellowing agents have their own advantages, and users can choose the appropriate variety according to their actual needs.

5. Application areas of anti-yellowing agent for shoe material

(I) Sports Shoe Industry

Sports shoes are one of the important application areas for anti-yellowing agents in shoe materials. Modern consumers have increasingly demanded on the appearance of sports shoes, especially white or light-colored shoes. Any yellowing will seriously affect the market competitiveness of the product. Therefore, many well-known sports brands have added anti-yellowing agents during production to ensure that the shoes remain bright and new after long-term use.

(2) Leather Shoe Industry

Leather shoes also face the problem of yellowing, especially leather shoes, which are easily faded or turned yellow when stored in sunlight or in humid environments. By adding anti-yellowing agents, this problem can be effectively improved and the service life of leather shoes can be extended.

(III) Industrial shoes

Industrial shoes usually need to work in harsh environments, such as high temperatures, high humidity or places with large amounts of chemical pollutants. In this case, gas-phase stabilizers are particularly important. They can help the shoe material resist the corrosion of harmful gases from the outside world and ensure the durability and safety of the shoe.

(IV) Storage Shoes

UV absorbers and antioxidants are very necessary for shoes that have been stored in warehouses for a long time. They prevent shoes from yellowing due to light or oxidation when unused for a long time, thus ensuring product freshness and market value.

6. Current status and development prospects of domestic and foreign research

(I) Current status of foreign research

In recent years, European and American countries have made significant progress in the research and development of anti-yellowing agents for shoe materials. For example, a US company has developed a new composite anti-yellowing agent that combines the advantages of antioxidants, ultraviolet absorbers and light stabilizers to provide comprehensive protection in a variety of environments. In addition, the German research team also proposed an anti-yellowing solution based on nanotechnology, which greatly improved the effect and durability of the anti-yellowing agent.

(II) Current status of domestic research

my country’s research on anti-yellowing agents for shoe materials started late, but developed rapidly. At present, many domestic scientific research institutions and enterprises are actively exploring the preparation process and application technology of new anti-yellowing agents. For example, a university has successfully developed an environmentally friendly antioxidant with better performance than traditional products, lower cost, and broad market prospects.

(III) Development prospects

With the advancement of technology and changes in market demand, the future development direction of anti-yellowing agent of shoe materials mainly includes the following aspects:

  1. Multifunctionalization: Develop a composite anti-yellowing agent that has various functions such as antioxidant, anti-ultraviolet and gas phase stability.
  2. Green and Environmental Protection: Research more environmentally friendly production processes and raw materials to reduce negative impacts on the environment.
  3. Intelligent: Use intelligent material technology to enable anti-yellowing agents to automatically adjust their performance according to environmental changes, providing more accurate protection.

It can be predicted that with the continuous emergence of these new technologies, anti-yellowing agents in the shoe material will play an increasingly important role in the future footwear industry.

7. Conclusion: Let every pair of shoes beRebirth

Although the anti-yellowing agent of shoe material may seem inconspicuous, it is an indispensable part of the footwear industry. It is precisely because of its existence that our shoes can still shine with the baptism of time. Whether it is sports shoes, leather shoes or industrial shoes, they can benefit from it and bring a better user experience to consumers.

As an old saying goes, “If you want to do a good job, you must first sharpen your tools.” For footwear manufacturers, choosing the right anti-yellowing agent for shoe materials is one of the “sharp tools”. Only by mastering this key technology can one be invincible in the fierce market competition. Let us look forward to this magical technology that will continue to promote the vigorous development of the footwear industry and bring more beauty and convenience to human life!

Extended reading:https://www.bdmaee.net/dabco-pt305-reactive-amine-catalyst-pt305-dabco-amine-catalyst/

Extended reading:https://www.cyclohexylamine.net/rigid-foam-catalyst-semi-rigid-foam-catalyst/

Extended reading:https://www.newtopchem.com/archives/44791

Extended reading:<a href="https://www.newtopchem.com/archives/44791

Extended reading:https://www.bdmaee.net/pc-cat-t120-catalyst-nitro/

Extended reading:https://www.bdmaee.net/pc-cat-np80-catalyst-trimethylhydroxyethyl-ethylene-diamine/

Extended reading:https://www.cyclohexylamine.net/pc-amine-ma-190-amine-balance-catalyst/

Extended reading:https://www.bdmaee.net/tris3-dimethylaminopropylamine/

Extended reading:https://www.bdmaee.net/cas-26401-97-8/

Extended reading:https://www.bdmaee.net/butyltin-mercaptide/

Extended reading:https://www.newtopchem.com/archives/44289

1110211031104110511062238
Page 1104 of 2238