Introduction – Company Background
GuangXin Industrial Co., Ltd. is a specialized manufacturer dedicated to the development and production of high-quality insoles.
With a strong foundation in material science and footwear ergonomics, we serve as a trusted partner for global brands seeking reliable insole solutions that combine comfort, functionality, and design.
With years of experience in insole production and OEM/ODM services, GuangXin has successfully supported a wide range of clients across various industries—including sportswear, health & wellness, orthopedic care, and daily footwear.
From initial prototyping to mass production, we provide comprehensive support tailored to each client’s market and application needs.
At GuangXin, we are committed to quality, innovation, and sustainable development. Every insole we produce reflects our dedication to precision craftsmanship, forward-thinking design, and ESG-driven practices.
By integrating eco-friendly materials, clean production processes, and responsible sourcing, we help our partners meet both market demand and environmental goals.
Core Strengths in Insole Manufacturing
At GuangXin Industrial, our core strength lies in our deep expertise and versatility in insole and pillow manufacturing. We specialize in working with a wide range of materials, including PU (polyurethane), natural latex, and advanced graphene composites, to develop insoles and pillows that meet diverse performance, comfort, and health-support needs.
Whether it's cushioning, support, breathability, or antibacterial function, we tailor material selection to the exact requirements of each project-whether for foot wellness or ergonomic sleep products.
We provide end-to-end manufacturing capabilities under one roof—covering every stage from material sourcing and foaming, to precision molding, lamination, cutting, sewing, and strict quality control. This full-process control not only ensures product consistency and durability, but also allows for faster lead times and better customization flexibility.
With our flexible production capacity, we accommodate both small batch custom orders and high-volume mass production with equal efficiency. Whether you're a startup launching your first insole or pillow line, or a global brand scaling up to meet market demand, GuangXin is equipped to deliver reliable OEM/ODM solutions that grow with your business.
Customization & OEM/ODM Flexibility
GuangXin offers exceptional flexibility in customization and OEM/ODM services, empowering our partners to create insole products that truly align with their brand identity and target market. We develop insoles tailored to specific foot shapes, end-user needs, and regional market preferences, ensuring optimal fit and functionality.
Our team supports comprehensive branding solutions, including logo printing, custom packaging, and product integration support for marketing campaigns. Whether you're launching a new product line or upgrading an existing one, we help your vision come to life with attention to detail and consistent brand presentation.
With fast prototyping services and efficient lead times, GuangXin helps reduce your time-to-market and respond quickly to evolving trends or seasonal demands. From concept to final production, we offer agile support that keeps you ahead of the competition.
Quality Assurance & Certifications
Quality is at the heart of everything we do. GuangXin implements a rigorous quality control system at every stage of production—ensuring that each insole meets the highest standards of consistency, comfort, and durability.
We provide a variety of in-house and third-party testing options, including antibacterial performance, odor control, durability testing, and eco-safety verification, to meet the specific needs of our clients and markets.
Our products are fully compliant with international safety and environmental standards, such as REACH, RoHS, and other applicable export regulations. This ensures seamless entry into global markets while supporting your ESG and product safety commitments.
ESG-Oriented Sustainable Production
At GuangXin Industrial, we are committed to integrating ESG (Environmental, Social, and Governance) values into every step of our manufacturing process. We actively pursue eco-conscious practices by utilizing eco-friendly materials and adopting low-carbon production methods to reduce environmental impact.
To support circular economy goals, we offer recycled and upcycled material options, including innovative applications such as recycled glass and repurposed LCD panel glass. These materials are processed using advanced techniques to retain performance while reducing waste—contributing to a more sustainable supply chain.
We also work closely with our partners to support their ESG compliance and sustainability reporting needs, providing documentation, traceability, and material data upon request. Whether you're aiming to meet corporate sustainability targets or align with global green regulations, GuangXin is your trusted manufacturing ally in building a better, greener future.
Let’s Build Your Next Insole Success Together
Looking for a reliable insole manufacturing partner that understands customization, quality, and flexibility? GuangXin Industrial Co., Ltd. specializes in high-performance insole production, offering tailored solutions for brands across the globe. Whether you're launching a new insole collection or expanding your existing product line, we provide OEM/ODM services built around your unique design and performance goals.
From small-batch custom orders to full-scale mass production, our flexible insole manufacturing capabilities adapt to your business needs. With expertise in PU, latex, and graphene insole materials, we turn ideas into functional, comfortable, and market-ready insoles that deliver value.
