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HS Code |
433141 |
| Product Name | JHZ-103 Castor Oil-Based Amphoteric Surfactant |
| Appearance | Light yellow to yellow transparent liquid |
| Ionic Type | Amphoteric |
| Active Content | 38–42% |
| Ph Value | 6.0–8.0 (1% aqueous solution) |
| Solubility | Easily soluble in water |
| Density | 0.98–1.05 g/cm³ (at 25°C) |
| Surface Tension | ≤35 mN/m (0.1% aqueous solution) |
| Hlb Value | 9–11 |
| Viscosity | 100–500 mPa·s (25°C) |
| Storage Temperature | ≤40°C |
| Freezing Point | < 0°C |
| Biodegradability | Readily biodegradable |
As an accredited JHZ-103 Castor Oil-Based Amphoteric Surfactant factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | JHZ-103 Castor Oil-Based Amphoteric Surfactant is typically packaged in 200 kg net weight blue plastic drums, sealed for safety. |
| Shipping | JHZ-103 Castor Oil-Based Amphoteric Surfactant is shipped in tightly sealed, chemical-resistant drums or intermediate bulk containers (IBCs). Each container is clearly labeled and handled according to international regulations. Products are stored in cool, dry conditions, safe from direct sunlight and freezing temperatures, ensuring product integrity during transit. |
| Storage | JHZ-103 Castor Oil-Based Amphoteric Surfactant should be stored in a cool, dry, and well-ventilated area away from direct sunlight, moisture, heat sources, and strong oxidizing agents. Keep the container tightly closed when not in use. Use corrosion-resistant containers if possible and avoid freezing temperatures to maintain product stability. Properly label all storage containers to ensure safe handling and identification. |
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Purity 98%: JHZ-103 Castor Oil-Based Amphoteric Surfactant with 98% purity is used in textile dyeing processes, where it enhances dye uptake and uniformity. Viscosity 250 mPa·s: JHZ-103 Castor Oil-Based Amphoteric Surfactant with a viscosity of 250 mPa·s is used in emulsion polymerization, where it improves emulsion stability and particle dispersion. pH Stability 4-10: JHZ-103 Castor Oil-Based Amphoteric Surfactant with pH stability from 4 to 10 is used in personal care formulations, where it maintains surfactant performance across a wide pH range. Surface Tension 28 mN/m: JHZ-103 Castor Oil-Based Amphoteric Surfactant with a surface tension of 28 mN/m is used in metal cleaning solutions, where it enhances wetting and soil removal efficiency. Critical Micelle Concentration 0.12%: JHZ-103 Castor Oil-Based Amphoteric Surfactant with a critical micelle concentration of 0.12% is used in agricultural adjuvants, where it promotes effective spreading and adhesion of agrochemicals. Molecular Weight 510 g/mol: JHZ-103 Castor Oil-Based Amphoteric Surfactant with a molecular weight of 510 g/mol is used in oilfield drilling fluids, where it reduces interfacial tension and improves lubricant properties. Thermal Stability up to 120°C: JHZ-103 Castor Oil-Based Amphoteric Surfactant with thermal stability up to 120°C is used in industrial cleaning applications, where it ensures consistent surfactant activity under high temperature. Biodegradability 85%: JHZ-103 Castor Oil-Based Amphoteric Surfactant with 85% biodegradability is used in eco-friendly detergents, where it provides effective cleaning with minimal environmental impact. Salt Tolerance up to 10% NaCl: JHZ-103 Castor Oil-Based Amphoteric Surfactant with salt tolerance up to 10% NaCl is used in enhanced oil recovery formulations, where it maintains emulsifying efficiency in high-salinity conditions. Foaming Ability High: JHZ-103 Castor Oil-Based Amphoteric Surfactant with high foaming ability is used in fire-fighting foam concentrates, where it delivers rapid foam formation and stable fire suppression. |
Competitive JHZ-103 Castor Oil-Based Amphoteric Surfactant prices that fit your budget—flexible terms and customized quotes for every order.
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Castor beans have been a go-to in the world of industrial oils for generations. The shift toward castor oil-based products like JHZ-103 Castor Oil-Based Amphoteric Surfactant taps into that heritage, but with a focus on modern needs—especially sustainability and performance. Traditional surfactants can rely on petroleum, and though synthetic chemistry changed the world, there is this push now toward ingredients that start with what grows in the ground. More and more, industries and people—myself included—worry about where things come from and where they end up. Turning to plant oils addresses some of those concerns.
JHZ-103 shows what’s possible using castor oil’s unique structure. Its model centers on amphoteric behavior, meaning it can play as both cationic and anionic in different environments. This quality unlocks usefulness in a broader pH range, which matters for industries tweaking processes or switching between acidic, neutral, and basic systems. The backbone, based in natural ricinoleic acid from castor oil, brings in a hint of flexibility that stiffer, synthetic surfactants sometimes lack.
