Special paint for gas pipelines

Natural Gas Pipeline Special Coating I. Product Introduction: Natural gas pipeline special coating is a type of coating specifically used for the anti-corrosion coating of natural gas pipelines. It is designed to provide long-lasting and efficient anti-corrosion protection to ensure the safe operation and extended service life of natural gas pipelines. In the natural gas pipeline industry, the application of special coatings plays a pivotal role, not only resisting external environmental erosion of pipelines but also improving the overall performance of pipelines. II. Product Features: The main components of natural gas pipeline special coatings include resins, pigments, additives, and solvents. Among them, the resin, as the main component of the paint film, has good adhesion and corrosion resistance; pigments give the paint film specific color and hiding power; additves improve the coating's construction performance and storage stability; solvents adjust the viscosity of the coating, making construction more convenient. The characteristics of natural gas pipeline special coatings are mainly reflected in the following aspects: excellent adhesion, strong corrosion resistance, good weather resistance, and water resistance. These characteristics enable natural gas pipeline special coatings to adapt to complex and changeable usage environments, effectively protecting natural gas pipelines from external factors. III. Construction Methods and Precautions: During the construction of anti-corrosion coatings for natural gas pipelines, certain standards and techniques must be followed. First, ensure that the pipeline surface is clean and dry, free of oil stains, rust, and other impurities; second, according to the coating instructions, select the appropriate coating method and coating thickness; finally, pay attention to safety protection during construction to avoid fire and explosion hazards. At the same time, construction personnel must strictly abide by the coating construction process, control the coating interval time, and avoid defects between coating layers. After coating, necessary inspections and acceptance must be carried out to ensure that the coating quality meets the requirements. IV. Product Protection Performance and Application Range: Natural gas pipeline special coatings have demonstrated excellent protection performance in practical applications. Their weather resistance and corrosion resistance are superior to ordinary coatings, effectively resisting erosion from ultraviolet rays, rainwater, and chemical substances. Therefore, natural gas pipeline special coatings are widely used in urban natural gas pipelines, industrial natural gas pipelines, and other scenarios, providing strong protection for the safe operation of natural gas pipelines. In addition, natural gas pipeline special coatings are also suitable for pipelines of different materials, such as steel pipes, cast iron pipes, and plastic pipes, and have strong applicability and versatility.

Toy paint

I. Introduction: This product is formulated from resins, pigments, solvents, and additives. It features excellent scratch and abrasion resistance, fast drying with good adhesion, color and gloss retention, anti-yellowing properties, high gloss, diverse and bright colors, simple application, and wide applicability.II. Advantages: Tufeng brand toy paint features bright colors. The paint film dries quickly, with fast surface and through drying (1 hour). The paint film has high hardness, is flat, bright, and weather-resistant, shortening construction cycles, improving production efficiency, and providing good decorative effect. It's easy to apply, dries rapidly, has low requirements for the coating environment, possesses good hardness and brightness, is less prone to film defects, easy to repair, and does not scorch or bite the substrate.III. Application Scope: Tufeng brand toy paint is suitable for PS, HIPS, ABS substrates, modified plastics, sports equipment, toys, fairy lights, household showers, etc.IV. Technical Parameters:No. Item Parameter1 Baking Conditions 50～70° (bake for 30 minutes) specific to customer requirements2 Spraying Viscosity 9～13s (25℃, Iwata No. 2 cup)3 Spraying Pressure 3～4.5kg/㎡4 Spraying Distance 10～20cm5 Film Thickness 15～25um (wet film gauge)6 Hardness HB～H (ASTM D3363) (Mitsubishi pencil)7 Gloss (BS 3900 D5 60) ＞80%8 Specific Gravity 0.93-1.20 depending on color (ASTM D1475)9 Solid Content 30-50% depending on color10 Adhesion 0～1 grade (100% cross-cut method)11 Coating Viscosity 85±5KU／25°C (depending on different colors) (ASTM D4287)12 Surface Dry Time ≤30min／30℃13 Through Dry Time ≤24H／30℃14 Shelf Life One year／25℃ in a cool, dry place15 Dilution Ratio Paint 1: Thinner 1.5 by weight (specific to customer spraying requirements)Material Compliance: Conforms to heavy metal safety standards such as ASTM F963-08, EN71 Part 3 : 1994, Japan Part 3 : 2002 section 1.5, 16 CFR 1303, CHPA CH-3 Schedule I Part I Item 9, GB 6675-2007, etc., for organic and inorganic pigments.Application Conditions: Surface Treatment: Degreasing, cleaning, drying.

Epoxy asphalt anti-corrosion coating

Epoxy Asphalt Anti-corrosion Coating I. Product Introduction Epoxy asphalt anti-corrosion coating is a composite coating based on epoxy resin and asphalt. Its basic principle is to form a strong and dense protective layer through the synergistic effect of epoxy resin and asphalt in the coating, to resist environmental corrosion factors. This coating is mainly composed of epoxy resin, asphalt, pigments and fillers, additives, and solvents, and has excellent anti-corrosion performance, adhesion, and wear resistance. Product Features: Excellent Anti-corrosion Performance: It has good resistance to various corrosive media such as acids, alkalis, and salts, effectively preventing corrosion of metal surfaces. Good Adhesion: Forms a strong bond with metal surfaces, not easy to peel off. Excellent Wear Resistance: The coating surface is smooth and hard, with good wear resistance. Easy Construction: Can be applied by brushing, spraying, rolling, and other methods, with fast drying speed and short curing time. III. Scope of Application Epoxy asphalt anti-corrosion coating is widely used in petroleum, chemical, bridge, dock, power, and water conservancy fields for anti-corrosion protection of metal pipelines, storage tanks, bridge structures, steel structures, etc. IV. Construction Process and Precautions: Construction Methods: Substrate Preparation: Remove oil stains, moisture, rust, and old coatings from the substrate surface. Coating Preparation: Mix all components evenly according to the formula. Coating Application: Select appropriate coating tools and methods, and apply the coating evenly to the substrate surface. Curing Treatment: Control the temperature and humidity of the application environment to allow the coating to cure within the specified time. Precautions: Control Application Environment: Avoid construction in high humidity, high temperature, or low temperature environments to prevent affecting the curing speed and performance of the coating. Control Coating Thickness: Avoid issues such as cracking and peeling due to excessively thick coatings, and ensure the coating thickness meets anti-corrosion requirements. Pay Attention to Safety Protection: During construction, ensure good ventilation to avoid inhaling paint volatiles; wear protective glasses, gloves, and other protective equipment to prevent direct skin contact with the paint. IV. Storage and Safety Protection: The product should be stored in a cool, well-ventilated place, away from direct sunlight, and isolated from ignition sources and heat. Keep dry and clean during construction, strictly prohibit contact with water, acids, alcohols, alkalis, etc.; after mixing the paint, the curing agent packaging drum must be tightly sealed to prevent gelling. Operators should wear safety masks and gloves to avoid skin or eye contact; if accidental contact occurs, rinse with clean water.

