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  • Article highlighting the differences between epoxy resin and UV resin
    Jan 01, 1970

    Epoxy Resin vs. UV Resin: Understanding the Key Differences When it comes to crafting, woodworking, or creating beautiful pieces of art, choosing the right resin is crucial. Epoxy resin and UV resin are two popular options, each with its unique characteristics. Let’s delve into the details and explore the differences between these two resins. 1. Mixing and Curing Process Epoxy Resin: Epoxy resin is a two-part mixture consisting of resin and hardener. When you mix these two components, a chemical reaction occurs, resulting in a solid, glossy, and transparent surface. Proper mixing is essential for achieving the desired results. UV Resin: Unlike epoxy resin, UV resin is a one-part resin that is instantly ready to use. There’s no need for measuring or mixing. However, UV resin requires exposure to a UV lamp or torch to harden. Keep in mind that this application method limits its use for larger surfaces. 2. Curing Time Epoxy Resin: Epoxy resin takes several hours or even days to cure fully. The slow curing process allows for more intricate work and adjustments during the setting period. UV Resin: Thanks to its UV activation, UV resin cures within minutes. If you’re working on urgent projects or need quick results, UV resin is an excellent choice. 3. Durability Epoxy Resin: Epoxy resin tends to be more durable and robust. It can withstand heat, chemicals, and wear over time. This makes it suitable for functional items like tabletops, jewelry, and kitchenware. UV Resin: While UV resin hardens faster, it is generally less durable than epoxy. It’s ideal for decorative pieces, jewelry, and small crafts. However, avoid using it for heavy-duty applications. 4. Application Epoxy Resin: Epoxy is versatile and works well for various projects. Its longer curing time allows for intricate designs and layering. UV Resin: Use UV resin for smaller, detailed pieces. Its quick curing time makes it perfect for jewelry, miniatures, and resin art. However, it’s less suitable for large surfaces. 5. Cost Epoxy Resin: Epoxy resin tends to be more expensive due to its durability and versatility. UV Resin: UV resin is often more affordable, making it a budget-friendly option for hobbyists and beginners. How to avoid bubbles in your UV resin or epoxy resin? First of all, avoid shaking your bottle. If you are mixing colors, place your resin in the light-tight cases about 30 minutes before pouring it into your mold. These cases allow you to keep your UV resin and Epoxy resin colored for several weeks. During a live on our social networks where she was invited, the creator  advised you to place your bottle and your mold on an electric heating mat specially made to condition the resin. Another surface with a very soft heat can be used. For example, a hot water bottle. The bubbles rise and explode with the heat. You can also pass the flame of a gas-lighter over the surface very quickly. Conclusion In su...

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  • What is UV Resin
    Oct 25, 2021

    UV Resin is a transparent gel that cures in ultraviolet (UV) light or direct sunlight. Unlike other resins, such as e.g. Epoxy resin, you have full control over when and how fast it gets hard. You can take the time to make, glaze, seal and protect your creations And how to use UV resin ? The bottles have a handy spray nozzle, with which you can apply the resin accurately. You can of course also put the resin in a mixing bowl if you want to mix it with one of our pigments or glitter. As soon as you shine on it with a UV lamp it gets rock hard within a few minutes. For best results, use a UV nail lamp or a strong UV torch. The resin hardens quickly and without sticky remains on the surface. How fast it gets hard depends on the strength of your UV lamp, but also on whether or not you have added color to the resin. UV lamp: 1-2 minutes, the stronger the UV Light, the shorter the time

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  • Deep casting resin
    May 28, 2021

    Production requirements of the river table: 1, Prepare the wood to be customized into a wooden table shape, and put demold paper inside (similar to sunscreen window paper) 2, Treat the wood to be done without moisture, remove the small impurities in the wood, and sand it with an air mill. 3, Put the wood into the mold. 4, Prepare the glue, 318AB-9T-2 is 2:1, one time pour thickness is 3-5cm, after AB glue mixed, put it into the vacuum machine to suck bubbles. Normally customers make around 15kg one time, but depend on the mold used. 5, Pour the vacuumed glue into the mold. After the glue surface is dry, pour the second glue until the entire mold is filled. 6, After the entire mold is filled with glue, remove the outer mold, smooth the surroundings with a sander, then sand it with an air mill, spray gold oil (if necessary), and polish it again.   Remark: 1, After the AB glue bucket is opened, it should be covered well. It cannot contact air, especially B glue, which is easy to absorb moisture. 2, The more epoxy glue deployed, the greater the heat and the more bubbles 3, The river table needs to be made in a dust-free workshop. In summer, there should be air conditioning, temperature should be controlled at about 18-22 degrees and the humidity should be controlled at about 70%. 4, One cubic meter uses about 1.103 tons of glue =1103kg

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  • What is Epoxy?
    May 28, 2021

