S1 Nano-Tech Treatment
Nanosilica Molecular Structure Modification · Shingles · Concrete · Wood · Membranes
A penetrating nanosilica treatment — 1,000× smaller than a micrometer — that permanently modifies the molecular structure of asphalt, concrete, and wood from the inside out. Unlike traditional sealants that simply coat the surface with oil, S1 particles enter the substrate’s pores and trigger a chemical reaction, forming new cross-links that bond granules together into a unified, hydrophobic barrier. One treatment extends asset lifespan by 15+ years.
| Lifespan Extension | 15 – 1,000 Years |
| Cracking & Aging Reduction | 68% – 100% |
| Active Technology | Nanosilica — pozzolanic pore-filling |
| Particle Scale | Nanoscale (1,000× smaller than 1 micron) |
| Bond Mechanism | S1 particle cross-links — inside-out |
| Surface Properties | Hydrophobic · Icephobic · Elastic |
| Substrates | Asphalt Shingles · Concrete · Wood · Membranes |
| Applications | 1 treatment — no repeat required |
Permanent Modification
Single Treatment
UV Resistant
Freeze-Thaw Proof
Salt & Chlorine Barrier
Algae Prevention
Environmentally Safe
GoNano Effect: Modifies structure → S1 particles form → bonds granules together → unified environmental barrier
Available
Inorganic Ceramic Concrete Coating
Alumina-Silicate Composite — “Skin of Granite” · Chemical Bond Technology
A two-part system that permanently ends concrete corrosion. First, a colloidal silica pore-blocker penetrates the capillary system, purging contaminants and densifying the surface. Then an inorganic alumina-silicate coating chemically bonds — not adheres — converting the concrete surface into a granite-like composite layer immune to carbonation, salt, UV, heat, and freeze-thaw cycles. Doubles, triples, or quadruples concrete service life.
| Life-Cycle Multiplier | 2× – 5× Extension |
| Bond Mechanism | Chemical bond — not adhesion |
| Base Technology | Micronized Roman cement + nano-ceramic |
| Surface Result | Alumina-silicate composite (granite analogue) |
| Immune To | Carbonation · Salt · UV · Freeze-Thaw |
| Delamination Risk | None — will not delaminate |
| Vapor Barrier Needed | No |
| Applicable To | New & existing concrete infrastructure |
Skin of Granite
2-Part System
Corrosion Elimination
No Delamination
Antimicrobial
Miami-Dade Approved
Recommended for: Parking Garages · Bridges · Seawalls · Dams · Tunnels · Water & Wastewater Treatment · Precast · Retaining Walls
Available
Hybrid CC-WP Admix
Next-Generation Hybrid Integral Waterproofing Admixture · Liquid Form · Water Replacement
The only hybrid waterproofing admixture combining all major waterproofing mechanisms in a single liquid product — hydrophobic agents, pore blockers, crystalline/self-healing agents, densifiers, and nano-sized chemicals — simultaneously disrupting the concrete capillary system for permanent, maintenance-free waterproofing. Independently validated by 200+ accredited laboratories worldwide.
| Water Absorption & Permeability | Reduced 95%+ |
| Early-Age Strength Gain | Up to +70% |
| Ultimate Strength Gain | Up to +45% (fixed w/c) |
| Freeze-Thaw Durability | 102–108% relative durability |
| Service Life Multiplier | 2× – 5× vs. untreated concrete |
| Dosage | 10–20 L/m³ · 2–4 gal/cu. yd. |
| Standards Compliance | ASTM C494 · AASHTO M194 · AS1478 |
Hybrid Multi-Mechanism
Patented
LEED · EPD · Carbon Credits
Self-Healing
Marine Grade
No Maintenance
Applications: Basements · Bridge Decks · Tunnels · Dams · Wharves · Water & Wastewater · Parking · Shotcrete · Marine Structures
Supplier Order
Inorganic Permeable Concrete Modifier
Silicate-Based Penetrating Surface Impregnation · Self-Repair · Semi-Permanent Protection
A next-generation inorganic silicate-based concrete modifier that penetrates deep into the capillary void structure, reacting with calcium ions to form a mesh-like inorganic polymer. Fills voids from within — imparting flexibility, waterproofing, and self-repair simultaneously. Continues to self-repair new cracks upon re-exposure to water. Japan NETIS registered [KT-060075-V]; used on 60%+ of concrete projects in Japan including bullet train infrastructure.