Contact us today to discuss your next insole project. Let GuangXin help you create custom insoles that stand out, perform better, and reflect your brand’s commitment to comfort, quality, and sustainability.
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Are you looking for a trusted and experienced manufacturing partner that can bring your comfort-focused product ideas to life? GuangXin Industrial Co., Ltd. is your ideal OEM/ODM supplier, specializing in insole production, pillow manufacturing, and advanced graphene product design.
With decades of experience in insole OEM/ODM, we provide full-service manufacturing—from PU and latex to cutting-edge graphene-infused insoles—customized to meet your performance, support, and breathability requirements. Our production process is vertically integrated, covering everything from material sourcing and foaming to molding, cutting, and strict quality control.Graphene cushion OEM factory in Taiwan
Beyond insoles, GuangXin also offers pillow OEM/ODM services with a focus on ergonomic comfort and functional innovation. Whether you need memory foam, latex, or smart material integration for neck and sleep support, we deliver tailor-made solutions that reflect your brand’s values.
We are especially proud to lead the way in ESG-driven insole development. Through the use of recycled materials—such as repurposed LCD glass—and low-carbon production processes, we help our partners meet sustainability goals without compromising product quality. Our ESG insole solutions are designed not only for comfort but also for compliance with global environmental standards.Ergonomic insole ODM support Taiwan
At GuangXin, we don’t just manufacture products—we create long-term value for your brand. Whether you're developing your first product line or scaling up globally, our flexible production capabilities and collaborative approach will help you go further, faster.Thailand OEM/ODM hybrid insole services
📩 Contact us today to learn how our insole OEM, pillow ODM, and graphene product design services can elevate your product offering—while aligning with the sustainability expectations of modern consumers.Thailand anti-odor insole OEM service
The fossilized skeleton of the newly discovered snake species Hibernophis breithaupti, which lived 38 million years ago in what is now western Wyoming, reveals insights into the evolution and social behavior of its modern descendants. Credit: Jasmine Croghan Ancient snakes have been unearthed, shedding light on the continent’s slithering past. A newly discovered fossil snake species in Wyoming is transforming our understanding of snake evolution. Unearthed from a burrow where four well-preserved specimens were found intertwined, this species, named Hibernophis breithaupti, lived in North America 34 million years ago. This discovery provides valuable insights into the origins and diversification of boas and pythons. Hibernophis breithaupti has unique anatomical features, in part because the specimens are articulated—meaning they were found all in one piece with the bones still arranged in the proper order—which is unusual for fossil snakes. Researchers believe it may be an early member of Booidea, a group that includes modern boas and pythons. Modern boas are widespread in the Americas, but their early evolution is not well understood. These new and very complete fossils add important new information, in particular, on the evolution of small, burrowing boas known as rubber boas. Behavioral Insights and Historical Significance Traditionally, there has been much debate on the evolution of small burrowing boas. Hibernophis breithaupti shows that northern and more central parts of North America might have been a key hub for their development. The discovery of these snakes curled together also hints at the oldest potential evidence for a behavior familiar to us today—hibernation in groups. “Modern garter snakes are famous for gathering by the thousands to hibernate together in dens and burrows,” says Michael Caldwell, a U of A paleontologist who co-led the research along with his former graduate student Jasmine Croghan, and collaborators from Australia and Brazil. “They do this to conserve heat through the effect created by the ball of hibernating animals. It’s fascinating to see possible evidence of such social behavior or hibernation dating back 34 million years.” Reference: “Morphology and systematics of a new fossil snake from the early Rupelian (Oligocene) White River Formation, Wyoming” by Jasmine A Croghan, Alessandro Palci, Silvio Onary, Michael S Y Lee and Michael W Caldwell, 19 June 2024, Zoological Journal of the Linnean Society. DOI: 10.1093/zoolinnean/zlae073