    What is Epoxy? Epoxy is an organic compound made up of chains of carbon linked to other elements such as hydrogen, oxygen, or nitrogen. This link occurs via a covalent bond, in which the elements share a pair of electrons to stay together. The term epoxy is broad. It can be used to describe the epoxide functional group, which is made up of a chain of carbon and oxygen atoms. Since functional groups determine the main characteristics of a molecule during a chemical reaction, this means molecules that contain the epoxide functional group can react chemically to create a rigid, yet highly flexible material. The term epoxy can also be used to refer to the epoxy resins that appear after curing. Curing is a chemical process in which a material hardens after exposure to air, heat, or chemical additives. In epoxy, curing occurs with the help of a catalyst, which is chemical additive that increases the rate of a chemical reaction. This results in an exothermic reaction that creates a cross-linkage in the polymer. This cross-linkage is responsible for the rigidity and strength of epoxy materials.

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  • WHAT IS EPOXY RESIN USED FOR?
    May 28, 2021

    Epoxy resin is known for its strong adhesive qualities, making it a versatile product in many industries. It offers resistance to heat and chemical applications, making it an ideal product for anyone needing a strong hold under pressure. Epoxy resin is also a durable product which can be used with various materials, including: wood, fabric, glass, china or metal. It’s important to note, however; epoxy resin is not considered to be water resistant. Repeated moist or wet conditions can cause deterioration over time which will affect durability. Using Epoxy Resin as Adhesives One of the most common uses of epoxy resin is for adhesive purposes. That’s because the strong-properties of the epoxy allow for structural and engineering adhesives. Commonly, epoxy resin is used in the construction of vehicles, snowboards, aircrafts and bicycles. But epoxy adhesives aren’t limited to only structural applications. In fact, they can be used in virtually any application. Generally speaking, epoxy is used due to its diverse options in setting. It can become flexible or rigid, varying in the opaque and transparent options. Using Epoxy Resin for Electronics and Electrical Systems Placing an important part in the electronics industry, epoxy resin is used in the production of insulators, motors, transformers and generators. As epoxy resins are fantastic insulators and offers protection from dust, moisture and short circuits it remains one of the primary resins used in circuit creation too. Using Epoxy Resin for Painting Known as powder coatings, epoxy paint is found on many household goods like dryers, washers, stoves and similar white goods. Typically, this type of paint is used in more commercial settings. With a water clean-up and tough, protective coating, epoxy paint is an excellent option for appliances. Likewise, cast iron, cast aluminium and cast steel are also other metals which work well with this painting application. Using Epoxy Resin for Coatings and Sealant Epoxy is also known for its corrosion prevention properties, making it an ideal solution to many household objects which may normally rust with time. Items including paint cans, metal containers, and foods which are typically acidic are normally coated before use. Another use for epoxy resin is the decorative flooring applications. Chip flooring, terrazzo flooring and other aggregate flooring options are coated with an epoxy resin. Epoxy flooring is an environmentally friendly option to traditional flooring options as it reduces the need for pesticides and water consumption. Using Epoxy Resin for Repairs Because of the strong adhesive properties, many consumers use epoxy resin for the repair and maintenance of their household objects. Fragile items like glass, ceramic and china can be fixed quickly with an epoxy resin, helping secure broken or snapped items to the original piece. Likewise, epoxy resin can also be used on many other materials in a similar fashion. Wood, metal, latex or other similar s...

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  • Clear Resin Manufacturer | OEM/ODM Service
    May 28, 2021

    **Clear Resin Manufacturer | OEM/ODM Service: Crafting Perfection for Your Vision** At our state-of-the-art clear resin manufacturing facility, we don't just produce resins; we bring your vision to life with precision and innovation. Our commitment to excellence has made us a leading provider of OEM (Original Equipment Manufacturer) and ODM (Original Design Manufacturer) services for a diverse range of industries. **Why Choose Us for Your Clear Resin Needs** 1. **Customization at Its Finest**: Our OEM/ODM services are tailored to meet the unique specifications and requirements of our clients. Whether you need a specific viscosity, clarity, or additives for your resin, we have the expertise to deliver exactly what you need. 2. **Quality You Can Trust**: We pride ourselves on maintaining the highest standards of quality control. Every batch of resin is rigorously tested to ensure it meets the industry benchmarks for purity, durability, and performance. 3. **Innovation Driven**: Our team of experienced chemists and engineers is continuously working on developing new formulations to improve the properties of clear resin, such as UV resistance, heat tolerance, and flexibility. 4. **Sustainability Commitment**: We are dedicated to creating eco-friendly resins that align with the environmental standards of today's market. Our manufacturing processes are designed to minimize waste and maximize efficiency. 5. **Flexibility and Scalability**: Whether you're a startup looking for a small batch of custom resin or an established company requiring bulk production, our facilities are equipped to handle it all. **Our Process: A Seamless Integration of Art and Science** - **Consultation**: We start with a thorough discussion to understand your project's needs and goals. - **Prototyping**: Our team creates a prototype based on your specifications, allowing for adjustments until it meets your satisfaction. - **Production**: Once the prototype is approved, we move to production, where we maintain strict quality control measures. - **Packaging and Delivery**: Your resin is packaged according to your branding and distribution needs and delivered to your doorstep. **Industries We Serve** Our clear resin is versatile and serves a variety of applications across different sectors: - **Art and Crafts**: We provide resins for creating sculptures, jewelry, and decorative items. - **Industrial Manufacturing**: Our resins are used in the production of high-strength components and coatings. - **Automotive**: Clear resins for automotive coatings and parts that require a high degree of clarity and durability. - **Electronics**: We specialize in resins used for potting and encapsulation to protect electronic components. **Partner with a Clear Resin Manufacturer That Values Partnership and Growth** We believe that a strong partnership with our clients is the key to mutual success. Our goal is to become an extension of your team, working collaboratively to bring your product ideas t...

