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Technology Center
This is not a basic screen. Our systems combine material science, structural anchoring, and mechanical integration to create permanent physical access control.
Meshtec® High-Tensile Stainless Steel Mesh — Technical Specification:
Meshtec® high-tensile stainless steel mesh. Meshtec security mesh forms the structural foundation of the system, combining high-tensile stainless steel construction with an engineered weave for security-critical performance.Material Grades: 304 stainless steel or 316 marine grade stainless steel
- Wire Diameter Options: 0.8 mm or 0.9 mm
- Aperture Size: ~1.6 mm–1.7 mm
- Viewing Angle: ~156°
- Retention System: Patented Meshtec® retention system
- Performance Standards Tested: Tensile strength (JIS Z 2241:2011), Knife Shear, Dynamic Impact, Jemmy Resistance (AS/NZS standards)
- Corrosion Resistance: Surpasses 3000 hours salt spray test
- Powder Coat: Polyester powder coating for corrosion resistance
- Additional Performance: Mosquito protection ~98 %
What “Tensile Strength” Means
Tensile strength refers to a material’s ability to resist pulling forces without breaking or permanently deforming. In security mesh, tensile strength is critical because it determines how well the mesh withstands cutting, prying, impact, and sustained leverage during a forced-entry attempt.
Rather than relying on thickness alone, engineered security mesh uses material quality, wire size, and weave design to distribute force across the surface and into the surrounding frame—maintaining strength while preserving airflow and visibility.
Tensile Strength in Security Mesh — Key Points
- Defines resistance to pulling forces that occur during prying, kicking, cutting, and leverage attempts
- Controlled by three core factors: stainless steel material grade, wire diameter, and weave geometry
- Wire diameter determines load capacity, controlling how much force each strand can absorb before yielding
- Woven geometry spreads force across intersecting wires, preventing stress from concentrating at a single point
- Tensile loads are dispersed into the frame, not isolated within the mesh alone
- Works alongside cut resistance and edge capture to prevent gaps from forming under attack
- Resists elongation and pull-through, even under sustained force
- Maintains structural integrity while allowing airflow, visibility, and everyday usability
Guardian Series
Guardian Series
Extruded Aluminum Frame System
- Professionally engineered extruded aluminum frames designed specifically for forced-entry resistance and permanent residential installation
- Aperture SizeIntegrated security ledges and capture channels engineered to eliminate pry points and prevent edge deflection under leverage: ~1.6 mm–1.7 mm
- Mechanical mesh-to-frame attachment system that maintains continuous contact between mesh and frame for consistent load transfer
- Force-distribution design that spreads impact, pry, and leverage loads across the frame and into the surrounding structure rather than concentrating stress at a single point
- Performance Standards Tested: Tensile strength (JIS Z 2241:2011), Knife Shear, Dynamic Impact, Jemmy Resistance (AS/NZS standards)
- High-strength aluminum alloys selected for optimal strength-to-weight ratio, dimensional stability, and corrosion resistance
- Factory-applied, baked-on powder-coated finish protecting the frame from corrosion, fading, surface wear, and environmental exposure
- Designed for long service life and low maintenance while supporting daily operation and exterior residential environments
Why This Matters
Why This Matters
Technology determines performance. The materials and construction behind TRUsafe Security Screens are what allow them to quietly deny access without relying on alerts, reactions, or visual compromise.
Built as a System
Mesh, frame, and attachment points are engineered to work together as a unified system. Strength is built into the design rather than added as an afterthought.
Powder-Coated Finish
Frames are finished with a durable powder-coated surface designed for exterior use. This finish enhances corrosion resistance and helps maintain appearance over time.
Lifecycle Durability — Designed for
High-strength materials, controlled load paths, and mechanical integration reduce wear, deflection, and fastener fatigue. The result is a security system engineered for extended service life under repeated environmental and physical stress.