Workshop Lithium Silicate Floor Hardener Odorless Lithium Silicate Concrete Densifier
Workshop Lithium Silicate Floor Hardener
,Odorless Lithium Silicate Concrete Densifier
,Lithium Silicate Floor Hardener Odorless
Lithium Concrete Hardener Product Data Sheet
Product Introduction
Lithium Concrete Hardener (also known as Lithium Sealed Hardener, Lithium Densifier) is a water-based liquid hardener composed primarily of nano-scale lithium silicate materials. It penetrates deeply into the concrete surface (penetration depth up to 3-7mm) and chemically reacts with free calcium ions in the concrete to form insoluble calcium silicate hydrate (C-S-H), which fills the capillary pores, creating a dense, hard, dust-proof permanent hardened layer. The product is VOC-free, environmentally friendly, and non-toxic. Treated concrete surfaces remain breathable, form no surface film, and will not peel or yellow .
Performance Characteristics
Deep Penetration: Lithium ions have smaller molecular size than sodium/potassium ions, enabling deeper penetration (up to 7mm) and more complete reaction
Permanent Hardening: Irreversible chemical reaction with concrete, hardness increases over time and with use
Effective Dustproofing: Completely seals concrete capillaries, eliminates floor dusting problems
Enhanced Wear Resistance: Wear resistance increased by 78-133%, significantly improved surface hardness
High Impact Resistance: Impact resistance ≥10-60 Nm, meeting industrial floor requirements
Impermeability Protection: Effectively resists water, oil, and chemical penetration; reduces chloride ion ingress; 24h water absorption reduction ≥80%
Gloss Enhancement: Achieves high-gloss mirror finish when combined with polishing process; gloss improves with traffic and maintenance
Non-Film Forming: No surface coating formed, no risk of peeling, flaking, or yellowing
Breathability: Maintains concrete's breathability, allows moisture vapor to escape, prevents floor sweating
ASR Resistance: Lithium ions effectively inhibit alkali-silica reaction (ASR), extending concrete service life; will not trigger or contribute to surface ASR
Zero VOC: VOC content 0 g/L, meets LEED green building certification requirements
Fast Curing: Traffic ready within 1-4 hours after treatment
Easy Application: One-step application, no scrubbing, no flushing, no caustic wastewater
Scope of Application
Industrial Floors: Warehouses, distribution centers, production workshops, heavy-load forklift aisles, manufacturing plants
Commercial Spaces: Supermarkets, shopping malls, exhibition halls, retail stores, office buildings, banks
Public Facilities: Hospitals, schools, universities, museums, sports arenas, airports, convention centers
Cold Storage/Freezers: Resists freeze-thaw cycle damage
Food Processing Plants: Odorless, non-toxic, easy to clean, USDA accepted
Parking Facilities: Car showrooms, garages, service areas
New/Old Concrete Floors: Suitable for newly poured or existing floor renovation
Emery Aggregate Floors: As surface sealing treatment
Polished Concrete Floors: Enhances surface hardness and gloss, extends polished finish life
Precast Concrete Elements: Dust-proofing treatment
Technical Specifications
| Parameter | Technical Specification | Test Standard/Notes |
| Appearance | Colorless or light yellow transparent liquid | |
| pH Valu | 11.0-12.0 | Alkaline |
| Density (25°C) | 1.10-1.20 g/cm3 | |
| Solids Content | 14-24% | Varies by formulatio |
| VOC Content | 0 g/L | Environmentally compliant |
| Abrasion Resistance Increase | 78-133% | Compared to untreated concrete |
| Penetration Depth | 5-7 mm | |
| Impact Resistance | ≥10-60 Nm (Class II-III) | EN ISO 6272-1 |
| Bond Strength | ≥1.5-4.4 N/mm2 | EN 1542 |
| Water Absorption Coefficient | <0.1-0.03 kg/m2·h | EN 1062-3 |
| Molecular Formula | Li2O3Si | CAS: 12627-14-4 |
| Shelf Life | 12 months | Unopened, store at 5°C-35°C |
| Application Temperature | 5°C-40°C | |
| Drying Time (20°C) | Approx. 2 hours touch dry, 3-7 days fully cured |
Mechanism of action
The core technology of Lithium Silicate Concrete Hardener lies in the chemical reaction between lithium silicate and free calcium:
1,Penetration: Lithium ions (Li*) have small molecular size (smaller than sodium/potassium ions), enabling deep penetration into concrete capillaries (up to 7mm)
2,Reaction: Li2SiO3 + Ca(OH)2→ CaSiO3 (C-S-H) + 2LiOH Lithium silicate reacts with calcium hydroxide in concrete to form insoluble calcium silicate (calcium silicate hydrate gel)
3,Filling: The generated C-S-H gel fills capillary pores, densifying the concrete
4,Hardening: Reduced porosity significantly improves surface hardness and wear resistance
