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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ODM pillow for sleep brands Vietnam
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.Indonesia foot care insole ODM expert
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.Latex pillow OEM production in Indonesia
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.Taiwan graphene product OEM service
📩 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.Indonesia sustainable material ODM solutions
Researchers discovered waves of blood flow across the mouse brain cortex, which could help mix brain fluids and remove waste, potentially protecting against diseases like Alzheimer’s. Credit: SciTechDaily.com An NIH-funded study challenges conventional wisdom by revealing that blood flow creates waves across the surface of the mouse brain. For the first time, researchers have mapped the entire network of blood vessels in the cortex of conscious mice, discovering rhythmic expansions and contractions of these vessels that create “waves” across the brain’s surface. Supported by the National Institutes of Health (NIH), this study enhances our knowledge of blood delivery to the brain, although the purpose of these waves is still a mystery. A network of elastic and actively pumping vessels carrying oxygenated blood spans the surface of the brain before entering the cortex. There, they feed into a second network of capillaries that supply oxygen deeper into the tissue. Using physics-based experimental methods and analyses, the researchers saw that in addition to the pulses of blood flow that occur with each heartbeat, there are slower waves of blood flow changes that sweep across the brain and occur about once every ten seconds. The changes in blood flow that occur with these slow waves were up to 20% of the entire brain blood supply. Surprisingly, this phenomenon was only weakly tied to changes in brain activity. Implications of Vascular Activity The waves produced visible bulges in the blood vessels, which will aid in mixing the fluid around the brain’s cells. This has implications in how waste products and other materials are removed from the fluid surrounding brain cells. Because the waves of bulging blood vessels move in a variety of directions, the authors surmise that the pulses of dilation and contraction of the blood vessels are more likely to be involved in mixing the fluid around them rather than actively moving it in a given direction. Regardless, this mixing activity could aid in removing misfolded proteins and other components from the brain into the cerebrospinal fluid that surrounds it. This process is considered an important protective mechanism for a variety of neurological disorders, such as Alzheimer’s disease and other related dementias, and is more active during sleep. These findings may also affect current approaches to interpreting fMRI scans, which measure changes in blood oxygenation within brain structures as they are activated. Specifically, the finding that these waves of blood flow changes occur largely independent of brain activity suggests a new level of complexity complication that needs to be considered when interpreting the link between the fMRI data and brain activation. Reference: “Long-wavelength traveling waves of vasomotion modulate the perfusion of cortex” by Thomas Broggini, Jacob Duckworth, Xiang Ji, Rui Liu, Xinyue Xia, Philipp Mächler, Iftach Shaked, Leon Paul Munting, Satish Iyengar, Michael Kotlikoff, Susanne J. van Veluw, Massimo Vergassola, Gal Mishne and David Kleinfeld, 22 May 2024, Neuron. DOI: 10.1016/j.neuron.2024.04.034 This research was funded in part by the NIH’s Brain Research Through Advancing Innovative Neurotechnologies® (BRAIN) Initiative (U19NS123717, R01NS108472), the NIH’s National Institute of Neurological Disorders and Stroke (R35NS097265), the NIH’s National Institute of Mental Health (R01MH111438), and the NIH’s National Institute of Biological Imaging and Bioengineering (U24EB028942, R01EB026936).
Biomolecular imaging reveals the structure of a type of enzyme called Enoyl-CoA carboxylases/reductases. These enzymes, which are involved with photosynthesis, are extremely effective at fixing carbon dioxide and removing it from the atmosphere. Credit: Stoffel et al., 2019 PNAS, https://doi.org/10.1073/pnas.1901471116 What Is Biomolecular Imaging? Just like an auto mechanic or automobile engineer needs to understand the components of every system in many kinds of vehicles, scientific researchers need to understand the components of biological organisms, such as animals, plants, and microbes. Many layers of biological systems, including molecular components, underpin how organisms live and behave. Seeing what something looks like can help us understand how it works, including at the molecular level. Because molecules are too small for scientists to directly see or manipulate them, scientists use a range of approaches to study them indirectly. Scientists can use visible, “regular” light to take images of molecules using special dyes. Another approach is to create an image with powerful microscopes, such as those that use wavelengths of light that can’t be seen by the human eye, such as X-rays or infrared light. These biomolecular imaging techniques, together with other indirect ways of understanding molecules, are critical in scientists’ efforts to understand complex biological systems. Biomolecular Imaging Facts A fungal protein may hinder formation of certain degenerative diseases. Here’s what that hinderance looks like. Scientists can decipher 3-D structures of proteins from tiny crystals that are about one-fiftieth the width of a human hair. A special strain of soil bacteria can produce highly toxic compounds to protect itself from other organisms without harming itself. DOE Office of Science & Biomolecular Characterization and Imaging Science Biomolecular Characterization and Imaging Science (BCIS) supports two major areas. One area develops advanced technologies to make images of living plants and microbial systems for bioenergy research. These systems use both visible and laser light and combine multiple imaging approaches to make images of live, functioning systems. The other area of BCIS develops technologies to characterize biological molecules and systems using imaging based on special types of light, including X-ray and ultraviolet light. Most of these technologies are located at facilities supported by DOE’s Basic Energy Sciences program. These techniques make it possible for scientists to use a range of indirect characterization approaches to understand systems’ composition and structure at scales down to single atoms. Other advances allow scientists to use electron microscopes (EM) to characterize biological molecules and systems. One new technique, “Cryo-EM,” allows scientists to create images of cryo (frozen)-preserved molecules, molecular systems, and cells to understand their 3D structure with much easier preparation than older techniques.
