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Home / Lubricant Additive Components / Ashless Dispersants / Polyisobutylene Monosuccinimide

Polyisobutylene Monosuccinimide

High-nitrogen polyisobutylene monosuccinimide ashless dispersant — TBN 48 mgKOH/g with 2.1% nitrogen, a chlorine-free single-succinimide grade for strong low-temperature sludge and varnish control.

TBN 48 mgKOH/g
Nitrogen 2.1 %
Viscosity at 100°C 300 mm²/s
Flash Point >180 °C

Technical Specifications

PropertyUnitTypical ValueTest Method
AppearanceBrown red thick liquidVisual
TBNmgKOH/g48ASTM D2896
Nitrogen%2.1ASTM D5762
Viscosity at 100°Cmm²/s300ASTM D445
Flash Point°C>180ASTM D93
Density at 20°Ckg/m³930ASTM D4052

* Typical values from batch production. Batch-specific COA available on request.

Technical content reviewed by the CheMost additives team · Specifications last reviewed

Molecular Structure

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Interactive 3D model of the succinimide head group — the molecular building block that anchors the polar end of the dispersant. Structure from PubChem, rendered with 3Dmol.js.

Molecular structure · ashless dispersant (mono)

PIB–succinimidyl · polyamine

A single succinimide group on a polyisobutylene chain, linked through a polyamine — the high-nitrogen polar head that anchors soot and sludge while the oil-soluble PIB tail keeps them dispersed.

What Is Polyisobutylene Monosuccinimide (T1351)?

CheMost T1351 is a polyisobutylene mono-succinimide ashless dispersant, produced by a thermal, chlorine-free process from highly reactive polyisobutylene. “Mono” means a single succinimide group is attached to each PIB chain through a polyamine — distinct from the two-armed bis-succinimides in the rest of the range.

The single, amine-rich head gives T1351 the highest nitrogen (2.1%) and TBN (48 mgKOH/g) in the CheMost succinimide family. That high polar-site density makes it a strong low-temperature dispersant: the head adsorbs onto sludge, varnish precursors and soot while the oil-soluble PIB tail keeps them suspended — without contributing metal or sulphated ash.

How T1351 Works

High-nitrogen low-temperature dispersancy

A high amine content (2.1% N) provides abundant polar sites that latch onto low-temperature sludge and varnish precursors from stop-start and short-trip service, holding them dispersed before they can deposit.

Soot & deposit suspension

The PIB tail keeps captured soot and oxidation by-products finely suspended in the oil, limiting agglomeration, deposits and the viscosity rise it causes.

High-temperature carbon control

Inhibits high-temperature carbon and lacquer formation, helping keep pistons and hot surfaces clean through the drain interval.

Ashless, high N & TBN

Delivers dispersancy with no metal or sulphated ash — suited to low-SAPS formulations — while the mono structure concentrates nitrogen and base in a single, efficient head.

The CheMost Ashless Dispersant Family — Mono / Bis / Borated / HMW

T1351 is the high-nitrogen monosuccinimide of the range. The four recognised succinimide dispersant types differ in nitrogen, molecular weight and boron modification:

TypeCheMost grade(s)Distinctive featureBest for
MonosuccinimideT1351Single succinimide group, high nitrogen (2.1%), TBN 48Low-temperature sludge & varnish, gasoline/PCMO
BissuccinimideT1428 · T1428STwo succinimide groups; standard & high-N gradesBalanced soot & sludge control, PCMO & HDDEO
Boron-modifiedT1428B · T1620BBorated head → antioxidancy, antiwear, seal compatibilityLow-SAPS, GDI/turbo PCMO, seal-sensitive oils
High molecular weightT1620Large PIB tail → superior soot dispersancyHigh-soot heavy-duty diesel

Need the two-armed grades? See PIB bissuccinimide (T1428) and HMW PIB bissuccinimide (T1620).

Applications

T1351 is used as the high-nitrogen ashless dispersant component in formulations targeting the categories below.

Passenger-car & gasoline engine oils

Controls low-temperature sludge and varnish from stop-start and short-trip duty, supporting cleanliness in oils targeting API S-category and ACEA gasoline requirements.

Diesel engine oils

Adds high-nitrogen dispersancy to suspend soot and combustion by-products in mixed-fleet and light-duty diesel formulations.

Industrial lubricants

Provides deposit and sludge control where oxidation by-products would otherwise accumulate.