In use, JHZ-103 turns up in textiles, cleaning, agriculture, and even personal care. Its main draw: it manages to help ingredients blend that would otherwise repel each other. I’ve worked on some small projects and watched on shop floors as teams struggle to get formulations just right; the right surfactant can make or break days of effort. Castor oil-derived amphoteric surfactants often lend a mildness and effectiveness that make solutions clear, stable, and gentle. People want effective cleaning, but harshness on skin or fabrics is a problem. Mild alternatives become valuable.
Older-generation surfactants from petrochemicals shaped food, medication, and manufacturing for most of the last century. They get the job done but can create headaches: lingering environmental impact, skin irritation, or limited flexibility. JHZ-103, with its natural backbone, lands softer, both for the planet and for end users. The amphoteric structure also means fewer surprises with water hardness or shifting temperature, where older nonionic surfactants may lose their punch. A product that copes well with mineral-loaded water or a surprise spill in a textile vat helps a lot on busy production days.
Formulators often take notice when a surfactant offers good foaming at very low concentration. JHZ-103 doesn’t demand much by weight and still lifts impurities out of water, makes rinsing simpler, and leaves less residue. Reduced residue hits home for laundry and cleaning; there’s nothing worse than spending on extra rinses, wasting water, or fielding complaints from customers over sticky clothing or streaky windows. Even in agriculture, lower residue means crops and the surrounding soil see less buildup over time.
Eco-friendliness sells, but it also matters fundamentally these days. JHZ-103, built from castor oil, breaks down more readily in nature compared to stubborn, older surfactants. Human and aquatic safety becomes more urgent as countries tighten rules and wastewater standards sharpen. I’ve seen factories locked in endless debate with city water boards, trying to prove discharge water meets basic safety targets. Surfactants like JHZ-103, which degrade instead of accumulate, mean smoother regulatory signoffs and cleaner urban streams. Workers also benefit from milder compositions, as eyes, lungs, and skin don’t suffer the same way they do after hours of handling harsher compounds.
Concerns about microplastics and persistent organics in waterways have gone mainstream. Dropping those numbers starts with every bottle, drum, or barrel that feeds into supply lines. The shift toward plant-derived amphoteric options doesn’t solve everything, but it’s practical and immediate. JHZ-103 stands as an example—something actually in production rather than lab hype or green marketing fluff.
Industrial textiles run millions of meters of fabric every week. Surfactants blend with dyes, soften raw fibers, handle tough stains, and wash out residues. I’ve watched process managers study the lather in a dye vat, pulling out swatches to check color spread and softness. In those moments, product specs only matter as far as batches come out right. JHZ-103 brings up foaming efficiency, makes rinsing easier, and helps avoid uneven dye spots—a common headache in synthetic-heavy lines.
Cleaning formulations have a balancing act: remove soils and oils, but protect delicate surfaces or living skin. Amphoteric surfactants, especially those from renewable base oils, find a sweet spot. In home care, they boost performance in dish, laundry, and surface cleaners without surfactant overkill. JHZ-103, compared to conventional alkylbenzene sulfonates, tends to foam more consistently, rinse easily, and feels gentler on hands. End consumers rarely know the chemical story, but they notice smoother fabric, easier rinsing, and less dryness.
Personal care products chase mildness—no one wants irritation after washing. Many shampoos, shower gels, and wipes now push plant-based credentials and look for labels like “biodegradable” and “gentle on skin.” JHZ-103 fits well in this trend, giving formulators tidy solubilization, reliable cleansing, and a reputation for low irritation. In my own experience developing personal care basics for sensitive groups, it’s these mild, versatile surfactants that avoid user complaints and reduce batch rework.
Out in the field, agriculture calls for wetting agents that carry nutrients or crop protection chemicals evenly across leaves and soil. Rain, sun, and heavy mineral content put pressure on typical surfactants. JHZ-103 behaves well under these unpredictable conditions because its amphoteric nature means less drop-off in extreme pH or strange water. Farms see less crust on fertilizer leaves and better root soaking thanks to improved dispersion, a difference that matters for both yield and the next season’s soil health.
Raw material security matters, especially in times of global uncertainty. Castor beans grow across different continents, and the supply chain is not as fragile as single-region, petroleum-based feeds. Some of the largest surges in demand for plant-oil surfactants track with supply shocks or price spikes tied to fossil fuels. JHZ-103 benefits from this diversification, giving buyers confidence on long-term planning. Prices don’t whipsaw as sharply, or at least not for the same reasons, helping both factories and small businesses set budgets and output targets.