Water-based high-temperature paint coating

水 性 高 温 涂 料 一、产品简介： 水性高温涂料是一种特殊的涂料，其设计目的是在高温环境下仍能保持良好的性能。这些涂料通常用于需要长期承受高温的设备或结构上它采用水作为主要的稀释剂，从而降低了VOC（挥发性有机化合物）的排放，更加环保。主要成分及其作用 主要成分及其作用： 水性树脂：水性树脂是水性高温涂料的主要成膜物质，决定了涂料的粘附力、硬度、耐磨性等基本性能。树脂的种类和性质对涂料的性能有重要影响。 颜料：颜料为涂料提供颜色，同时也可增强涂层的耐候性和遮盖力。颜料的选择应考虑到其在高温下的稳定性。 助剂：助剂在涂料中起到调节流变性、控制干燥速度、增强涂层性能等多种作用。 二、产品特点： 耐高温稳定性能优越：这些涂料能够承受极高的温度，一般可超过800℃，甚至达到1500℃以上不等，具体取决于涂料的种类。 优异的防腐性能：水性高温涂料能够抵抗化学腐蚀和氧化，从而保护被涂物体免受腐蚀破坏。 良好的附着力：这些涂料能够紧密地附着在被涂物体表面，不易脱落或龟裂。 优异的耐磨性能：采用特殊的耐磨添加剂，使水性高温涂料具有优异的耐磨性能，适用于高磨损环境。 耐腐蚀性能：水性高温涂料具有良好的耐腐蚀性，能够抵抗高温下的化学腐蚀和氧化，保护基材不受损害。 环保性能：水性高温涂料以水为溶剂，不含有机溶剂，有利于环境保护更加环保。 施工简便：水性高温涂料在施工过程中可以通过喷涂或滚涂的方式应用，操作简单方便。同时，其干燥和固化速度快，可以大大提高施工效率。 三、技术指标： PH:       5.5±0.5 粘度   12±2S 施工准备：底材雷喷砂8 0 — 1 0 0目，喷涂时底材的温度4 0 — 5 0 ℃ ①涂料厚度： 2 5±5μm喷涂喷枪口径：1— 1. 2¢ ②空气压力： 3 — 4KG/C ㎡ ③使用酒精混合水洗洁喷涂枪 烘干温度：在 240 °C±10 °C 下 15-25 分钟 如果是 3 段炉，全程 20-35 分钟 第一段：35-50 °C(5 分钟） 第二段：80 °C（5 分钟） 第三段：220 °C 保持 15 分钟 耐热高温：1000 °C*12 小时无异常 铅笔硬度：6-7H(三菱铅笔）（烘烤放置 3 天后） 耐水性：耐沸水煮2小时，无异常 耐醇性：2.5％H,SO 溶液，12/15 浸渍，24 小时，无异常。 耐碱性：2.5％Na,CO ，溶液里，12/15 浸渍，24 小时，无异常。 附着力：100/100.    1 级 耐磨性：1KG 力百洁布测试 10000 次以上。 四、适用范围： 锅炉行业：在锅炉内部使用水性高温涂料可以有效提高锅炉的热效率，同时减少热量损失，延长锅炉使用寿命。 引擎行业：水性高温涂料在引擎部件上的应用可以抵抗高温氧化，提高引擎的性能和可靠性。 航空航天：在航空航天领域，水性高温涂料可用于飞机和火箭的高温部件，如发动机燃烧室和隔热层。 石油化工：在石油化工行业，水性高温涂料常用于炼油设备、高温管道和储罐的防腐保护。 五、施工流程及步骤： 材料选择：确保选购到质量上乘、性能稳定的水性高温涂料，并检查产品的合格证、生产日期等信息。 设备检查：准备好喷涂或滚涂设备，并检查其工作状态，确保在施工过程中能够正常运行。 环境条件：确保施工环境温度、湿度等条件符合涂料施工要求，避免在高温、高湿或大风等不利环境下施工。 基层检查：确保基层干燥、清洁、无油污、无灰尘，并进行必要的修复和打磨。 施工注意事项： 施工过程中要保持通风良好，避免吸入涂料挥发的气体。 注意施工温度和湿度的变化，以确保涂料的施工质量。 施工方法与步骤 基层处理：对基层进行打磨、清洁，确保表面平滑、干燥、无油污。 搅拌与稀释：按照产品说明书的要求，对水性高温涂料进行搅拌和稀释，添加适量的自来水，确保涂料均匀、无沉淀。 喷涂或滚涂：采用喷涂或滚涂的方法将涂料均匀涂抹在需要耐高温的物体表面。施工过程中要注意涂抹的厚度、均匀性等问题，避免出现漏涂、厚薄不均等现象。 干燥与固化：施工完成后，要保持涂层表面干燥、清洁，避免阳光直射或水淋。按照产品说明书的要求，等待涂料完全固化。 质量控制与安全防范： 质量控制：在施工过程中，要定期检查涂料的施工质量，确保涂层厚度、均匀性、附着力等指标符合设计要求。 安全防范：施工人员要佩戴好防护用品，如手套、口罩等。同时，要保持施工区域通风良好，避免涂料挥发产生的有害气体对人体造成伤害。 工程进度与成本控制： 工程进度计划：制定详细的工程进度计划，合理安排施工时间、人员、设备等资源，确保工程按期完成。 成本控制策略：通过合理控制材料使用量、降低设备维护成本、提高施工效率等措施，降低工程成本。同时，要加强对施工过程的监控和管理，避免浪费和损失，环境保护与污染防治 环境保护：在施工过程中，要尽量减少对周边环境的影响。例如，避免在风力较大时施工，减少涂料挥发产生的有害气体对周围环境的污染。 贮存与安全防护： 存放于阴凉干燥处，避免阳光直射和高温； 保持包装容器密封，防止水分和杂质进入； 产品开封后应尽快使用，避免长时间暴露在空气中；远离火源，禁止吸烟。 安全措施和环境保护要求： 施工时应穿戴防护服、手套和眼镜，避免与皮肤和眼睛直接接触； 保持施工环境通风良好，避免长时间吸入涂料挥发物； 施工后应将废弃涂料和包装容器妥善处理，符合当地环保要求； 如发生涂料泄漏或污染，应立即采取措施进行清理和处置。  