Finished-oil OEM approvals (e.g. API, ACEA and OEM engine-test sequences) are held by the fully formulated oil, not by an individual additive component.

Treat Rate

The T1351 technical data sheet gives a total treat range of 2.0–10.0 wt% to achieve the desired performance. Indicative starting points by application:

ApplicationIndicative treat rate
Gasoline / passenger-car engine oils2–6 wt%
Diesel engine oils3–8 wt%
Industrial lubricants2–4 wt%

In a finished engine oil the dispersant is normally the highest-treat additive — total dispersant content typically runs 3–7 wt%, around half of the whole additive package — so T1351’s level is set together with any co-dispersant. Its high nitrogen makes it an efficient low-temperature dispersant, but very high nitrogen is balanced against fluoroelastomer (Viton) seal compatibility across the dispersant slate.

Indicative starting points within the TDS 2.0–10.0% range, not fixed dosages. T1351 is one component of the additive system; the final treat rate must be confirmed against the soot/sludge load, the co-additive package and the target specification. CheMost can provide formulation and treat-rate support on request.

Formulating With T1351 — Complementary Additives

A dispersant covers contaminant suspension; a balanced crankcase package pairs T1351 with additives that cover the rest of the envelope:

Detergents & TBN boosters

T1351 suspends low-temperature sludge and soot; overbased detergents neutralise combustion acids and clean hot surfaces. The detergent–dispersant balance is the backbone of every crankcase package.

ZDDP antiwear additives

ZDDP adds antiwear protection and secondary antioxidancy; dispersant and ZDDP levels are balanced together, since dispersant can interact with the ZDDP film at metal surfaces.

Antioxidants

Phenolic and aminic antioxidants slow the oxidation that forms sludge — working alongside the dispersant’s deposit control.

Borated dispersants

Where extra antioxidancy, antiwear or seal compatibility is needed, a borated grade such as T1428B can complement or partly replace T1351 in the dispersant slate.

Documentation, Qualification & Regulatory Support

Standard documentation — Certificate of Analysis (COA, per shipment), Technical Data Sheet (TDS) and Safety Data Sheet (SDS, GHS/CLP) — is provided. The full TDS is available on request rather than as a public download. Additional support is available on request:

Regulatory documentation

REACH, TSCA and country-specific market-registration documentation support available on request.

Third-party inspection

SGS / Intertek / BV pre-shipment inspection can be arranged on request.

Custom grades & packaging

Custom grades and packaging — metal drum, IBC, ISO tank.

Formulation support

Treat-rate calculation and formulation guidance from our technical team.

Packaging & Supply

T1351 is stocked and shipped worldwide, with a typical lead time of 1–15 days and a 36-month shelf life at ambient temperature. Samples and quotations are answered within 12 hours.

Packaging

170 kg metal drum · 900 kg IBC tank.

Minimum order

1 drum or 1 IBC — no minimum order value.

Incoterms

FOB · CIF · EXW, to suit your freight arrangement.

Loading ports

All major Chinese ports.

Frequently Asked Questions

What is polyisobutylene monosuccinimide (T1351)?

It is an ashless (metal-free) dispersant in which a single succinimide group is attached to a polyisobutylene chain through a polyamine, made by a chlorine-free thermal process. The single amine-rich head gives high nitrogen (2.1%) and TBN (48 mgKOH/g), making it a strong low-temperature sludge and varnish dispersant.

What is the difference between mono- and bis-succinimide dispersants?

A monosuccinimide has one succinimide group per PIB chain; a bis-succinimide has two, bridged by a polyamine. Mono grades like T1351 tend to carry higher nitrogen and TBN per molecule and excel at low-temperature sludge/varnish control; bis grades (e.g. T1428, T1620) offer broad soot dispersancy and are often chosen for diesel.

Why is the chlorine-free process important?

T1351 is made by a chlorine-free thermal route, avoiding residual chlorine in the finished additive — consistent with the industry trend toward low-chlorine lubricant additives. A full SDS is provided with the documentation.

What treat rate should I use for T1351?

The TDS gives a total range of 2.0–10.0 wt%. The right level depends on the soot/sludge load, the co-additive package and the target specification; our technical team can assist with the calculation.

How is T1351 supplied, and how fast can I get a sample?

T1351 is supplied in 170 kg metal drums and 900 kg IBC tanks and shipped worldwide, with a 36-month shelf life. As a manufacturer and sourcing partner (Est. 2013), CheMost responds to sample and quotation requests within 12 hours.

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