1、Innovative approaches in the discovery of terpenoid natural products
Various microbial platforms offer abundant precursors for terpene biosynthesis from diverse sources. Leveraging artificial intelligence for enzyme function prediction and screening can facilitate the identification of terpenoid synthesis components with innovative mechanisms.
2、Improving the Performance of Photoactive Terpene
Resin formulations based on biobased terpenes were investigated to offer a simple, scalable, and environmentally friendly route for rapid photocuring.
3、Wear Resistance of Additively Manufactured Footwear Soles
This study systematically evaluated the wear resistance and mechanical performance of 3D-printed thermoplastic rubber (TPR) and flexible stereolithography (SLA) resin materials for footwear outsoles.
4、Synthesis and Application Progress of Terpene
The synthesis and application of terpene-based epoxy resin, terpenyl-cyclic carbonate, terpene-based polyurethane and other terpene-based polymers are reviewed.
5、Footwear Material Innovations Landscape
This report explores the current landscape of material innovations in the footwear industry, focusing primarily on sustainable alternatives to conventional sole materials.
Professional Insights: The Application of TPE/TPR in Footwear Materials
Discover how TPE and TPR materials bring flexibility, durability, and sustainability to footwear design. Learn about custom formulations, performance benefits, and professional shoe material solutions.
Exploration and Application of Waterborne Terpene Resins in Tianjin
The synthesis and application of terpene-based epoxy resin, terpenyl-cyclic carbonate, terpene-based polyurethane and other terpene-based polymers are reviewed.
Applications of Terpene Resin as a Tackifying Agent
As a high-performance synthetic resin, terpene resin plays a vital role in coatings, adhesives, and sealing materials. Ongoing research and development will further optimize its properties, offering more innovative solutions across industries.
A Novel Approach to the Development of Natural Resin‐Based Biopolymer
Natural resin (NR) is secreted by pine trees, and it is a great monomer source for synthesizing biopolymers. The objective of this study is to produce terpene rosin phenolic resin (TRPR) from NR, turpentine, and phenol by applying a novel polymerization technique.
Advanced application of additive manufacturing in the footwear industry
Nevertheless, the full potential of 3D printing in the footwear industry has not been yet fully discovered. Besides the new trend towards the production of fully 3D-printed shoes, these techniques have been applied to the fabrication of shoe parts and shoe lasts.
With the continuous advancement of technology and rising consumer demands for comfort and environmental sustainability, the footwear industry is undergoing unprecedented transformation. Terpene resin, as a emerging high-performance material, has demonstrated vast potential in footwear applications due to its unique physicochemical properties. This article explores the innovative uses of terpene resin in footwear and its transformative impact on the sector.
1. Basic Characteristics of Terpene Resin
Terpene resin is a high-molecular polymer synthesized through the polymerization of terpene compounds. It exhibits excellent heat resistance, oil resistance, anti-static properties, and robust mechanical performance. These traits make it an ideal choice for footwear manufacturing, particularly in scenarios requiring durability under extreme conditions or prolonged use.
2. Applications of Terpene Resin in Footwear
a. Sole Materials
As a critical component of shoes, soles must balance wear resistance and traction to ensure optimal user experience. Terpene resin’s exceptional abrasion resistance and wet-grip performance has led to its widespread adoption in sports shoes, casual footwear, and other sole materials. For instance, premium sports brands incorporate terpene resin soles to deliver superior cushioning, enhanced durability, and extended lifespan.
b. Upper Materials
The upper, which directly contacts the skin, requires breathability, comfort, and aesthetic appeal. Terpene resin’s breathability and flexibility make it suitable for athletic and casual shoe uppers. Additionally, its tear-resistant properties significantly improve the durability of footwear surfaces.
c. Insole Materials
Insoles play a key role in protecting feet from impact. Terpene resin insoles offer outstanding resilience, providing effective cushioning to reduce pressure on feet. Furthermore, terpene resin’s antimicrobial and deodorizing properties help maintain a dry and hygienic shoe environment.
3. Advantages of Terpene Resin in Footwear
a. Environmental Benefits
Derived from renewable resources, terpene resin generates minimal waste during production, aligning with sustainable development goals. Compared to traditional petroleum-based materials, it represents a greener, more eco-friendly alternative.
b. Performance Superiority
Terpene resin boasts multiple advantages, including high-temperature resistance, oil resistance, and anti-static properties, meeting diverse footwear requirements. Its easy processability and low-cost molding further enhance its appeal to manufacturers.
c. Broad Application Range
Beyond conventional uses in athletic and casual shoes, terpene resin can be integrated into outdoor boots, running shoes, slippers, and more. It also enables innovation in auxiliary products like shoe boxes and racks, expanding creative possibilities for the footwear industry.
The integration of terpene resin in footwear has not only elevated product performance and quality but also advanced environmental sustainability in the industry. As technological innovation progresses, terpene resin’s applications will likely expand, offering consumers healthier, more comfortable, and eco-friendlier footwear experiences. Looking ahead, terpene resin is poised to drive future growth and revitalize the footwear sector with its versatile capabilities.
