Publish Time: 2026-05-27 Origin: Unionchem
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Most people working in food ingredients have heard of xanthan gum. Fewer have heard of welan gum — and yet, in the industries where it is used, welan gum is often the only product that can do the job.
Welan gum is not a food ingredient. It does not show up in salad dressings or plant-based beverages. What it does is hold concrete together as it flows through a complex reinforcement structure, keep cement particles suspended in a slurry pumped thousands of meters underground, and maintain stable viscosity in drilling fluids operating at temperatures where most other biopolymers have already broken down.
If you are a formulator, procurement professional, or technical buyer working in construction chemicals, oil and gas, or specialty industrial fluids, this guide explains what welan gum is, why it performs the way it does, and how to evaluate it for your application.
At Unionchem, welan gum is one of our core industrial biopolymer products:Welan Gum — Unionchem Product Page
For our full product range, visit:All Products
Welan gum is a high-molecular-weight anionic polysaccharide produced by microbial fermentation of the bacterium Alcaligenes sp. It belongs to the same family of sphingan biopolymers as gellan gum and diutan gum, but it has a distinct chemical structure that gives it a unique combination of properties not found in other commercially available biopolymers.
The key characteristics that define welan gum as a functional material are:
Exceptional thermal stability — maintains viscosity and rheological performance at temperatures up to 150°C or higher
Strong alkaline stability — performs reliably in high-pH cementitious systems where most biopolymers degrade
High shear resistance — viscosity recovers after shear, making it suitable for pumped and mixed systems
Superior suspension power — holds dense particles (cement, barite, aggregates) in suspension under demanding conditions
Compatibility with cementitious and brine systems — functions effectively in the presence of calcium, sodium, and other electrolytes that disrupt many other polymers
These properties — particularly the combination of high-temperature stability, alkaline resistance, and suspension power — are what make welan gum uniquely suited to its primary application areas.
Like xanthan gum and gellan gum, welan gum is produced through controlled microbial fermentation. Alcaligenes sp. bacteria are cultivated in a fermentation medium where they produce the polysaccharide as a metabolic product.
After fermentation, the broth is processed to recover and purify the welan gum, which is then dried and milled into a fine powder for commercial use.
The fermentation origin of welan gum is relevant for several practical reasons:
It is a defined, consistent product — unlike natural gums extracted from plant sources, fermentation-derived biopolymers can be produced to tight specifications with high batch-to-batch consistency
It is not dependent on agricultural harvests — supply is not subject to the crop variability that affects guar gum, locust bean gum, and other plant-derived hydrocolloids
It can be produced to high purity levels, which matters for technically demanding industrial applications
To understand why welan gum is used in the applications it is, it helps to compare it directly with the biopolymers it most often replaces or competes with.
Xanthan gum is the most widely used microbial biopolymer in both food and industrial applications. In many oilfield and construction applications, xanthan gum is the first product formulators consider. But xanthan gum has performance limits that welan gum does not.
Property | Welan Gum | Xanthan Gum |
Temperature stability | Up to ~150°C+ | Degrades above ~80–90°C in harsh conditions |
Alkaline (high pH) stability | Excellent — stable in cement systems | Limited — degrades in high-pH environments |
Suspension in cement slurries | Excellent | Poor to moderate |
Brine / electrolyte tolerance | High | Good |
Shear recovery | Good | Excellent |
Food applications | No | Yes |
Primary industrial use | SCC, cementing, drilling | Drilling fluids, fracturing, food |
Cost | Higher | Lower |
The critical difference is alkaline stability. Cement systems operate at pH 12 to 13. Xanthan gum degrades rapidly under these conditions. Welan gum does not. This is why welan gum — not xanthan gum — is the standard biopolymer additive for self-compacting concrete and oil well cementing.
For a complete overview of xanthan gum and its applications, see:Xanthan Gum — Unionchem Product Page
Hydroxyethyl Cellulose (HEC) is another widely used rheology modifier in construction and industrial applications. It is non-ionic, which gives it good compatibility with many systems, but it has significant limitations compared to welan gum in demanding environments.