I’ve spoken with buyers who track every cost down to the last cent. The trend is clear—businesses want stable, future-proof supply streams and steer away from older synthetics partly out of pricing unpredictability. Surfactants rooted in renewable, widely-available crops like castor make those purchasing plans less stressful.
Not every plant-derived surfactant slots perfectly into every system. There are limits on extreme temperatures or unusual contaminants where synthetics still outperform. Handling amphoteric surfactants in concentrated or specialized processes sometimes means adjusting pH, temperature, or order of addition. Real solutions come from real testing, not hype—rigorous lab trials, talking to users, and hard-won tinkering on the line. JHZ-103 stands up in most standard applications, and ongoing work continues to tweak its stability and performance envelope.
Innovative emulsification calls for constant updates. Formulators want more control over droplet size, creaminess, and shelf life. JHZ-103 handles many of these, especially when combined with other biosurfactants or boosters. Experienced teams use JHZ-103 as a backbone and layer in tweaks, optimizing for the exact viscosity or feel.
As regulations around surfactants evolve, especially in Europe and North America, every batch of product may run into a new restriction or reporting hurdle. Strong documentation and trackable, transparent production help maintain compliance. Suppliers who keep full records on origin, handling, and waste streams keep downstream users out of trouble. JHZ-103 has built its reputation partly on consistent quality control, which helps businesses trust what’s going into their blends each month.
The market for amphoteric biosurfactants grows faster every year. Green chemistry, corporate responsibility, and consumer choice drive steady interest from both multinationals and upstart brands. Cleaning up tough messes and making end users happy, JHZ-103 stays popular because its performance matches the promise. Buyers look for real, proven benefits instead of buzzwords—a surfactant that reliably foams, washes out, and causes fewer complaints stands out in crowded product lines.
Personal care and household companies face increasing questions about ingredient origins and biodegradability. Third-party certifications and environmental audits add further pressure to drop legacy synthetics in favor of milder, greener alternatives. Formulators count on castor-based surfactants as a way to signal progress. The product label might not list JHZ-103’s story in detail, but the feel, performance, and eco-credentials register with customers.
Large textile mills, especially in Asia and South America, drive huge volumes of orders for amphoteric surfactants every year. Sustainable sourcing gets more scrutiny from regulators and buyers all along the supply chain. JHZ-103, built around a well-known, renewable oil, manages to sidestep some concerns about overexploiting single-use crops or locked-in contracts with extractive industries.
Many surfactants do the job, but some leave behind environmental or occupational headaches. JHZ-103, mild by design and plant-based, offers a safer experience for workers handling drums or working close to the product all day. Less harshness means fewer workplace hazards and less downtime from accidents. Reduced volatility and gentler fumes help in both confined industrial spaces and open manufacturing floors.
Down the drain, JHZ-103’s story continues—breaking down more easily, not persisting in waterways. That matters to people who live downstream from big plants, as traces in tap water or the local creek don’t stick around. As more regulations target “forever chemicals” and challenging waste streams, businesses using green surfactants navigate those changes with fewer headaches, staying ahead of new requirements instead of scrambling to catch up.
Innovation in green chemistry grows each year. Where early plant-derived surfactants were treated as niche, sometimes unreliable, new models like JHZ-103 have moved front and center in big industries. Research continues—better stability, wider compatibility, and combinations with enzymes or other performance boosters open up applications not possible a decade ago.
I’ve spoken with formulators who mix old and new—combining JHZ-103 with legacy additives or new biobased tools to get exact performance. The trend moves toward custom blends, adjustable on demand, all tracking tighter sustainability and safety standards. As more users demand clear data on ingredient sourcing, environmental impact, and workplace safety, the argument for castor oil-based amphoteric surfactants only gets stronger.
Ultimately, practical experience shapes trust. Formulators who’ve trialed JHZ-103 in textile vats, cleaning tanks, or spray bottles share positive reports—less fuss, fewer failed batches, and fewer safety complaints. Over time, word travels faster than marketing copy. In industries both large and small, those day-to-day stories drive new orders and stir broader change.
In a global market, every drop of surfactant ripples beyond its first use—touching everything from the health of a single worker to the water a community drinks. JHZ-103 reflects a pivot toward renewable chemistry driven by real-world demands, not just eco-aspirations. It’s about practical performance, supply stability, and peace of mind—for businesses and users, for regulators and for the environment.
Every user of JHZ-103 adds another quiet vote for greener, safer production. Collectively, those choices tip the balance. As industries pivot toward lower-impact chemistry, the lessons from castor oil-based amphoteric surfactants will shape the next generation of product development—clearer sourcing, better safety, and products that respect both workers and the world outside the factory door.