| Adhesion Strength Improvement | 120 – 150% |
| Crack Elongation Response | ~120% elongation capacity |
| Mechanism | Inorganic polymer mesh |
| Self-Repair | Active — re-triggered on water contact |
| Application | Wet, dry, overhead, pos. or neg. side |
| New Build / Existing | Both — no surface prep required |
| Certification | Japan NETIS KT-060075-V |
Self-Repairing
NETIS Certified
Semi-Permanent
No Surface Prep
Salt & Freeze-Thaw
Carbonation Guard
Applications: Bridges · Parking Garages · Tunnels · Reservoirs · Foundations · Retaining Walls · Water & Wastewater
Available
Carbon Fiber Crack Stitching System
Patented ReGrid™ Technology · Pre-Impregnated CF/Aramid Open-Grid · 19 Patents Filed
A bi-directional carbon fiber and aramid (Kevlar®) open-grid stitching system for permanent crack repair and structural reinforcement of concrete and masonry. The patented ReGrid™ design creates mechanical bonding through adhesive riveting — locking cracks permanently. The only crack repair system with ICC-ES building code certification. Installed with a single saw cut per stitch; fills with epoxy and sets in minutes.
| Tensile Strength | 800 ksi (5,515 MPa) |
| Tensile Modulus | 36,000 ksi (248,000 MPa) |
| Install | Single saw cut · standard circular saw |
| Labor Reduction | 50%+ vs. competing systems |
| Shelf Life | Unlimited |
| Certification | ICC-ES — only system with building code approval |
| Patents | 19 filed |
ICC-ES Certified
19 Patents
Non-Corrosive
Made in USA
Lifetime Warranty
Masonry & Concrete
Applications: Foundation Walls · Slab Floors · Masonry · Swimming Pools · Parking · Bridge Decks
Available
Corrosion Protection Systems
Nano-Tech · Ceramic · Next-Gen
Multi-technology corrosion prevention for steel, concrete, and mixed-substrate infrastructure. Portfolio includes nano-tech sealants, ceramic coatings, and next-generation barrier systems — matched to asset type and exposure conditions.
| Corrosion Threshold | +475% |
| Technology Options | Nano · Ceramic · Next-Gen |
| Substrate Types | Steel · Concrete · Mixed |
| Application | New & Remedial |
Multi-System
Infrastructure
Critical Facilities
Spec & Quote
Network Science · Proprietary Software · US Patents #12,021,680 & #12,278,726
Resilience Intelligence Platform
The first network science-based solution to quantify threshold resilience across complex infrastructure systems. Developed by an elite team including 9/11 Commission leadership, DHS senior officials, and Naval Postgraduate School faculty — measuring both individual asset risk and cross-system propensity for cascade failures.
- →Measurement — Quantifies resistance against cascade failures, and recovery cost and time
- →Characterization — Charts baseline resilience on a simple scale for single or interdependent systems
- →Prioritization — Traces inherent fragility to specific assets to drive targeted, ROI-positive investment
- →Stress Testing — Applies multiple stress tests to assess disruption impact across systems
- →Threat Analytics — Game-theoretical optimization to place resources against most likely targets
- →Counter-Fragility — Identifies fundamental weaknesses before disruptive events occur
- →Applicable to: Electrical Grids · Cyber Networks · Transportation · Water & Sewer · Ports · Oil & Gas · Telecom
Lysigrp.com 