Property | Welan Gum | HEC |
Temperature stability | High (up to ~150°C+) | Moderate (degrades at elevated temperatures) |
Alkaline stability | Excellent | Moderate |
Suspension power | Superior | Moderate |
Shear resistance | Good | Good |
Ionic charge | Anionic | Non-ionic |
Primary use | SCC, cementing, high-performance systems | Paints, coatings, standard construction, personal care |
Cost | Higher | Lower |
HEC is an excellent choice for standard construction and coating applications. For high-temperature, high-pH, or technically demanding systems where suspension and stability are critical, welan gum provides performance that HEC cannot match.
For more on HEC and its applications, see:Hydroxyethyl Cellulose (HEC) — Unionchem Product Page
Welan gum has three primary application areas: construction and building materials, oil and gas, and specialty industrial fluids. In each area, it is used because it delivers performance that conventional thickeners and biopolymers cannot provide under the same conditions.
Self-compacting concrete is one of the most technically demanding applications in modern construction. SCC is designed to flow and consolidate under its own weight, filling complex formwork and passing through dense reinforcement without vibration — while maintaining complete stability and avoiding segregation of aggregates or bleeding of water.
Achieving this requires a concrete mix that is simultaneously:
Highly fluid — able to flow freely without external vibration
Highly stable — resistant to segregation of aggregates and paste
Consistent — maintaining uniform composition throughout the pour
This is a fundamentally difficult rheological challenge. Conventional thickeners either restrict flow or fail to prevent segregation adequately. Welan gum solves this challenge through its unique rheological profile.
Welan gum is a viscosity-modifying admixture (VMA) in SCC formulations. At very low dosage levels (typically 0.01% to 0.03% by weight of cement), it:
Creates a structured, cohesive mix that resists segregation of coarse aggregates
Reduces bleeding by improving water retention within the cement paste
Maintains flowability — the mix remains fluid and self-leveling
Provides thixotropic behavior — the concrete flows under the shear of pumping and placement, then regains stability at rest
Remains stable in the high-pH environment of fresh cement (pH 12–13)
The result is a concrete that flows like a liquid but behaves like a stable, uniform mix — the defining characteristic of high-quality SCC.
The alkaline stability of welan gum is the decisive factor. Fresh cement paste has a pH of 12 to 13. Most organic polymers — including xanthan gum, guar gum, and many cellulose ethers — degrade under these conditions, losing their rheological function within hours. Welan gum maintains its performance throughout the mixing, transport, and placement window.
Combined with its high suspension power and shear-recovery behavior, this makes welan gum one of the most effective VMAs available for SCC applications.
Oil well cementing is the process of placing cement slurry in the annular space between the well casing and the formation, where it sets to provide zonal isolation, structural support, and well integrity.
Cementing operations present extreme conditions for any additive:
Temperatures can reach 150°C or higher in deep wells
The cement slurry is highly alkaline (pH 12–13)
Dense weighting materials (barite, hematite) must remain in suspension
The slurry must remain pumpable over extended placement times
Fluid loss must be controlled to prevent slurry dehydration
Welan gum addresses these requirements as a cement slurry rheology modifier and suspension agent.
Suspension — prevents settling of cement particles and weighting agents during placement, ensuring uniform slurry density and preventing channeling
Fluid loss control — reduces filtrate loss from the slurry into permeable formations, maintaining slurry integrity
Rheology control — provides consistent pumpability over the placement window, even at elevated temperatures
Thermal stability — maintains performance at the high temperatures encountered in deep wells, where xanthan gum and many other additives have already degraded
Alkaline compatibility — remains functional in the high-pH cement environment throughout the cementing operation
Welan gum is also used in spacer fluids — the fluids pumped ahead of the cement slurry to displace drilling mud from the wellbore and provide a clean interface for cement bonding. Spacer fluids must be compatible with both drilling mud and cement, and must maintain stable rheology under the temperature and pressure conditions of the wellbore. Welan gum's stability profile makes it well suited to this application.
In water-based drilling fluids, welan gum functions as a high-temperature viscosifier and rheology modifier.
While xanthan gum is the standard biopolymer viscosifier for most water-based mud applications, welan gum is the preferred choice when drilling conditions involve:
High formation temperatures — where xanthan gum degrades and loses viscosity
High-salinity or brine-based systems — where welan gum's electrolyte tolerance provides more stable performance
Deep wells — where the combination of temperature and pressure demands a more thermally stable polymer
Provides stable viscosity at elevated temperatures, maintaining cuttings transport and wellbore stability
Contributes to fluid loss control in high-temperature sections
Maintains rheological performance in saline and brine-based systems
Supports suspension of weighting materials (barite) in the mud system
For standard drilling conditions, xanthan gum or PAC are typically more cost-effective choices. Welan gum is the technically justified upgrade when temperature or salinity conditions exceed the performance limits of conventional additives.