Water-based acrylic anti-rust paint coating

Water-based Acrylic Anti-rust Paint Series Product Introduction: Water-based acrylic anti-rust paint is an environmentally friendly coating formulated with water-based acrylic resin as the main film-forming material, supplemented by various anti-rust pigments, additives, and deionized water. II. Product Features: Environmental friendliness: Water-based acrylic anti-rust paint uses water as a diluent, contains no toxic or harmful substances, and is harmless to the environment and human health. Good anti-rust performance: The anti-rust pigments and additives added to water-based acrylic anti-rust paint can effectively inhibit the formation of metal rust and protect metal surfaces from corrosion for a long time. Excellent adhesion: Water-based acrylic anti-rust paint has good adhesion to metal surfaces, is not easy to peel off, and can maintain its protective effect for a long time. Easy to apply: Water-based acrylic anti-rust paint is simple and convenient to apply, can be applied by brushing, spraying, and other methods, has a fast drying speed, and does not affect construction progress. III. Product Applications: Suitable for anti-rust treatment of various metal surfaces, such as steel, aluminum, copper, etc. It can be widely used in bridges, buildings, mechanical equipment, automobiles, and other fields, providing long-term effective protection for metal structures.

Water-based polyurethane anti-corrosion coating

  水 性 聚 氨 酯 面 漆 一、产品简介： 水性聚氨酯面漆是一种环保型的高性能涂料，主要由水性聚氨酯树脂、功用填料、装修颜料、助剂等成分组成。它的特点包括出色的耐候性、保色保光性强、强附着力、高装饰性以及抗各种溶剂、腐蚀性介质等。 二、产品特点： 1. 水性环保：水性聚氨酯面漆以水为稀释剂，无刺激性气味，不易燃、不易爆，对大气无污染，对环境和人体健康无危害。 2. 高耐候性：该面漆的漆膜在室外环境下具有良好的耐候性，能够长期抵御紫外线辐射，不会粉化、变色或失光。 3. 保色保光性强：水性聚氨酯面漆的漆膜具有良好的保色保光特性，不易变色、失光，能够长期保持涂层的装饰效果。 4. 强附着力：漆膜附着力强，与底漆涂层或中间漆涂层结合牢固，不易脱落。 5. 高装饰性：水性聚氨酯面漆可以调制各种颜色，膜层光泽度高，饱满度好，装饰效果好。 6. 抗各种溶剂、腐蚀性介质等：水性聚氨酯面漆的组分涂料交联密度高，漆膜耐腐蚀性强，可以抵御大部分溶剂、酸、碱、盐以及其他溶剂的侵蚀，对基材有很强的保护作用。 水性聚氨酯面漆具有水性环保、高耐候性、保色保光性强、强附着力、高装饰性以及抗各种溶剂、腐蚀性介质等特点，是一种性能优异的水性面漆。其漆膜具有良好的光泽度、丰满度、硬度、耐磨性、耐冲击性、耐化学品性能以及防腐蚀性能，能够有效保护基材，延长其使用寿命。   