5,Continuous Enhancement: Reaction continues over time, performance continuously improves; gloss increases with traffic and maintenance
Advantages over traditional sodium/potassium-based hardeners:
Smaller lithium ions enable deeper penetration
More stable reaction products, no efflorescence
Does not increase alkali content, effectively inhibits ASR risk
Higher surface gloss after treatment
Will not absorb water or contribute to floor sweating
Construction process
Newly Poured/Uncured Concrete Floors
1,Curing Period: Allow concrete to cure for minimum 72 hours, optimally 7 days before application
2,Surface Condition: Surface should be matte dry with no standing water, after power troweling
3,First Application: Apply uniformly with low-pressure sprayer, coverage 0.05-0.10 L/m2 approx. 10-20 m2/L), avoid puddling
4,Penetration Reaction: Keep surface wet for 5-10 minutes; reapply to areas that dry too quickly
5,Remove Excess: Remove excess material with vacuum or mop; do not allow puddling
6,Curing: After drying, proceed with specified curing procedure (e.g., curing compound)
7,Second Application (Optional): For highly absorbent floors, apply second coat
Existing/Cured Concrete Floors
1,Surface Preparation: Thoroughly clean surface, remove oil, grease, old coatings, curing compounds that may inhibit penetration
2,Grinding: For polished finish, open grind with metal or resin diamond tools
3,Cleaning: Thorough vacuuming to ensure clean, dry surface
4,Hardener Application: Apply as above method, coverage 0.05-0.10 L/m2, keep wet for 5-10 minutes
5,Remove Excess: Promptly remove excess material to prevent white residue formation
6,Drying: Allow 1-2 hours for natural drying
7,Residue Removal: Remove dried powder residue using stiff broom, power sweeper, or floor scrubbing machine
8,Polishing (Optional): For high gloss, progressive polishing with different grit sizes, or use high-speed burnisher (2000-2200 rpm) for dry polishing
Precautions
DO NOT Dilute: Product is ready-to-use, do not dilute with water
Application Temperature: 5°C-40°C, concrete temperature not lower than 4℃
Avoid Freezing: Product freezes below 0°C; can be used after thawing and mixing
Protection: Wear protective goggles and gloves during application; avoid skin and eye contact
White Residue: Over-application causing puddling may leave white residue upon drying; must be removed immediately
Ventilation: Do not cover treated area with plastic; use breathable covers if needed
Quantity and Packaging
| Floor Type | Coverage | Notes |
| New machine-troweled floors | 0.05-0.10 L/m2 (10-20 m2/L) | |
| Existing/cured concrete floors | 0.05-0.11 L/m2 (9-14 m2/L) | Depends on surface porosity |
| Rough/broomed concrete | 0.10-0.16 L/m2 (6.1-10 m2/L) |
Packaging Specifications:
5 gallon/18.9-20 kg pail
25L/200L container
55 gallon/200-220 kg drum
275 gallon/1000 kg IBC tote
300kg plastic/steel drum
Storage Conditions:
Cool, dry place away from direct sunlight
Keep sealed to prevent contamination
Storage temperature: 5°C-35°C
Shelf Life: 12 months (unopened original packaging)
Compared with other concrete hardeners
| Comparison | Lithium Silicate Hardener | Sodium/Potassium Hardener | Epoxy/Polyurethane Coating |
| Penetration Depth | 5-7mm (deep) | 2-5mm | Surface film |
| Reaction Mechanism | Permanent chemical | Permanent chemical | Physical adhesion |
| Surface Film | No film, no peeling | No film, no peeling | Film, may peel |
| Dustproofing | ★★★★★ | ★★★★ | ★★★★★ |
| Wear Resistance Increase | 78-133% | Moderate | Surface protection |
| Gloss | Medium-High (polishable) | Medium | High |
| Chemical Resistance | Good | Good | Excellent |
| Yellowing Resistance | Excellent | Good | May yellow |
| ASR Resistance | Effectively inhibits | May contribute | N/A |
| Efflorescence Risk | Low | High | N/A |
| Slip Resistance | Maintains texture | Maintains texture | May reduce |
| Application Complexity | Simple | Simple | Complex |
| New/Old Floors | Both | Both | Mainly new |
| VOC Content | 0 g/L | Low VOC | Medium-High VOC |
| Traffic Opening Time | 1-4 hours | Several hours | 24-72 hours |
| Cost | Medium-High | Medium | High |
Product execution standards
EN 1504-2:2004 Products and systems for protection and repair of concrete structures — Surface protection systems — Impregnation (Principle 1, method 1.2; Principle 5, method 5.2)
JC/T 2158-2012 "Penetrating Liquid Hardener"
ASTM D4060 Abrasion Resistance Test
EN ISO 6272-1 Impact Resistance Test
EN 1542 Bond Strength Test
EN 1062-3 Water Absorption Coefficient Test
Complies with U.S. EPA, CARB, SCAQMD VOC regulations
USDA Accepted (for food processing facilities)
Contributes to LEED Green Building Certification (IEQ credit)
Meets NFSI slip resistance requirements