A new theory suggests the utility of a memory for future situations dictates its location in the brain, either in the hippocampus or the neocortex. This challenges the classical view by emphasizing that memories consolidate to the neocortex based on their generalizability, not age. A New Theory on Memory Storage in the Brain According to a new theory presented by researchers at HHMI’s Janelia Research Campus and their colleagues at University College London, how useful a memory is for future situations determines where it resides in the brain. The theory offers a new way of understanding systems consolidation, a process that transfers certain memories from the hippocampus – where they are initially stored – to the neocortex — where they reside long term. Under the classical view of systems consolidation, all memories move from the hippocampus to the neocortex over time. But this view doesn’t always hold up; research shows some memories permanently reside in the hippocampus and are never transferred to the neocortex. In recent years, psychologists proposed theories to explain this more complicated view of systems consolidation, but no one has yet figured out mathematically what determines whether a memory stays in the hippocampus or whether it is consolidated in the neocortex. A Mathematical Approach to Understanding Memory Consolidation Now, Janelia researchers are putting forward a new, quantitative view of systems consolidation to help resolve this longstanding problem, proposing a mathematical neural network theory in which memories consolidate to the neocortex only if they improve generalization. Generalizations are constructed from the reliable and predictable components of memories, enabling us to apply them to other situations. We can generalize certain features of memories to help us understand the world, like the fact that canyons predict the presence of water. This is different from episodic memories — detailed recollections of the past that have unique features like an individual memory we have of hiking to a particular canyon and coming upon a body of water. Under this view, consolidation doesn’t copy memories from one area of the brain to another but rather creates a new memory that is a generalization of previous memories. The amount that a memory can be generalized – not its age — determines whether it is consolidated or remains in the hippocampus. The researchers used neural networks to show how the amount of consolidation varies based on how much of a memory is generalizable. They were able to reproduce previous experimental patterns that couldn’t be explained by the classical view of systems consolidation. The next step is to test the theory with experiments to see if it can predict how much a memory will be consolidated. Another important direction will be to test the authors’ models of how the brain might distinguish between predictable and unpredictable components of memories to regulate consolidation. Uncovering how memory works can help researchers better understand an integral part of cognition, potentially benefitting human health and artificial intelligence. Reference: “Organizing memories for generalization in complementary learning systems” by Weinan Sun, Madhu Advani, Nelson Spruston, Andrew Saxe and James E. Fitzgerald, 20 July 2023, Nature Neuroscience. DOI: 10.1038/s41593-023-01382-9
Mosses, often overlooked and misunderstood, play a vital role in the health of the global environment, according to a study by UNSW Sydney. The research, conducted across diverse ecosystems worldwide, revealed mosses’ importance in ecosystem health, carbon capture, soil nutrient cycling, organic matter decomposition, pathogen control, and preventing erosion. A study finds moss essential for ecosystems, enhancing soil health, storing carbon, and preventing erosion. Covering vast areas, moss aids in plant growth and helps ecosystems recover after disturbances. While many individuals view the growth of moss in their gardens as a nuisance, they may not know that this ancient ancestor of all vegetation carries numerous advantages for our green spaces, including its significant role in combating soil erosion. Now, a comprehensive global study led by UNSW Sydney discovered that mosses are not merely advantageous to our gardens, but they also critically contribute to the overall health of our planet, especially when growing on the topsoil. Mosses establish the groundwork for plant growth in ecosystems worldwide, and could potentially play a pivotal role in climate change mitigation through their substantial carbon capture capabilities. In a study published today in the journal Nature Geoscience, lead author Dr. David Eldridge and more than 50 colleagues from international research institutions described how they collected samples of mosses growing on soil from more than 123 ecosystems across the globe, ranging from lush, tropical rainforest, to barren polar landscapes, through to arid deserts like those found in Australia. The researchers found that mosses cover a staggering 9.4 million km² (3.6 million mi²) in the environments surveyed, which compares in size to Canada or China. “We were originally really interested in how natural systems of native vegetation that haven’t been disturbed much differ from human-made systems like parks and gardens – our green spaces,” says Dr Eldridge, who is with UNSW’s School of Biological, Earth & Environmental Sciences. “So for this study, we wanted to look at a bit more detail about mosses and what they actually do, in terms of providing essential services to the environment. We looked at what was happening in soils dominated by mosses and what was happening in soils where there were no mosses. And we were gobsmacked to find that mosses were doing all these amazing things.” It turns out that mosses are the lifeblood of plant ecosystems, that plants actually benefit from having moss as a neighbor. The researchers assessed 