三、技术指标： 项目 技术指标 产品颜色 颜色可以根据需要进行调配，以满足不同场合的装饰要求 漆膜颜色和外观 符合颜色要求，表面色调均匀一致，无颗粒、针孔、气泡、皱纹 原油粘度（4#杯 25℃）s ≥40 固体含量 ≥50% 细度μm ≤20 遮盖力g/㎡ ≤65 双组份涂料适用期h 25℃ ≥6 干燥时间（25℃） 表干min ≤30 实干h ≤24 弯曲性能㎜ ≤2 附着力 ≤1级 划格试验 ≤1 耐冲击性㎝ ≥50 光泽% 哑光（60°）亮光：≥90° 硬度h ≥2 耐盐雾性h 200h   无变化 耐冲击性 ≥50kg .cm 耐 侯 性 人工加速老化 800h； 理论用量 150-180g/m²（膜厚40μm，不计损耗）。 配比 配比为漆料：固化剂=5：1（重量比）。 复涂间隔 在25℃下（2-48小时之间） 涂装方式 刷涂、无气喷涂，空气喷涂       四、适用范围： 首先，水性聚氨酯面漆常用于各种金属表面的涂装，如钢结构、桥梁、船舶、石油化工设备等。其漆膜具有出色的耐候性、耐腐蚀性、耐磨性和耐冲击性，能够有效保护金属基材，延长其使用寿命，并赋予其良好的外观和装饰效果。 其次，水性聚氨酯面漆也适用于木材、塑料等材质的表面涂装。在家具、门窗、地板等木材制品上，水性聚氨酯面漆能够提供坚韧、光亮的漆膜，增加产品的美观度和耐久性。同时，它还具有优良的耐水性、耐沾污性和耐擦洗性，方便日常清洁和维护。 此外，水性聚氨酯面漆还可以应用于一些特殊场合，如地坪涂装、汽车涂装等。在地坪涂装中，水性聚氨酯面漆具有良好的耐磨性、抗压性和防滑性，适用于工业车间、车库、医院等场所。在汽车涂装中，水性聚氨酯面漆能够提供高光泽度、高丰满度的漆膜，使汽车外观更加亮丽和持久。 总的来说，水性聚氨酯面漆因其无毒环保、漆膜坚韧、光泽度高、附着力好、耐磨、抗压、耐侵蚀性、耐油、耐水等特性，被广泛应用于各种材质和场合的涂装。其应用领域不断扩大，市场需求也在不断增长。 水性聚氨酯面漆可以应用于室内外金属、木材、塑料等材质的表面涂装，如钢结构桥梁、铁塔、船舶、石油化工设备、储罐、管道、建筑外墙、铝合金门窗等   五、施工流程及步骤： 施工前准备： 1. 环境要求：确保施工环境清洁、干燥、通风良好，温度适宜，避免在高温、高湿、强风等恶劣环境下施工时的环境温度应控制在5-35℃之间，湿度不超过85%。 2. 底材处理：根据底材材质、表面状况选择合适的处理方法，如打磨、除锈、清洁等，确保底材表面平整、无油污、无灰尘。 3. 涂装间隔：根据涂料类型和基层情况，确定合适的涂装间隔，避免涂层间出现咬底、流挂等现象。 4. 搅拌均匀：在使用前，应将涂料充分搅拌均匀，避免出现沉淀、分层等现象。 5. 施工工具准备：准备好施工所需的喷枪、滚筒、毛刷等工具，确保工具清洁、无油污。 涂料配制： 1. 检查涂料：检查水性聚氨酯面漆的包装是否完好，无破损、泄漏现象，确认涂料型号、颜色、生产日期等信息。 2. 稀释涂料：根据施工需要，按照规定的稀释比例将水性聚氨酯面漆与稀释剂混合均匀，注意避免稀释剂过量导致涂料流挂、干燥不良等问题。 3. 过滤涂料：使用细过滤网对配制好的涂料进行过滤，去除涂料中的杂质、颗粒物等，确保涂料质量。 施工操作： 1. 涂布方法：根据底材材质、表面状况选择合适的涂布方法，如喷涂、滚涂、刷涂等，确保涂料均匀、无遗漏。 2. 涂布遍数：根据施工要求和涂料性能，确定合适的涂布遍数，一般要求至少两遍，确保涂层厚度、光泽度等符合要求。 3. 施工间隔：根据涂料说明书中的要求，严格控制每遍涂布之间的间隔时间，避免涂层干燥不良、起皱等问题。  底漆涂装：将底漆搅拌均匀后，按照先难后易的原则，先用喷枪涂装角落、边角等部位，然后用刷子或滚筒均匀涂装大面积区域。底漆涂装完毕后，应检查涂层是否均匀、无漏涂现象。  中间漆涂装：待底漆干燥后，进行中间漆的涂装。中间漆的涂装方法同底漆，注意保持涂层厚度的均匀性。  面漆涂装：中间漆干燥后，进行面漆的涂装。面漆的涂装应确保涂层光滑、平整、无气泡、无流挂等现象。   施工质量检测与验收： 1. 外观检查：检查涂层表面是否平整、光滑、无气泡、无流挂、无漏涂等现象。 2. 厚度检测：使用涂层测厚仪检测涂层厚度，确保涂层厚度符合施工要求。 3. 光泽度检测：使用光泽度计检测涂层光泽度，确保涂层光泽度符合设计要求。 4. 硬度检测：使用硬度计检测涂层硬度，确保涂层硬度满足使用要求。   六、贮存与安全防护： 贮存须知和注意事项： 1. 存放于阴凉干燥处，避免阳光直射和高温。 2. 保持包装容器密封，防止水分和杂质进入。 3. 产品开封后应尽快使用，避免长时间暴露在空气中。 4. 远离火源，禁止吸烟。 安全措施和环境保护要求： 1. 施工时应穿戴防护服、手套和眼镜，避免与皮肤和眼睛直接接触。 2. 保持施工环境通风良好，避免长时间吸入涂料挥发物。 3. 施工后应将废弃涂料和包装容器妥善处理，符合当地环保要求。 4. 如发生涂料泄漏或污染，应立即采取措施进行清理和处置。  

