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HS Code |
932501 |
| Inci Name | Sodium C10-15 Pareth Sulfate |
| Chemical Type | Anionic Surfactant |
| Physical State | Liquid or Paste (depending on concentration) |
| Color | Colorless to pale yellow |
| Odor | Characteristic, mild odor |
| Solubility | Highly soluble in water |
| Ph Range | 6.0 - 8.5 (10% solution) |
| Usage Concentration | Typically 5% to 30% in formulations |
| Primary Function | Cleansing agent |
| Synonyms | Alcohols, C10-16, ethoxylated, sulfates, sodium salts |
| Application | Shampoos, shower gels, liquid soaps |
| Foaming Ability | High foaming |
| Biodegradability | Readily biodegradable |
| Irritation Potential | Can cause mild to moderate irritation at higher concentrations |
| Shelf Life | About 2 years under recommended storage conditions |
As an accredited Sodium C10-15 Pareth Sulfate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | A 200 kg blue HDPE drum labeled "Sodium C10-15 Pareth Sulfate," features safety icons, batch number, and manufacturer details. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Sodium C10-15 Pareth Sulfate: Typically loaded with 16-18 metric tons in plastic drums or IBCs. |
| Shipping | Sodium C10-15 Pareth Sulfate is typically shipped in tightly sealed HDPE drums or IBC totes to prevent moisture absorption and contamination. It should be stored and transported in a cool, dry, and well-ventilated area, away from strong acids and oxidizing agents. Proper labeling and compliance with local transport regulations are required. |
| Storage | Sodium C10-15 Pareth Sulfate should be stored in tightly sealed containers in a cool, dry, and well-ventilated area, away from direct sunlight, heat, and incompatible substances such as strong oxidizers. Ensure containers are properly labeled and kept off the ground to prevent moisture contact. Use corrosion-resistant storage tanks or drums to maintain product stability and minimize contamination risks. |
| Shelf Life | Sodium C10-15 Pareth Sulfate typically has a shelf life of 24 months when stored in a cool, dry, and sealed container. |
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Purity 97%: Sodium C10-15 Pareth Sulfate with a purity of 97% is used in shampoo formulations, where it ensures consistent foaming and cleansing efficiency. Viscosity grade 500 mPa·s: Sodium C10-15 Pareth Sulfate of viscosity grade 500 mPa·s is used in liquid hand soaps, where it provides optimal texture and pourability. Molecular weight 410 g/mol: Sodium C10-15 Pareth Sulfate with a molecular weight of 410 g/mol is used in body wash products, where it achieves balanced skin feel and lather formation. Stability temperature 40°C: Sodium C10-15 Pareth Sulfate stable up to 40°C is used in surfactant-based detergents, where it maintains efficacy under standard storage and use conditions. Active content 28%: Sodium C10-15 Pareth Sulfate with an active content of 28% is used in facial cleansers, where it delivers effective removal of oils and impurities. Color index ≤100 Pt-Co: Sodium C10-15 Pareth Sulfate with a color index of ≤100 Pt-Co is used in transparent gel cleansers, where it maintains product clarity and aesthetic appeal. Salt content ≤1%: Sodium C10-15 Pareth Sulfate with salt content ≤1% is used in mild baby shampoos, where it minimizes irritation and ensures gentle cleansing. pH (1% solution) 7.0: Sodium C10-15 Pareth Sulfate at pH 7.0 (1% solution) is used in sensitive skin personal care, where it promotes skin compatibility and mildness. Biodegradability >90%: Sodium C10-15 Pareth Sulfate with biodegradability above 90% is used in eco-friendly household cleaners, where it supports environmental sustainability and safe disposal. Residual ethylene oxide <1 ppm: Sodium C10-15 Pareth Sulfate with residual ethylene oxide below 1 ppm is used in pharmaceutical cleansing agents, where it meets regulatory safety and purity requirements. |
Competitive Sodium C10-15 Pareth Sulfate prices that fit your budget—flexible terms and customized quotes for every order.
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Years of hands-on production have shown how critical reliable ingredients are in crafting household and personal care products. Sodium C10-15 Pareth Sulfate remains one of those backbone surfactants, favored by formulators and manufacturers across continents for liquid shampoos, bath gels, and household detergents. The chemical structure—an alkyl ether sulfate—stems from synthetic fatty alcohols, typically derived from petrochemical sources, whose carbon chains range between ten and fifteen atoms. This particular length, along with controlled ethoxylation, creates a balance between cleansing power and mildness, which chemists recognize as a challenge to achieve.
We’ve watched our production lines handle truckloads of this surfactant, in the 70% active paste form, each batch carrying a consistency we can stand behind. Quality matters every step of the way. Our lab team keeps every run in check, knowing that clear, odorless paste assures our downstream customers—brand manufacturers striving for bright foams and silky rinses without skin discomfort or residue.
