Our StoryJasmino GroupIndustriesInfrastructureNews
01
HAW + GBT Heritage · 40+ Years

Rubber
Linings

Chemical-resistant elastomer barriers applied to steel equipment — protecting critical assets in the harshest chemical environments on earth.

Scroll
What We Do

Protecting steel from the chemistry that would destroy it

Rubber lining is the application of a chemical-resistant elastomer barrier between steel substrates and aggressive process media. It's one of the most effective and cost-efficient methods for extending equipment life in chemical, mining, and power industries.

With HAW Linings and GBT (Germany) as part of the Jasmino group, we bring 40+ years of European lining expertise combined with the manufacturing scale of our Indian facilities.

Our linings go directly onto equipment we've designed and manufactured — meaning surface preparation, geometry access, and application schedule are all coordinated from the start. No handoff gaps.

Every lining is specified, applied, and inspected by the same team — not subcontracted.

The Jasmino Integrated Model
On The Shop Floor
On The Shop Floor
Where protection happens
HAW Linings · Germany · Hot Vulcanisation Bay
Material Selection

Right rubber for the right chemistry

Each elastomer has a specific resistance profile. We select and compound based on your exact process conditions.

Natural Rubber

Soft & Hard · 40–70 Shore A

The workhorse for mineral acid environments. Excellent abrasion resistance and elasticity. Hot-vulcanised application for maximum adhesion.

H₂SO₄HClH₃PO₄Brine
Max Temp
80°C
Thickness
3–12mm

Butyl Rubber

Isobutylene-Isoprene

Superior resistance to oxidising acids and excellent gas impermeability. Ideal for mixed acid environments and elevated temperatures.

HNO₃H₂CrO₄Mixed Acids
Max Temp
120°C
Thickness
3–8mm

CSM (Hypalon)

Chlorosulphonated PE

Broad chemical resistance with excellent weathering and ozone performance. The go-to for FGD systems in power plants.

FGDChlorineOzoneUV
Max Temp
130°C
Thickness
3–6mm

EPDM

Ethylene Propylene Diene

Outstanding resistance to steam, hot water, and dilute acids. Excellent flexibility at low temperatures. Widely used in water treatment.

SteamAlkalisDilute Acids
Max Temp
150°C
Thickness
3–10mm
Application Process

Seven steps to a defect-free lining

Every lining follows a controlled process from surface inspection to final spark testing. No shortcuts.

100%
Spark test coverage
01
Surface Inspection
Incoming steel surface assessed for weld quality, sharp edges, and surface profile. All weld grinding and corner radiusing completed before blasting.
02
Abrasive Blast Cleaning
Steel blasted to Sa 2½ (ISO 8501-1) with angular grit to achieve 50–75μm anchor profile.
Sa 2½50–75μmISO 8501-1
03
Primer Application
Bonding agent applied within 4 hours of blasting. Two-coat system chemically matched to the specific elastomer.
04
Sheet Laying & Consolidation
Calendered rubber sheet hand-applied with roller consolidation to eliminate trapped air. Seams overlapped and stitched.
05
Vulcanisation
Hot vulcanisation via autoclave or open cure. Temperature, pressure, and time monitored by data loggers.
140–160°C3–5 barData-logged
06
Spark Testing
100% holiday detection at specified voltage per lining thickness. Every square centimetre tested.
10kV per mm100% coverage
07
Final Inspection & Documentation
Hardness, thickness, adhesion pull-off tests. Complete documentation with test certificates and cure records.
Chemical Resistance

What resists what

Quick reference guide. For specific concentrations and temperatures, contact our corrosion engineers.

Chemical EnvironmentNatural RubberButyl (IIR)CSMEPDM
Sulphuric Acid (≤70%)ExcellentExcellentGoodGood
Hydrochloric AcidExcellentExcellentGoodGood
Nitric AcidExcellentGoodLimited
Phosphoric AcidExcellentExcellentExcellentGood
Sodium HydroxideGoodGoodGoodExcellent
Chlorine / HypochloriteLimitedExcellentGood
FGD SlurryGoodGoodExcellentExcellent
Steam / Hot WaterLimitedGoodGoodExcellent
Excellent
Good
Limited
Case Study

600MW FGD Absorber —
Full CSM Lining Package

Complete rubber lining of a 16m diameter FGD absorber for a coal-fired power plant in Southeast Asia. 2,400m² completed in 8 weeks — zero defects on final spark test.

2,400
Total Lined Area
16m
Vessel Diameter
0
Post-Cure Defects

Ready to discuss your project?

Share your process conditions and we'll specify the right lining system.

97%reorder rate