Water-based epoxy anti-rust and anti-corrosion paint

环 氧 水 性 防 锈 防 腐 漆 一、产品简介： 环氧水性防锈防腐漆是一种结合了环氧树脂和水性技术的防腐蚀涂料。这种漆以水性环氧树脂为基础，通过添加防锈颜料、助剂和溶剂等，形成了一种具有防锈防腐功能的涂料。其特点包括环保、低VOC排放、良好的防锈防腐性能以及易于施工等。 主要成分及其作用：  1. 环氧树脂：环氧树脂是环氧水性防锈防腐漆的主要成膜物质，具有良好的附着力、硬度、耐磨性和耐化学腐蚀性。 2. 固化剂：固化剂与环氧树脂发生化学反应，形成交联结构，提高涂层的强度和耐久性。 3. 颜料及填料：颜料和填料主要起到着色和增强涂层的作用，使涂层更具美观性和防护性。 4. 助剂：助剂包括流平剂、分散剂、消泡剂等，用于改善涂料的施工性能和稳定性。 5. 水：作为溶剂，使涂料易于施工，同时降低VOC排放。 这些成分协同作用，赋予环氧水性防锈防腐漆优异的防锈、防腐性能和良好的施工性能。 二、产品特点： 1. 耐蚀性强：环氧水性防锈防腐漆具有优异的耐盐雾、耐湿热、耐酸碱等性能，可以有效延长基材的使用寿命。 2. 耐磨性好：该漆膜硬度高，抗刮擦能力强，适用于各种磨损环境。 3. 环保性优：以水为分散介质，VOC含量低，减少对环境的污染，符合现代绿色环保的要求。   三、技术指标： 项目 指标 类型 双组份漆 主要成分 聚酰胺作为固化剂，双酚A环氧树脂为黏结剂。 产品颜色 根据客户需要进行调配，以满足不同场合的装饰要求 漆膜颜色和外观 符合颜色要求，表面色调均匀一致，无颗粒、针孔、气泡、皱纹 原油粘度（4#杯 25℃）s ≥40 细度μm ≤15 遮盖力g/㎡ ≤65 双组份涂料适用期h 25℃ ≥6 干燥时间（25℃） 表干min ≤30 实干h ≤24 弯曲性能㎜ ≤2 划格试验 ≤1 耐冲击性㎝ ≥50 光泽% 哑光（60°）亮光：≥90° 硬度h ≥2 耐水性h ≥240 耐汽油性h ≥24 耐盐雾性h 400h   无变化 施工方法 采用刷涂、滚涂或喷涂等方式，调配好的漆要在6小时内用完，以免胶化 使用温度 在5~35℃之间，如果温度低于5℃，需要使用低温固化剂 调配： 如果调配好的漆粘度高，可以使用环氧稀释剂调整至适当的施工粘度     三、适用范围： 因其独特的性能，被广泛应用于石油化工、桥梁船舶、电力设施、机械设备等工业领域的防锈防腐工作。 在实际应用中，环氧水性防锈防腐漆可以用于各种环境和使用场景。例如，在石油化工行业中，它可以用于储罐、管道等设备的防腐保护；在桥梁和船舶制造中，它可以用于金属结构的防锈处理；在电力设施中，它可以用于保护金属部件免受腐蚀等。 同时，由于环氧水性防锈防腐漆具有良好的耐磨、耐热、耐水和耐冲击等性能，它也适用于地坪涂装、金属防腐、汽车底漆、化学防腐等方面。一些特定的工业领域，如桥梁、机车、电站等，甚至规定将环氧水性防锈防腐漆作为中间漆使用。 四、施工流程及步骤： 涂装方法施工前准备： 1. 基层处理：清除基材表面的油污、水迹、灰尘等杂物，对锈迹、旧涂层等进行彻底清理和处理，确保基层干燥、清洁、无油污。 2. 材料选择：选择符合要求的环氧水性防锈防腐漆，检查产品的生产日期、有效期等信息，确保产品质量。 3. 设备与人员要求：准备好施工所需的喷枪、搅拌器、稀释剂等工具，施工人员应熟悉涂料性能、施工方法，确保施工质量。 施工过程中的注意事项： 1. 环境要求：环氧水性防锈防腐漆施工时的环境温度应控制在5-35℃之间，湿度不超过85%。 2. 涂装间隔：根据涂料类型和基层情况，确定合适的涂装间隔，避免涂层间出现咬底、流挂等现象。 3. 搅拌均匀：在使用前，应将涂料充分搅拌均匀，避免出现沉淀、分层等现象。 施工方法与步骤： 1. 底漆涂装：将底漆搅拌均匀后，按照先难后易的原则，先用喷枪涂装角落、边角等部位，然后用刷子或滚筒均匀涂装大面积区域。底漆涂装完毕后，应检查涂层是否均匀、无漏涂现象。 2. 中间漆涂装：待底漆干燥后，进行中间漆的涂装。中间漆的涂装方法同底漆，注意保持涂层厚度的均匀性。 3. 面漆涂装：中间漆干燥后，进行面漆的涂装。面漆的涂装应确保涂层光滑、平整、无气泡、无流挂等现象。 质量检查与验收标准： 1. 功能性检查：检查涂层是否具有良好的防锈、防腐性能，是否满足使用要求。 2. 密封性检查：对涂层进行密封性测试，确保涂层无渗漏、无气泡等现象。 3. 外观检查：检查涂层表面是否平整、光滑、无流挂、无刷痕等现象。 五、贮存与安全防护： 贮存须知和注意事项： 1. 存放于阴凉干燥处，避免阳光直射和高温。 2. 保持包装容器密封，防止水分和杂质进入。 3. 产品开封后应尽快使用，避免长时间暴露在空气中。 4. 远离火源，禁止吸烟。 安全措施和环境保护要求： 1. 施工时应穿戴防护服、手套和眼镜，避免与皮肤和眼睛直接接触。 2. 保持施工环境通风良好，避免长时间吸入涂料挥发物。 3. 施工后应将废弃涂料和包装容器妥善处理，符合当地环保要求。 4. 如发生涂料泄漏或污染，应立即采取措施进行清理和处置。  

