A structured overview of coated, laminated, and reinforced textile systems
designed for industrial and application-driven use.
MAXTEX material systems are not organized as isolated products.
They are built as functional textile architectures, where base fabric, coating, reinforcement, and processing logic work together to meet defined application requirements.
This page presents our material systems from a manufacturing and application perspective, rather than a sales catalog view.
How MAXTEX Defines a Material System
At MAXTEX, a material system is defined by the interaction of four core elements:
- Base fabric structure
- Coating or lamination technology
- Reinforcement and functional layers
- Application-driven performance targets
Each system is developed to balance:
- Mechanical performance
- Environmental resistance
- Manufacturing stability
- Cost-efficiency under real use conditions
This approach allows materials to be adapted, scaled, and customized without losing process consistency.
Core Technical Textile Material Systems
Below is an overview of the primary material systems developed and supplied by MAXTEX.
Each system category represents a family of materials, not a single specification.
PVC Coated Fabric Systems
PVC coated fabric systems are designed for applications requiring flexibility, durability, and environmental resistance.
Typical characteristics include:
- Controlled coating thickness and adhesion
- Balanced flexibility and tensile strength
- UV, moisture, and chemical resistance options
Common application contexts:
- Pool liners and water containment
- Industrial covers and tarpaulins
- Outdoor protective structures
These systems can be adapted through fabric selection, coating formulation, and surface treatment to meet different performance levels.
Reinforced Tarpaulin Systems
Reinforced tarpaulin systems focus on structural stability under mechanical stress.
System logic includes:
- High-strength base fabrics
- Reinforcement grid or scrim integration
- Optimized coating-to-fabric bonding
Designed for:
- Long-term outdoor exposure
- Transportation and logistics protection
- Heavy-duty industrial use
Reinforcement strategies are selected based on load direction, usage cycle, and environmental conditions.
Laminated Industrial Textile Systems
Laminated systems combine multiple layers to deliver multi-functional performance.
Typical system objectives:
- Enhanced barrier properties
- Dimensional stability
- Surface functionality
Applications include:
- Architectural membranes
- Functional separation layers
- Industrial protection and containment
Lamination structures are engineered to maintain long-term adhesion and performance consistency.
Customized Coating & Lamination Systems
For applications that cannot be addressed by standard material configurations, MAXTEX develops customized coating and lamination systems.
Customization may involve:
- Special coating formulations
- Non-standard fabric substrates
- Application-specific surface properties
These systems are typically used in:
- Project-based specifications
- OEM cooperation
- Long-term supply programs
Customization is guided by manufacturing feasibility and repeatability, not one-off samples.
Manufacturing Considerations Across All Systems
Across all material systems, MAXTEX emphasizes:
- Process-controlled coating and lamination
- Stable adhesion and layer interaction
- Defined tolerance ranges
- Batch-to-batch consistency
Material systems are evaluated not only by initial performance, but by their ability to be produced reliably over time.
Application-Oriented Material Selection
Selecting the right material system depends on:
- Application environment
- Mechanical and chemical exposure
- Installation and usage conditions
- Expected service life
MAXTEX supports material selection by aligning system capabilities with real application constraints, reducing mismatches between specification and field performance.
From System Overview to Technical Discussion
This page provides reopening a system-level view of MAXTEX technical textiles.
For specific applications, performance requirements, or customization needs, technical discussion is recommended.
Material systems are best defined in context.