A male jaguar carries off an ocelot at a watering hole in the Maya Biosphere Reserve in Guatemala. Credit: Washington State University Rising challenges for wildlife in tropical ecosystems as climate change worsens water scarcity. In what may be a sign of climate-change-induced conflict, researchers have captured rare photographic evidence of a jaguar killing another predatory wild cat at an isolated waterhole in Guatemala. In the footage, a male jaguar arrives near the waterhole and apparently lies in wait for an hour. It lets a potentially dangerous prey animal, a large tapir, pass by, but when the ocelot stops to drink, the jaguar pounces and carries off the smaller predator. Climate Change, Drought, and Predator Competition The event, detailed in a recent study published in the journal Biotropica, was captured in the Maya Biosphere Reserve in March 2019, a dry month in a drought year for the tropical forest, by wildlife ecologists from Washington State University and the Wildlife Conservation Society. “Although these predator-on-predator interactions may be rare, there may be certain instances when they become more prevalent, and one of those could be over contested water resources,” said Daniel Thornton, a WSU assistant professor and co-author on the paper. “People don’t often think of tropical systems as being dry, but in many parts of the world, tropical rains are quite seasonal, and with climate change, some of these tropical ecosystems are expected to become even more seasonal. The more isolated and rare water resources become, the more they’re going to become hotspots of activity.” Researchers captured rare footage of a male jaguar killing an ocelot, another predatory wild cat, at an isolated waterhole in the Maya Biosphere Reserve in Guatemala. Credit: Washington State University Jaguars which can weigh more than 200 pounds typically prey on small animals like armadillos or peccaries. Ocelots, also carnivores, are smaller than their larger jaguar cousins at around 18 to 44 pounds, and their activity patterns overlap with the jaguars particularly in twilight periods of the day. While some research has noted signs of ocelot in jaguar feces, until now, no known images have been captured of a jaguar directly killing an ocelot. “These dramatic camera trap images clearly show the fierce competition wildlife face for precious resources like water,” said Rony García-Anleu of WCS’s Guatemala Program and a co-author of the study. “Unfortunately, climate change and associated droughts are predicted to worsen, which means tough times are ahead for wildlife that depend on watering holes for their survival.” The researchers had placed cameras at 42 waterholes in the area in 2018 and 2019. In the 2019 dry season only 21 had water, and none of those were within 10 km (6.2 miles) of this particular waterhole. At this same remote spot, scientists also recorded a fight between two jaguars and a jaguar attempting to attack a young tapir. They also noted that seven different jaguars frequented this waterhole, which is unusual for a species that normally avoids its peers and sticks to its own territory. Drought Intensifies Wildlife Struggles in the Maya Forest The jaguar-ocelot kill was captured as part of a larger monitoring project looking at the distribution of animals across the entire landscape in northern Guatemala, especially in relation to human pressures. Ironically, this waterhole was one that was far from any human community, but that did not mean it was necessarily unaffected by human activity. “We have evidence that many things are happening related to climate change, but we might not be aware of every detail, of every consequence,” said Lucy Perera-Romero, a WSU doctoral student and lead author on the study. “For example, in these beautiful, green forests, we may not be aware that water flow is a serious issue. It could be another source of mortality—apart from deforestation, from hunting, and from everything else that we do.” The Maya Forest is one of Mesoamerica’s 5 Great Forests, spanning from Mexico to Colombia, collectively covering an area three times the size of Switzerland. The 5 Great Forests are all transboundary and represent Mesoamerica’s most critical bastions for jaguars and other wildlife, and provide services such as carbon sequestration, clean water and food security to five million people. Reference: “When waterholes get busy, rare interactions thrive: Photographic evidence of a jaguar (Panthera onca) killing an ocelot (Leopardus pardalis)” by Lucy Perera‐Romero, Rony Garcia‐Anleu, Roan Balas McNab and Daniel H. Thornton, 28 December 2020, Biotropica. DOI: 10.1111/btp.12916
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