Special coating paint for galvanized pipes

Galvanized Pipe Coating I. Product Introduction: Galvanized pipe coating is a special coating designed specifically for the surface coating of galvanized pipes. It is mainly used to protect galvanized pipes from environmental corrosion and extend their service life. With its excellent protective performance, galvanized pipe coating can effectively prevent water, oxygen, and other corrosive media from damaging the surface of galvanized pipes, thereby maintaining the integrity and functionality of the pipelines. II. Product Features: Excellent weather resistance: Galvanized pipe coating has excellent weather resistance and can withstand long-term erosion from sunlight, wind, and rain, and is not easy to fade, crack, or powder. This feature allows galvanized pipes to maintain long-lasting color brightness and protection even in outdoor environments. Abrasion resistance: This coating has good abrasion resistance and can effectively resist the physical wear and tear that the pipe surface may suffer during use, maintaining the integrity and smoothness of the coating. Excellent adhesion: Galvanized pipe coating has strong adhesion to the surface of galvanized pipes, ensuring that the coating is tightly bonded to the substrate and is not easy to peel or blister. This excellent adhesion further improves the protective effect of the coating and extends the service life of the pipe. Good corrosion resistance: It can effectively resist the corrosion of water, oxygen, and other corrosive media. Improved aesthetics: Provides a wide range of color options for galvanized pipes, enhancing the overall visual effect. III. Advantages and Applicable Scenarios: Solvent-based galvanized pipe coating Solvent-based galvanized pipe coating has the advantages of fast drying speed, high coating hardness, and good gloss, and is suitable for occasions with high requirements for coating appearance. However, when constructing solvent-based coatings, attention should be paid to ventilation and exhaust to avoid harming human health. Water-based galvanized pipe coating Water-based galvanized pipe coating uses water as a diluent and has the advantages of being environmentally friendly, non-toxic, and odorless, making it friendly to construction personnel and the environment. Although its drying speed is relatively slow, the coating has good flexibility and weather resistance, making it suitable for occasions with high environmental protection requirements. Galvanized pipe coating plays an important role in improving the durability and aesthetics of pipes. By coating with special coatings, galvanized pipes can be effectively protected from environmental corrosion, reducing the frequency of pipe maintenance and replacement, thereby reducing maintenance costs. At the same time, special coatings can also give pipes a beautiful appearance, enhancing the overall visual effect. Storage and Safety Protection: Store in a cool, dry place, avoiding direct sunlight and high temperatures; Keep the packaging container sealed to prevent moisture and impurities from entering; Products should be used as soon as possible after opening to avoid prolonged exposure to air; Keep away from fire and no smoking. Safety measures and environmental protection requirements: Wear protective clothing, gloves, and goggles during construction to avoid direct contact with skin and eyes; Keep the construction environment well-ventilated to avoid prolonged inhalation of coating volatiles; After construction, properly dispose of waste coatings and packaging containers in accordance with local environmental protection requirements; In case of coating leakage or pollution, immediate measures should be taken for cleaning and disposal.

Road insulation coating

I. Introduction DB-16T With the increasing depletion of Earth's energy, environmental protection and energy conservation have become the theme of this era. Under the tide of the times, scientific research and technological development regard energy saving, consumption reduction, and economic efficiency improvement as one of the main breakthrough directions, and even fire retardant coating technology is no exception. In recent years, the developed building insulation coatings—reflective insulation coatings—have achieved significant breakthroughs in energy conservation. To understand reflective insulation coatings, we need to start with their formulation. The formulation of reflective insulation coatings primarily consists of binders, heat-reflective pigments, fillers, and additives, and is a new type of fire-retardant and heat-insulating fire protection material that achieves insulation by efficiently reflecting sunlight. Among them, thin-layer insulating reflective coatings are representative of this type of coating. They are mainly used in various occasions requiring thermal insulation in the field of construction engineering, meaning high-reflectivity insulating coatings are applied to the surface of external protective structures. This can reduce the absorption of solar radiant heat by buildings, prevent the temperature rise of building surfaces caused by absorbing solar radiation, and at the same time reduce the transfer of heat indoors, thereby achieving building protection and fire resistance. II. According to the insulation mechanism of reflective insulation coatings, they can be mainly divided into three types Barrier-type Insulation Coatings: Achieve insulation by impeding heat transfer. When preparing the coating, low thermal conductivity materials are mainly selected, and low thermal conductivity air is introduced as a raw material after the coating forms a film. Common heat-blocking fillers for this type of reflective insulation coating include hollow glass microspheres, hollow ceramic powder, hollow fibers, sepiolite, vermiculite, perlite, etc. Heat-Reflective Insulation Coatings: Mainly achieve insulation by reflecting the spectral energy of sunlight within the 400~1800nm range. Its reflective materials use nanomaterials. Radiant Barrier Coatings: Mainly achieve insulation by emitting absorbed sunlight and heat into the air at specific wavelengths. Its formulation materials are various metal oxides, such as iron oxide, manganese dioxide, cobalt oxide, copper oxide, and other reflective spinel dopants. The above three are just the most basic classifications. In many cases, we can also compound reflective insulation coatings with the aforementioned functions to form multi-functional insulation coatings, such as those with both barrier and reflective properties. This is also the future development trend of reflective insulation coatings. What's more valuable is that reflective insulation coatings have both decorative and insulating functions, belonging to functional coatings. Therefore, this type of coating has been widely applied in the field of construction engineering, mainly for reflective insulation of roofs and walls, and is also widely used in granaries. Moreover, the application areas and usage scenarios of reflective insulation coatings are continuously expanding. With the infinitely increasing demand for building energy efficiency in the future, the attention they receive will inevitably show geometric growth! Due to their superior performance, reflective insulation coatings caused a strong market reaction upon their introduction. Even the state correspondingly issued standards for reflective insulation coatings (JC/T1040-2007) requiring: solar reflectivity no less than 85%, and hemispherical emissivity no less than 83%. This is to regulate the reflective insulation coating market. III. Construction Ratio Paint: Thinner (1:0.3-0.5) IV. Storage 1. Paint and thinner should be sealed and stored in a cool place, fire-proof, leak-proof, sun-proof, high-temperature resistant, and away from fire sources. 2. The storage period of the coating is one year or more. 3. After opening the can, the coating should be thoroughly stirred evenly to prevent pigment sedimentation causing color difference. 4. If the workpiece surface has attachments such as dust, particles, or oil stains, it will damage the appearance, so it should be wiped clean before spraying. 5. Due to different plastic substrates, sufficient testing should be done before spraying to avoid affecting paint adhesion. 6. During construction, please take relevant labor protection measures. If skin comes into contact with the coating, it can be washed with laundry detergent and water. If you feel unwell, please seek medical help.