The market often pits Sodium C10-15 Pareth Sulfate against older anionics, especially SLES (sodium laureth sulfate) and SLS (sodium lauryl sulfate). Our own internal comparative tests, as well as years of customer feedback, highlight some clear distinctions. Shorter chain alkyl sulfates like SLS develop strong cleaning but high irritation; SLES, made through harsher ethoxylation, can contain trace levels of unwanted by-products.
Sodium C10-15 Pareth Sulfate’s broader alkyl chain range gives it both robust foaming and improved skin feel. Finished formulas benefit from easier viscosity adjustment, even in high-electrolyte systems such as body washes or multipurpose cleaners. The low residual levels of 1,4-dioxane in our material, confirmed regularly via GC analysis, draw special attention from buyers concerned about regulatory limits and eco-certifications.
In industrial batch operations or automated filling lines, this sulfate paste proves less prone to gel blockages than some coconut-based alternatives. Our experience with scale-up and tank-to-tank transfers has led us to optimize the blend for easy pumpability and minimum sediment—simple details that save hours in a busy workshop.
Standard practices in our manufacturing always call for controlled dosing with slow agitation. The watertight packing, usually HDPE drums or totes, holds up well for storage without caking or phase separation if kept below thirty degrees Celsius. When we break bulk for dilution or neutralization, the component disperses smoothly without lumping, freeing up capacity for quick changeover between product runs.
In practical shampoo production, Sodium C10-15 Pareth Sulfate takes the base stage, often supplemented with betaines or amphoterics to dial down harshness and add creaminess to the lather. High-alkaline cleaning products—think hard-surface or kitchen gels—gain from its resistance to calcium soap precipitation, minimizing cloudy residue even in hard water regions. Interim batch tests confirm that the finished product meets both viscosity and clarity parameters, which become non-negotiable in commercial retail contracts.
Chemists in our development team frequently troubleshoot with brand partners on ingredient swaps and optimizations. Sodium C10-15 Pareth Sulfate comes up repeatedly for low skin irritation score in patch test panels, compared to similar anionics at equivalent actives. Our close monitoring of complaints, both within plant QA and in market returns, has tracked fewer allergy incidents since switching many liquid detergent lines over to this surfactant.
No two factories or blends run exactly alike. We often receive requests to fine-tune the average carbon chain, for example, maximizing C12 or C14 for specific market demands; some clients in the children’s personal care segment opt for slightly higher ethoxylate content, which we adjust at synthesis. Direct production access, without intermediaries, means we supply those variants in steady batches, every lot traceable to its starting material and reaction conditions.
Some formulators working in cost-sensitive categories try to push for higher active blends or cheaper alternatives. Our position, born out of repeated process audits, urges caution: substitutes like SLES or LAS can compromise foam quality and residue removal, setting off a domino effect of complaints down the line. We stick to our process parameters to guarantee reproducibility—the same reactivity, viscosity, and solids profile each cycle.
Hard scrutiny from policymakers means we track and reduce trace impurities. Our sodium C10-15 pareth sulfate achieves low 1,4-dioxane out of the reactor, usually under 10ppm by batch certificate, and downstream removal steps in our plant further cut this value. Many international brands we supply request this data annually for their own audits, especially with tightening safety standards in territories like California or the EU.
Waste water testing forms another routine part of our operation. Unlike some older sulfate chemistries, this ingredient rapidly biodegrades under activated sludge conditions, meeting OECD criteria in over 60% of standard checks. Our team partners closely with municipal authorities to guarantee that spent process water meets release norms, and batch logs show treatment values on every delivery.
Recyclable drum packaging marks another evolving effort we undertake. We avoid unnecessary foil liners in most shipments, focusing on high-density drum polymers that pass reuse compliance. We encourage large users—detergent bottlers, hotel amenities packers, industrial soap lines—to send back drums for our internal re-cleaning, supporting genuine circular practices rather than box-ticking.
Direct lines to our largest buyers—ranging from multinational toiletry giants to regional contract fillers—provide us with steady feedback. Many share stories from their own filling halls: one major handwash brand, struggling with microbubble streaks, switched to our higher purity paste and noticed a smoother finish within two weeks. Another industrial floor-wash client, previously weaning off traditional SLS, praised improved rinsability during pilot trials with our material, which translated into less downtime rinsing machines between cycles.
Small businesses with niche organic bath product lines often call with questions about trace by-products or odor grading. Our commitment remains the same: product purity and consistency must top the list. Real-world use beats theory on paper, so we maintain open channels for customer site visits and regular offsite analytical testing at third-party labs upon request.
Our advantage starts from controlling the synthesis, not relabeling from an anonymous source. Precursor selection sets the foundation: we opt for high-quality synthetic fatty alcohols with tracked batch histories, sourcing only from certified, transparent suppliers. Ethoxylation and sulfation steps follow closely monitored reactor programs—a hands-on approach ensures each run maintains specified EO levels and avoids side reactions that could impact skin compatibility.
