| Appearance: | |
|---|---|
| Product name: | |
| PH value: | |
| Availability: | |
| Quantity: | |
xinrui-te
-------XRT Series: Advanced Foam Control for Industrial Applications
Provides immediate defoaming and sustained foam suppression in low and high-foam environments.
Effective across pH 5–12 and temperatures up to 90°C (194°F).
Superior Compatibility:
Harmonizes with surfactants, polymers, and chemical auxiliaries in mortars, adhesives, and industrial fluids.
Water-dispersible emulsion for easy direct addition to systems without pre-dilution.
Non-toxic, non-flammable, and non-corrosive (classified as non-hazardous goods)
| Item | XRT-54 | XRT-12 | XRT-N1 | XRT-N2 |
|---|---|---|---|---|
| Appearance | Milky white liquid | Milky white liquid | Milky white liquid | Milky white liquid |
| Active Matter Content | 25% | 15% | 30% | 45% |
| Viscosity (No. 2 Rotor) | 500–1,200 mPa·s | 400–1,000 mPa·s | 400–1,500 mPa·s | 400–1,600 mPa·s |
| PH Value | 7–8 | 7–8 | 7–8 | 7–8 |
| Ionic Type | Nonionic | Nonionic | Nonionic | Nonionic |
| Storage Stability | 12 months @ ≤40°C | 12 months @ ≤40°C | 12 months @ ≤40°C | 12 months @ ≤40°C |
Use silicone emulsion defoamer for foam control in cement mortars,Drilling, grouts, and adhesives to improve workability and cut down air entrainment. Ideal as a silicone antifoam for concrete admixtures.
Works well in textile sizing, dyeing and finishing, rubber/latex production, and various chemical or petroleum refining steps.
Effective at suppressing foam in sewage systems, industrial wastewater and water recycling plants.
Also suitable for agricultural formulations, alkaline cleaners, paper making, metal etching and leather tanning.
Typical: 10–1,000 ppm (0.001–0.1% wt), adjust by foam level and system.
Heavy-foam conditions (e.g., drilling fluids, high-agitation tanks): 500–1,000 ppm.
25 kg plastic barrels, 50 kg plastic drums, or 200 kg metal drums.
Store in a cool, dry, indoor location away from direct sunlight (≤30°C/86°F).
12 months when unopened and stored as recommended.
Non-hazardous; follows standard industrial safety protocols.
1. Q: Is Silicone Antifoam compatible with PCE superplasticizers?
A: Many silicone emulsions are formulated for PCE compatibility, but compatibility tests are recommended for each PCE grade and
formulation.
2. Q: Will silicone emulsion defoamer affect concrete setting time and strength?
A: With standard dosage, qualified silicone emulsion defoamer will not interfere with cement hydration or change concrete setting
It reduces internal air voids and improves concrete compactness and overall strength.
3. Q: Is silicone emulsion safe and environmentally acceptable? Any VOC issues?
A: Most water-based silicone emulsions are low-VOC and safe when used per MSDS. Check specific product TDS/MSDS for
regulatory data.
4. Q: Can you supply custom grades or OEM/private label?
A: Yes—we offer custom formulations, technical support and OEM/white-label services subject to MOQ and technical agreement.
5. Q: Do you supply custom Anti-Foaming Agent for construction mortar?
A: Yes. We are a professional manufacturer of silicone emulsion antifoam. We offer custom formulations and concentrations for
construction mortar, concrete and other working conditions. Free samples are available for your testing.
Wrong Concrete Admixtures: Why Does Slump Rise & Delayed Bleeding Happen After 1 Hour on Tropical Construction Sites? Complete Solutions for High-Temp Projects in South America, Southeast Asia & Africa What role do concrete admixtures play behind common construction headaches in South America, South
Concrete is a fundamental building material in the construction industry. However, its brittleness and susceptibility to cracking have long been challenges for engineers and builders. To address these issues, innovative solutions such as polypropylene (PP) hybrid macro synthetic fibers have emerged
IntroductionWhat is Sodium Gluconate?Sodium gluconate is a white, water-soluble compound made from gluconic acid. Its chemical formula is C₆H₁₁NaO₇. You’ll often find it as a powder or granules. But don’t let that simple appearance fool you—it’s powerful.
Foam formation is a prevalent issue in numerous industrial processes, ranging from wastewater treatment and chemical manufacturing to food and beverage production.
In the realm of modern construction, the search for stronger, more durable materials is ongoing. One such innovation that has dramatically changed the way concrete is used in construction is staple concrete fiber. This specialized material, when mixed into concrete, significantly enhances its strength, performance, and longevity. Whether used in pavements, highways, or structural elements, staple concrete fiber provides numerous advantages that traditional reinforcement methods can’t match.
A concise, engineered reinforcement for concrete, macro synthetic fibres add post-crack strength and reduce surface cracking without the corrosion risks linked to steel.
Fibers have been an integral part of the construction industry for a long time. They are used in concrete to improve its mechanical and physical properties. Different types of fibers are used for various purposes, but polypropylene fibers are the most versatile and widely used. This article will ex
Learn how PP fibers enhance concrete durability, prevent shrinkage cracks, and replace steel. A guide to types, quality metrics, and applications.
In the ever-evolving world of textiles, synthetic fibers have emerged as a game-changer, revolutionizing the industry with their remarkable properties and versatility. Among the various types of synthetic fibers, micro and macro fibers stand out as the most popular choices for manufacturers seeking
Fibre-reinforced concrete has become an essential material choice for projects that demand durability, crack resistance, and long-term performance.
The concrete reinforcement industry is undergoing a massive shift. Engineers and contractors are rapidly moving away from labor-intensive traditional steel like rebar and wire mesh. Advanced engineered polymers now offer a smarter, highly efficient alternative for modern builds.
Polyester and polypropylene fibers are both synthetic materials commonly used in textiles and other applications. However, they have distinct properties and characteristics that make them suitable for different uses. Understanding these differences is essential for businesses and industries looking
Polycarboxylate Superplasticizer (PCE) has become a cornerstone in modern concrete technology, offering unmatched performance in workability, strength, and durability.
IntroductionSelf-leveling concrete has become increasingly popular in modern construction due to its ability to produce smooth, durable, and high-quality surfaces.
Compare plasticizers vs. superplasticizers. Learn about water reduction, molecular mechanisms, and dosage to optimize concrete strength and budget.
IntroductionIn modern construction, the demand for high-performance concrete is ever-increasing.
What is the best concete admixture to strength in South America ? In South America, coastal salt spray, tropical high temperatures, heavy rainfall, and seismic activity pose common challenges to concrete structures, such as early cracking, chloride ion corrosion, insufficient compressive strength,
In modern concrete construction, achieving the perfect balance between workability, strength, and durability is critical. One of the most significant ways to enhance the performance of concrete is through the use of water-reducing admixtures.
In infrastructure projects worldwide, concrete's crack resistance, durability, and construction efficiency directly determine project costs and lifespan. Many projects incur rework, delays, and additional maintenance expenses due to difficulties with concrete pumping, failure to meet early strength
Learn how monofilament synthetic fibers provide 3D concrete reinforcement to prevent cracks, replace steel mesh, and enhance structural durability.