Fire-retardant coating for steel structures

Steel Structure Fireproof Coating I. Product Introduction Steel structure fireproof coating is a specialized coating designed to enhance the fire resistance limit of steel structures. When applied to the surface of steel structures, it forms a fire-resistant and heat-insulating protective layer, which delays the temperature rise of steel in a fire, thereby improving the fire resistance limit of the steel structure. This coating is mainly divided into thick, thin, and ultra-thin types, with different coating thicknesses and fire resistance limits for each type. Product Features: Excellent Fire Resistance: Steel structure fireproof coating rapidly expands in a fire to form an insulating layer, effectively reducing the temperature of the steel structure's surface, thereby enhancing its fire resistance limit. After rigorous testing, the fire resistance time of the fireproof coating under various fire conditions can meet the standard requirements. Moderate Coating Thickness: Different types of fireproof coatings have varying coating thickness ranges to meet the needs of different applications. During construction, precise control of the coating thickness ensures that the fireproof coating's performance is fully utilized. Easy Application: Steel structure fireproof coating can be applied through various methods such as spraying and brushing, making operation simple and convenient. At the same time, the coating has a shorter drying time, which helps to improve construction efficiency. Scope of Application Bridge Engineering: As a vital component of transportation infrastructure, the safety of bridges is paramount. Steel structure fireproof coating can be applied to critical parts of bridges such as steel beams and steel columns to improve the bridge's fire resistance, ensuring the stability and safety of the bridge structure in the event of a fire. High-rise Buildings: Steel structures are widely used as load-bearing and supporting structures in high-rise buildings. In these buildings, steel structure fireproof coating can be extensively applied to steel columns, steel beams, and other parts of steel structures to enhance the overall fire resistance of the building, ensuring safe evacuation of personnel and smooth firefighting operations. Storage Facilities: In industries such as petroleum and chemical, storage facilities are often constructed from steel. When these facilities store flammable and explosive materials, the consequences of a fire could be disastrous. Therefore, applying fireproof coating to the steel surfaces of these facilities can effectively improve their fire resistance and reduce fire risks. IV. Technical Parameters: Item Technical Specification Test Result Measured Value Test Method (National Standard) Product Color Conforms to Sample Meets Standard White Visual Inspection Film Appearance (Visual) Smooth, uniform, free of impurities Meets Standard Smooth, uniform CB1721-79 Gloss Matte Compliant 28° (60° angle) GB1743-79 Solid Content: % 72 Meets Standard 73 GB/T1725-2007 Fineness μm ≤50 Meets Standard 48 Hardness: h hB Meets Standard hB GB/T6739-2006 Drying Time Surface Dry (min) ≤20 Meets Standard 15 GB/T1728-1989 Hard Dry (h) ≤24 Meets Standard 24 GB/T1728-1989 Flexibility (mm) 1 Meets Standard 0.9 GB/T1731-1993 Adhesion: (level) 1 Meets Standard 1 GB1720-79 Bonding Strength/MPa ≧0.15 1.12 Qualified Water Resistance After 24h test, the coating should show no delamination, blistering, or peeling. Compliant Qualified VI. Storage and Safety Protection: The product should be stored in a cool, well-ventilated place, away from direct sunlight, open flames, and heat sources. Keep the construction area dry and clean, and strictly avoid contact with water, acids, alcohols, alkalis, etc. After mixing the paint, the hardener container must be tightly sealed to prevent gelling. Operators should wear safety masks and gloves to avoid contact with skin or eyes. In case of accidental contact, rinse thoroughly with clean water.

Epoxy Anti-rust and Anti-corrosion Paint Series

DB-7G706 epoxy zinc-rich primer is mainly composed of epoxy resin, zinc powder, rust-proof pigments, fillers, auxiliaries, solvents, etc. Epoxy zinc-rich primer is a type of coating with epoxy resin as the main film-forming substance. It has excellent adhesion and chemical corrosion resistance, good alkali resistance, and a hard coating; it is the most important anticorrosion paint product, mainly used for anticorrosion coating. Epoxy zinc-rich primer is usually used as a primer for anticorrosion paint.