For more on drilling fluid additives, see:Polyanionic Cellulose (PAC)Carboxymethyl Cellulose (CMC)CMC vs PAC for Drilling Fluids: Which One Should You Use?
Shotcrete (spray-applied concrete) is used in tunnel construction, slope stabilization, underground mining, and structural repair. The material is pneumatically projected onto a surface at high velocity, where it must adhere immediately and resist slumping or falling away.
Welan gum improves shotcrete performance by:
Increasing adhesion — the structured rheology of welan gum helps the material bond to the substrate immediately on impact
Reducing rebound — less material bounces off the surface, improving efficiency and reducing waste
Improving cohesion — the mix maintains its integrity during spraying without segregating
These properties make welan gum a valuable admixture in both wet-mix and dry-mix shotcrete formulations.
In dry-mix mortar formulations — including tile adhesives, repair mortars, and specialty grouts — welan gum contributes to:
Improved workability and open time
Water retention during application
Suspension of dense fillers and aggregates
Consistent performance in high-pH cementitious systems
For specialty grouts used in structural repair, post-tensioning, and precision grouting applications, welan gum's combination of suspension power and alkaline stability makes it a technically superior choice compared to standard cellulose ethers in demanding formulations.
Property | Performance Level | Why It Matters |
Temperature stability | Up to ~150°C+ | Essential for deep well cementing and high-temperature drilling |
Alkaline stability (high pH) | Excellent (stable at pH 12–13) | Required for all cementitious applications |
Suspension power | Superior | Prevents aggregate segregation in SCC; prevents particle settling in cement slurries |
Shear-thinning / thixotropy | Good | Allows flow during pumping/mixing, stability at rest |
Electrolyte / brine tolerance | High | Maintains performance in saline drilling and cementing systems |
Water retention | Excellent | Reduces bleeding in concrete; controls fluid loss in cementing |
Effective use concentration | Very low (0.01%–0.05%) | High cost-in-use efficiency |
Batch consistency | High (fermentation-derived) | Reliable performance across production runs |
One of welan gum's most commercially important characteristics is its high efficiency at very low dosage levels.
Typical use concentrations:
Application | Typical Dosage (by weight of cement or system) |
Self-compacting concrete (SCC) | 0.01% – 0.03% bwoc |
Oil well cement slurry | 0.05% – 0.3% bwoc |
Drilling fluid | 0.1% – 0.5% by weight of fluid |
Spacer fluid | 0.1% – 0.3% |
Shotcrete / spray mortar | 0.02% – 0.1% bwoc |
These low dosage levels mean that even though welan gum has a higher per-kilogram cost than conventional thickeners, the cost-in-use can be highly competitive — particularly when the alternative is a product that fails to perform under the actual conditions of the application.
For procurement teams and technical buyers, sourcing welan gum for industrial applications involves several important evaluation points.
Viscosity grade and consistency (confirm viscosity measurement method and conditions)
Purity and moisture content
Particle size distribution (relevant for dry-mix applications)
Batch-to-batch consistency
Technical Data Sheet (TDS) with viscosity data at relevant temperatures
Certificate of Analysis (COA) per batch
Safety Data Sheet (SDS/MSDS)
Relevant certifications for your market and application
Is the supplier a manufacturer or a trading company?
Can they provide consistent quality across multiple shipments?
Do they have application knowledge in SCC, cementing, or drilling?
Can they support export documentation and global logistics?
Can they provide free lab samples for formulation testing?
For guidance on evaluating industrial chemical suppliers, see:Manufacturer or Trader? How to Choose a Reliable Hydrocolloid Supplier
Buyers researching welan gum will sometimes encounter diutan gum, another sphingan biopolymer with similar application areas. Both are used in SCC and oilfield cementing, and both offer high-temperature and alkaline stability.
The key differences are:
Diutan gum generally offers higher viscosity at equivalent concentrations and stronger suspension in some systems, but at a significantly higher cost
Welan gum provides an excellent balance of performance and cost for most SCC, cementing, and drilling applications, and is the more widely used product in commercial formulations
For most industrial buyers, welan gum represents the practical and cost-effective choice within the sphingan biopolymer family for demanding construction and oilfield applications.