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  • How to avoid Sticky/soft Resin?
    May 28, 2021

    How to avoid Sticky/soft Resin? Avoiding sticky or soft resin in your projects is crucial for achieving a professional and durable finish. Here are some tips to help you avoid this common issue: 1. **Accurate Measuring**: It's essential to measure the resin and hardener accurately. The correct ratio is typically 1:1 by volume, not by weight. This means for every part of resin, you should use an equal part of hardener. Using a graduated cylinder or a measuring cup can help ensure accuracy. 2. **Proper Mixing**: Mixing the resin and hardener thoroughly is critical. You should mix slowly to avoid introducing too many air bubbles, which can lead to a sticky finish. Continue mixing until you no longer see any swirls or streaks in the mixture. Make sure to scrape the sides and bottom of your mixing cup to ensure that all the components are well combined. 3. **Curing Temperature**: The curing process should not be done in cold temperatures. Resin needs warmth to cure properly. If it's too cold, the resin may not cure completely, resulting in a soft or sticky finish. Try to cure your resin in a room with a temperature above 60°F (15°C), and avoid direct sunlight or heat sources that could cause the resin to yellow or crack. 4. **Resin Colorant**: When adding colorant to your resin, it's important not to overdo it. Too much colorant can affect the curing process and the hardness of the final product. As a general rule, do not add more than 6% of the total combined volume of resin and hardener. This percentage helps maintain the integrity of the resin's curing process. 5. **Curing Time**: Allow the resin to cure for the recommended time. Insufficient curing can lead to a soft finish. Follow the manufacturer's instructions for the best results. 6. **Proper Ventilation**: Ensure that you are working in a well-ventilated area. Some resins and hardeners can release fumes that are harmful if inhaled in large quantities. 7. **Quality of Materials**: Use high-quality resin and hardener from a reputable supplier. Lower quality materials may not cure properly, leading to a sticky or soft finish. 8. **Test Before Final Application**: Always do a test run on a small scale or a less important piece before applying resin to your final project. This allows you to adjust your process if needed. 9. **Avoid Contamination**: Keep your resin and hardener containers clean and free from any contaminants. Dirt or other foreign substances can affect the curing process. 10. **Storage Conditions**: Store your resin and hardener properly. Exposure to extreme temperatures or direct sunlight can degrade the quality of the materials and affect their performance. By following these guidelines, you can minimize the risk of ending up with sticky or soft resin in your projects. Remember, patience and attention to detail are key when working with resin.

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  • Suggestions on Selection of Polyurethane Potting Compounds in Battery Management System (BMS)
    May 28, 2021

    Avoiding/Overcoming Thermal Runaway Propagation: Thermal runaway is a dangerous condition in which a battery cell's temperature rises uncontrollably, leading to potential failure or even explosion. Polyurethane potting compounds can help by providing thermal insulation and reducing heat transfer between cells, thus helping to prevent the spread of thermal runaway. Thermal Conductivity: The thermal conductivity of a potting compound is a measure of its ability to transfer heat. In BMS, it's important to have a balance between insulation and heat dissipation. A polyurethane compound with suitable thermal conductivity can help manage the heat generated by the electronics and the battery. Thermal Shock Chambers: These are testing environments designed to subject components to rapid temperature changes. A polyurethane potting compound should be able to withstand these conditions without cracking or degrading, ensuring the continued protection of the electronics. Thermal Cycling Chambers: Similar to thermal shock chambers, thermal cycling chambers test the ability of materials to withstand repeated heating and cooling cycles. The potting compound should maintain its integrity and not lead to delamination or other forms of failure. Performance in Extreme Temperatures (High and Low): The potting compound should maintain its protective properties across a wide range of temperatures. This means it should not become too brittle in cold conditions or too soft in high temperatures, which could compromise the protection it offers. When selecting or formulating a polyurethane potting compound for BMS, it's crucial to consider these factors to ensure that the compound provides the necessary protection and performance. Custom formulations can be tailored to meet specific requirements, such as enhancing thermal conductivity or improving resistance to thermal shock and cycling.

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