Fluorocarbon paint

Fluorocarbon paint I. Product introduction: Fluorocarbon paint, also known as fluorocarbon coating or fluoropolymer coating, is a high-performance coating using fluoropolymer as the main film-forming substance. The uniqueness of this coating lies in the introduction of fluorine elements with high electronegativity and strong carbon-fluorine bond energy, giving it a series of excellent properties. First, fluorocarbon paint has excellent weather resistance, heat resistance, and low-temperature resistance. This means that fluorocarbon paint can maintain its performance and appearance stability in both extremely hot and cold environments. Second, the coating also has excellent chemical resistance and can resist the erosion of various chemicals. In addition, fluorocarbon paint also has unique non-stick and low-friction properties, giving it unique advantages in certain specific applications. II. Product features: 1. **Strong weather resistance**: Fluorocarbon paint has excellent weather resistance and can maintain its color and gloss under extreme weather conditions. The carbon-fluorine bonds in its molecular structure have high stability and chemical corrosion resistance, enabling fluorocarbon paint to withstand the erosion of sunlight, rain, acid rain, etc., on the coating. Therefore, it is often used for the exterior walls and roofs of outdoor buildings, maintaining the quality of the paint film for a long time. 2. **Good wear resistance**: Fluorocarbon paint has good wear resistance and can withstand friction and wear in daily environments, making the coating more durable. 3. **Good temperature resistance**: Fluorocarbon paint can maintain the color and gloss of the coating at high temperatures and withstand temperatures above 200°C. At the same time, it can also maintain flexibility and prevent cracking at extremely low temperatures, demonstrating excellent temperature resistance. 4. **Good chemical resistance**: Fluorocarbon paint has excellent chemical resistance and can resist the erosion of acids, alkalis, solvents, and other chemicals. This is mainly due to the stability and high corrosion resistance of the carbon-fluorine bond. 5. **Strong anti-pollution**: Fluorocarbon paint has excellent anti-pollution performance and can effectively resist the erosion of dust, dirt, grease, and other external pollutants, maintaining the beauty and cleanliness of the coating. Construction parameters: Index Parameter Color Mid-yellow, yellow, red, etc. (different colors can be provided according to customer requirements) Specific gravity L/Kg 1:1 Theoretical consumption kg/m2 0.1-0.2 Gloss (60°) ≧85 Adhesion grade 0 Flexibility mm ≤2 Impact strength kg.cm 50 Salt spray resistance h ≧600 (with matching primer) Film thickness um 250-300 (with matching primer) Ratio: A component (paint paste): B component (curing agent) = 10:1 (weight ratio), the ratio of A and B components can be adjusted according to the temperature Shelf life 12 months Drying time Surface drying min ≤30 Full drying h ≤24 II. Product uses: Fluorocarbon paint has a wide range of uses, mainly due to its excellent protection, decoration, durability, and weather resistance. The following are the main uses of fluorocarbon paint: 1. **Building field**: Fluorocarbon paint is often used as a coating for building exteriors because it can maintain the beauty and novelty of the building for a long time. In addition, it can also be used for the cladding of metal curtain walls on building exteriors, providing protection and decoration for buildings. 2. **Machinery industry**: Because fluorocarbon paint has excellent durability and wear resistance, it is often used for the coating of surfaces such as large machinery equipment, providing protection and decoration for machinery equipment. 3. **Chemical industry**: Fluorocarbon paint has excellent chemical resistance and can resist the erosion of various chemicals, so it is also widely used in the chemical industry. 4. **Aerospace industry**: Because fluorocarbon paint has excellent heat resistance and low-temperature resistance, it is also widely used in the aerospace industry, such as the coating of aircraft, rockets, and other aerospace vehicles. 5. **Household goods**: Fluorocarbon paint can also be used for the coating of household goods, such as doors, windows, furniture, etc., providing beautiful and durable protection. In addition, fluorocarbon paint is also widely used for the surface decoration and protection of metals, wood, plastics, decorative panels, and landmark buildings. Its uses are not limited to the above fields, and with the continuous advancement of technology and the expansion of application fields, the uses of fluorocarbon paint will further expand. Fluorocarbon paint construction process: Pre-construction preparation: 1. Confirm the construction environment: Ensure that the construction environment is dry, clean, oil-free, and dust-free. 2. Prepare tools: Prepare the necessary construction tools, such as spray guns, rollers, brushes, etc. 3. Check the paint: Check the model, color, production date, etc., of the fluorocarbon paint to ensure that the paint meets the construction requirements. Substrate treatment: Substrate treatment is a key step in coating, and the substrate needs to be cleaned, polished, derusted, etc., to ensure that the substrate is flat, clean, oil-free, and rust-free. Pre-coating preparation: Before coating, primer coating is required. The choice of primer should be determined according to the nature of the substrate and the coating requirements. After the primer coating is completed, wait for the primer to dry before applying the fluorocarbon paint. Coating construction: Coating construction is the core link in the fluorocarbon paint construction process. The following points should be noted: * Control coating thickness: The coating thickness should be uniform and consistent, avoiding being too thick or too thin. * Control coating speed: The coating speed should be kept stable, avoiding being too fast or too slow. * Pay attention to the coating order: When coating, follow the order of difficult to easy, top to bottom. Mix component A thoroughly to ensure that the upper and lower layers of the paint are uniform and consistent, without any sediment or agglomeration. Mix component A and component B according to the ratio indicated on the packaging bucket, and add component B to component A while stirring. Then, stir the two components thoroughly and adjust the viscosity using a special thinner to dilute the paint to the working viscosity. Generally, one coat of topcoat is applied. The brushing thickness must reach 80-100 μm or more. The topcoat can only be brushed after the primer is dry or cured. The number of brushing coats and the coating thickness should be determined according to the construction design requirements and should completely cover the base material. The total amount of topcoat for each brushing coat is 0.1～0.2 kg/㎡. When the design requires the coating surface to be flat and smooth, the last coat should be smoothed to ensure that the outer surface is uniform and flat. Quality inspection and safety measures: After coating, quality inspection is required to ensure that the coating effect meets the requirements. At the same time, safety measures should be noted, such as wearing protective equipment and prohibiting smoking. Tasks and requirements of each link: Each link has its specific tasks and requirements, and the construction must be carried out strictly according to the requirements to ensure construction quality and effect. Key links and precautions: In the fluorocarbon paint construction process, key links include substrate treatment and coating construction. In these links, matters needing attention include controlling coating thickness, coating speed, and coating order. At the same time, safety measures should be noted to ensure the safety of the construction process. Optimization and improvement of construction technology: In order to improve construction effect and efficiency, the existing fluorocarbon paint construction technology can be optimized and improved. For example, introducing automated coating equipment and optimizing the coating process. Conclusion: Fluorocarbon paint, as a high-performance coating, has a wide range of applications in many fields. In the fluorocarbon paint construction process, correct construction technology is crucial for ensuring project quality and service life. By optimizing and improving construction technology, the construction effect and efficiency can be further improved, providing better support for the development of various industries. After the dust, polishing, and other debris on the surface of the steel structure substrate that has been painted are cleaned, the topcoat can be applied. V. Storage: 1. The main paint and thinner should be stored in a sealed, cool place, protected from fire, leakage, sun exposure, and high temperatures, away from fire sources. The main paint and curing agent must be used up within 4 hours after mixing to avoid affecting the effect. 2. Do not mix with other brands of paint for construction, otherwise, adverse consequences or losses may occur. During construction, please take relevant labor protection measures. For skin contact with paint, wash with detergent and water. If you feel unwell, please seek medical attention. The treatment of construction waste materials must comply with environmental protection requirements. Please do not discard them at will.