24 ways that moss provided benefits to soil and other plants. In patches of soil where mosses were present, there was more nutrient cycling, decomposition of organic matter, and even control of pathogens harmful to other plants and people. A Key Player in Carbon Capture On top of that, the authors say mosses may be instrumental in reabsorbing carbon dioxide. They estimated that compared to bare soils where there was no moss, this ancient precursor to plants is supporting the storage of 6.43 gigatonnes – or 6.43 billion tonnes – of carbon from the atmosphere. These levels of carbon capture are of a similar magnitude to levels of carbon release from agricultural practices such as land clearing and overgrazing. “So you’ve got all the global emissions from land use change, such as grazing, clearing vegetation, and activities associated with agriculture – we think mosses are sucking up six times more carbon dioxide, so it’s not one to one, it’s six times better,” Dr Eldridge says. The researchers say that the positive ecological functions of soil mosses are also likely associated with their influence on surface microclimates, such as by affecting soil temperature and moisture. What Exactly Is Moss? Mosses are different from vascular plants. They have roots and leaves, but their roots are different, with root-like growths called rhizoids that anchor them to the soil surface. “Mosses don’t have the plumbing that an ordinary plant has, called a xylem and a phloem, which water moves through,” Dr Eldridge says. “But moss survives by picking up water from the atmosphere. And some mosses, like the ones in the dry parts of Australia, curl when they get dry, but they don’t die – they live in suspended animation forever. We’ve taken mosses out of a packet after 100 years, squirted them with water, and watched them come to life. Their cells don’t disintegrate like ordinary plants do.” Without moss, our ecosystems would be in big trouble, says Dr Eldridge. He is amazed that people often see moss as a problem in urban settings when it’s actually playing an important role in nature. “People think if moss is growing on soil it means the soil is sterile or has something wrong with it. But it’s actually doing great things, you know, in terms of the chemistry of the soil, like adding more carbon and nitrogen, as well as being primary stabilizers when you get lots of disturbance.” He says when you lose moss through land clearing or natural disturbances, you lose the ability to hold the soil together, leading to erosion. “And it means you’re going to lose nutrients, you’re going to lose habitat for microbes, the whole system becomes destabilized.” Moss Leading the Way in Ecosystem Recovery Moss can even come to the rescue in disturbed ecosystems. Dr. Eldridge points to research examining the area around Mount St Helens Volcano following a devastating eruption in the early 1980s. Most of the flora and fauna were denuded near the eruption site, but researchers who tracked how life returned to the mountain noticed that mosses were among the first forms of life to reappear. “The first things to come back were cyanobacteria, blue-green algae, because they’re very primitive, and then mosses came back,” he says. “What we show in our research is that where you have mosses you have a greater level of soil health, such as more carbon and more nitrogen. So they’re helping to prime the soil for the return of trees, shrubs, and grasses, that eventually end up getting out-competed in the process. So they’re the first guys that get in there and fix things up and then first to leave.” Up Next Future research aims to examine whether urban mosses can create healthy soils as effectively as those growing in natural areas. “We are also keen to develop strategies to reintroduce mosses into degraded soils to speed up the regeneration process,” Dr Eldridge says. “Mosses may well provide the perfect vehicle to kick start the recovery of severely degraded urban and natural area soils.” Reference: “The global contribution of soil mosses to ecosystem services” by David J. Eldridge, Emilio Guirado, Peter B. Reich, Raúl Ochoa-Hueso, Miguel Berdugo, Tadeo Sáez-Sandino, José L. Blanco-Pastor, Leho Tedersoo, César Plaza, Jingyi Ding, Wei Sun, Steven Mamet, Haiying Cui, Ji-Zheng He, Hang-Wei Hu, Blessing Sokoya, Sebastian Abades, Fernando Alfaro, Adebola R. Bamigboye, Felipe Bastida, Asunción de los Ríos, Jorge Durán, Juan J. Gaitan, Carlos A. Guerra, Tine Grebenc, Javier G. Illán, Yu-Rong Liu, Thulani P. Makhalanyane, Max Mallen-Cooper, Marco A. Molina-Montenegro, José L. Moreno, Tina U. Nahberger, Gabriel F. Peñaloza-Bojacá, Sergio Picó, Ana Rey, Alexandra Rodríguez, Christina Siebe, Alberto L. Teixido, Cristian Torres-Díaz, Pankaj Trivedi, Juntao Wang, Ling Wang, Jianyong Wang, Tianxue Yang, Eli Zaady, Xiaobing Zhou, Xin-Quan Zhou, Guiyao Zhou, Shengen Liu and Manuel Delgado-Baquerizo, 1 May 2023, Nature Geoscience. DOI: 10.1038/s41561-023-01170-x The study was funded by the British Ecological Society, the Hermon Slade Foundation, the Spanish Ministry of Science, the European Research Council, the AEI Project, the Program for Introducing Talents to Universities, the Slovenian Research Agency, and the NSF Biological Integration Institutes.
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