After years working as middlemen or contract tollers for larger brands, we brought full-scale production in-house. That decision has paid off in flexibility and speed: client-specific tweaking, fast order turnaround, and batch-level documentation for traceability down to minute process variables. Customers visiting our site watch our automated controls track temperature, pH, and reactant feeds in real time.
We take pride in rapid batch segmentation: we run custom blends for key buyers with specific color or odor requirements, followed by sheer rinse-out and cleaning, then shift lines to the next product—all without inter-batch contamination. This sets us apart from traders and resellers, whose goods often present blend inconsistencies or trace cross-contamination, evidenced by unusual viscosity swings or off-odor complaints.
Every manufacturer encounters surprises, even after years with the same raw materials. Sudden shifts in fatty alcohol supply, holidays or customs delays, ethylene oxide pricing shocks, or local electricity outages—none of these crop up on spec sheets, but they disrupt production schedules. We weather these disruptions by keeping strategic reserves of base alcohols and maintaining a rolling buffer inventory on site, allowing uninterrupted output even during shortages.
Sometimes raw material lots arrive out of desired carbon distribution. We don’t hesitate to reject those shipments. Our relationships with core upstream vendors rest on tough standards and rigorous audits, not on lowest price. By closing the loop on supplier controls and investing in accurate trace analytics, we spot impurities early, bypassing entire problem runs before they reach downstream production.
Shipping logistics remain an everyday concern. Liquid surfactant paste doesn’t always travel kindly in extreme weather or overlong routes. We monitor shipping lanes, select dedicated chemical carriers, and ship by temperature-controlled containers if forecasts warrant. Our teams respond quickly to logistic alerts, prioritizing short lead times and direct-to-site delivery for critical clients, limiting dead time on filling lines or soap kettles.
Innovation emerges from small, daily changes. Our team reviews feedback from mixing operators, packaging lines, and quality departments every month. Dripping lids, foamy transfer pumps, residual carryover—all seem minor, until they snowball in high-speed filling. We continually tweak our packaging, shift to better vented drums, update valve connections, and monitor for trace residue to remove root causes of lost time or contamination.
Once, after a spike in customer complaints about haze in clear shampoos, we tracked the issue to trace sulfate cross-contamination introduced during line cleaning for another blend. That lesson drove us to segregate dedicated transfer lines and automate washing protocols between incompatible surfactant classes. The complaint rate dropped by over 90% the following quarter.
We test new degree-of-ethoxylation and chain length variants within our pilot plant, monitoring performance outcomes for both physical (foam, rinse) and biological (skin compatibility, degradability) properties. By doing so, we stay ahead of shifting customer demand and regulatory changes.
Technical guidance underpins most of our long-term relationships. Our staff provides both onsite and remote troubleshooting throughout the year. We know the quirks of various filling lines, agitator choices, batch reheating, and cold weather transfer from experience, not guesswork. Problems in viscosity, settling, or phase separation often trace back to how the surfactant is added, not the raw quality. Direct conversations with compounders, plus our own practical troubleshooting, solve these daily snags before they snowball into expensive recalls.
We supply both analytical certificates and real-use handling guidelines for all production lots, bridging lab data and field realities. This helps R&D teams base formulation changes on solid, real-world data points rather than catalog promises.
Wider trends matter. Regulatory changes, regional environmental demands, shifting consumer preferences—all affect both what we make and how we make it. Major multinationals now run deeper audits, asking for confirmation of carbon footprint, responsible sourcing, and end-of-life chemical fate. Our move to lower ethoxylate byproducts and improved sludge biodegradability keeps us ahead of rising environmental scrutiny.
Retailers and contract bottlers want simple ingredients with steady performance and low regulatory risk. Substitutes step up every few years, pushed by changing trends, yet Sodium C10-15 Pareth Sulfate keeps its place for a reason: no other synthetic surfactant yet offers its blend of foam, mildness, blendability across so many product lines, and regulatory comfort.
We continue investing in process controls, quality benchmarking, and joint development with customers. As clean-label and green chemistry trends push further, our R&D works on even purer sulfate variants and continues to reduce synthesis overheads—less emissions and less process waste. Our labs run constant small-batch improvements, drawing on operator input and formulation experience to create real advantage for every downstream user.
Every batch leaves our site after meeting self-imposed standards: purity, foam strength, stability, and safety. Lessons from the field sharpen every blend and keep us responsive to customers’ evolving needs. As a genuine producer, we know every drum’s journey from reactor to packing floor, through transit, and into countless personal care and cleaning products used daily around the world.
Daily manufacturing is never academic—the flow of Sodium C10-15 Pareth Sulfate through mixing tanks reflects real, shifting challenges. The phone rings with urgent orders or field queries. A real-world spill, a blocked agitator, or a new compliance deadline—these shape our focus as much as any theoretical improvement. By holding fast to our standards, sharing open knowledge with all partners, and owning the manufacturing process from start to finish, we keep products safe, high performing, and trusted by both industry and consumers.