Unionchem supplies welan gum from our manufacturing base in China to industrial customers globally, with a focus on consistent quality, technical support, and reliable bulk export.
Grades optimized for self-compacting concrete (SCC)
Grades for oil well cementing and spacer fluids
Grades for drilling fluid applications
Full technical documentation: TDS, COA, SDS
Free lab samples for formulation and qualification testing
Technical support for application development
For full product details and to request a sample or quote, visit:Welan Gum — Unionchem Product Page
Buyers working with welan gum in construction and oilfield applications may also be interested in:
Xanthan Gum — standard biopolymer viscosifier for drilling fluids, fracturing fluids, and food applications
Polyanionic Cellulose (PAC) — high-performance fluid loss reducer for demanding water-based drilling fluids
Carboxymethyl Cellulose (CMC) — versatile cellulose derivative for standard drilling, food, and industrial applications
Hydroxyethyl Cellulose (HEC) — non-ionic rheology modifier for paints, coatings, and standard construction applications
Gellan Gum — high-performance gelling and suspension agent for food, beverage, and specialty applications
Welan gum is a specialty biopolymer that occupies a specific and important position in industrial formulation: it delivers the combination of high-temperature stability, alkaline resistance, and superior suspension power that most other biopolymers and thickeners cannot provide under the same conditions.
Enable self-compacting concrete to flow and consolidate without vibration while resisting segregation
Stabilize oil well cement slurries at high temperatures and prevent particle settling during placement
Maintain stable viscosity and suspension in high-temperature drilling fluids
Improve adhesion and reduce rebound in shotcrete applications
Enhance workability and water retention in specialty grouts and dry-mix mortars
It is not the lowest-cost option in any of these categories. It is the right option when the conditions of the application demand performance that conventional thickeners cannot deliver.
For buyers evaluating welan gum for the first time, the most important step is to test it in your specific system — because its performance advantage over alternatives is most clearly demonstrated under the actual conditions of your application.
Explore Unionchem's welan gum solutions:Welan Gum — Unionchem Product Page
Welan gum is used primarily in self-compacting concrete (SCC) as a viscosity-modifying admixture, in oil well cementing as a suspension and rheology agent, in high-temperature drilling fluids as a viscosifier, and in shotcrete and specialty grout applications. Its defining advantage is its combination of high-temperature stability, alkaline resistance, and superior suspension power.
Fresh cement operates at pH 12–13. Xanthan gum degrades rapidly under these alkaline conditions, losing its rheological function. Welan gum is stable at high pH, maintaining its viscosity and suspension performance throughout the mixing, transport, and placement window. This alkaline stability is the key reason welan gum is the preferred biopolymer VMA for SCC.
Welan gum maintains stable rheological performance at temperatures up to approximately 150°C or higher, depending on the system. This makes it suitable for deep well cementing and high-temperature drilling applications where most other biopolymers have already degraded.
Both are microbial fermentation-derived biopolymers, but they have very different performance profiles. Xanthan gum is the standard choice for food, standard drilling fluids, and applications where temperature and pH are within moderate ranges. Welan gum is the choice for high-temperature, high-pH, and cementitious applications where xanthan gum cannot maintain performance. Welan gum is also more expensive.
Both are sphingan biopolymers with similar application areas. Diutan gum generally offers higher viscosity at equivalent concentrations but at a significantly higher cost. Welan gum provides an excellent balance of performance and cost for most commercial SCC, cementing, and drilling applications.
Typical dosage in SCC is 0.01% to 0.03% by weight of cement (bwoc). Welan gum is highly effective at very low concentrations, which contributes to competitive cost-in-use despite its higher per-kilogram price compared to conventional thickeners.
Yes. Unionchem supplies welan gum in grades optimized for SCC, oil well cementing, spacer fluids, and drilling fluid applications, with full technical documentation and free lab samples. See: Welan Gum — Unionchem Product Page
Unionchem supplies Welan Gum for self-compacting concrete, oil well cementing, drilling fluids, and specialty industrial applications — with consistent quality, full technical documentation, and reliable global supply from China.
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Contact us:sales@unionchem.com.cn
Phone: +86-13953383796 | +86-533-7220272
Website:www.unionchem.com.cn
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