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  • Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh
  • Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh
  • Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh
  • Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh
  • Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh
  • Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh
Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh

Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh

  • 6000 - 11999 Meters
    $1.33
  • 12000 - 599999 Meters
    $0.97
  • >= 600000 Meters
    $0.53
View product details

Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • Concrete Reinforcement: High-tensile steel wire mesh provides structural integrity by evenly distributing loads and preventing cracks in concrete structures.
  • Prefabricated Truss System: Accelerates construction timelines through pre-engineered components for roof trusses, lattice girders, and precast slabs, ensuring precision and efficiency.

Key features

  • 1. Corrosion-Resistant Material Technology

    • With corrosion-resistant galvanized steel, you can ensure long-lasting durability in harsh construction environments*

  • 2. Pre-Fabricated Modular Design

    • With a pre-fabricated modular design, you can reduce installation time by up to 30% compared to traditional reinforcement methods*

  • 3. High-Tensile Alloy Performance

    • With high-tensile carbon steel alloy composition, you can support load capacities 20% higher than standard steel meshes*

  • 4. Versatile Scenario Solutions

    • With adaptability for office buildings and roofing projects, you can address diverse construction needs from residential to commercial applications*

  • 5. Compliance with Safety Standards

    • With compliance to international structural safety standards, you can ensure regulatory approval for reinforced concrete systems*

Product details

Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh

The Precast Slab Concrete Reinforcement Trussed Prefab Concrete Structures Roof Truss System Lattice Girder Concrete Mesh is a high-performance steel wire mesh solution designed for structural reinforcement in construction projects. Crafted from carbon steel and alloy, it offers unmatched durability, flexibility, and adaptability for applications ranging from office buildings to roofing systems. Its coiled steel wires and lattice design ensure even load distribution, preventing cracks and enhancing structural integrity.

Technical specifications

FeatureSpecificationApplication Scenario
MaterialCarbon steel, alloy steelHeavy-duty construction and corrosion-prone environments
Mesh PatternConsistent hexagonal latticeReinforcement of precast slabs and roof trusses
Coiling MethodTwisted steel wires for interlockingStructural stability in dynamic loads
Chemical CompositionHigh-tensile alloy blend (0.25% C content)Industrial and commercial building frameworks
CustomizationAdjustable mesh spacing (25–150 mm)Tailored reinforcement for specific load requirements

Customization guide

Adjustable parameters include mesh spacing, wire diameter, and surface treatments (e.g., galvanization) to meet specialized needs such as:

  • High-strength requirements (e.g., earthquake-resistant buildings)
  • Corrosion resistance (e.g., marine or chemical plants)
  • Aesthetic integration (e.g., colored coatings for architectural finishes).

Get inspired

With its modular design and customizable lattice patterns, this mesh system empowers engineers to create durable, cost-effective solutions for modern construction. Whether reinforcing a high-rise foundation or a lightweight roofing structure, the system’s adaptability ensures seamless integration into any project.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Tensile Strength500 MPa+15% (575 MPa)+30% (650 MPa)*
Corrosion ResistanceASTM A153Hot-dip galvanizationZinc-aluminum coating
Load Capacity200 kN/m²230 kN/m²260 kN/m²
Mesh Spacing Range50–120 mm25–150 mm25–200 mm

Supplier's note

  1. Three Technical Breakthroughs:

    • Alloy Steel Composition: The Pro Model’s high-tensile alloy blend (0.25% C) delivers 30% stronger load-bearing capacity than standard carbon steel.
    • Zinc-Aluminum Coating: The Pro’s dual-layer coating provides 2X corrosion resistance compared to galvanized models, ideal for coastal or industrial sites.
    • Modular Mesh Design: Adjustable spacing (-50% to +66% range) enables precise customization for niche applications like lightweight roofing or heavy-duty foundations.

  2. Optimal Version Selection:

    • Base Model: Suitable for standard residential or commercial projects requiring basic reinforcement (e.g., office slabs).
    • Advanced Model: Recommended for mid-tier applications needing enhanced corrosion resistance (e.g., bridges or parking garages).
    • Pro Model: Ideal for high-stress environments (e.g., skyscrapers, seismic zones) where extreme durability and load capacity are critical.

With the Pro Model’s 650 MPa tensile strength, engineers can safely reinforce concrete in extreme conditions, while its expanded mesh spacing range (-50% to +66%) ensures compatibility with both lightweight and heavy-duty designs. Pairing the Advanced Model’s galvanization with its 230 kN/m² load capacity creates a cost-effective solution for mid-rise structures.

Note: Comparative values are relative to industry benchmarks (e.g., ASTM A1085 standards).

Frequently asked questions

  • Which trussed prefab concrete mesh model is best for high-rise office buildings?

  • How to maintain steel wire mesh panels to prevent corrosion during outdoor storage?

  • Carbon steel vs alloy in concrete reinforcement: Which offers better durability in marine environments?

  • Can Precast Slab Concrete Reinforcement Mesh be customized for irregularly shaped roof trusses?

  • Are your lattice girder concrete mesh systems ASTM-certified for structural integrity?

  • What applications are suitable for trussed prefab concrete structures besides roofing?

  • How does the ease of installation of metal wire mesh compare to traditional rebar in concrete construction?

  • Does the galvanized coating on Precast Slab Mesh ensure resistance to salt corrosion in coastal construction?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Steel Wire Mesh (Industry Standard)General concrete reinforcement, low-rise buildingsASTM A36 carbon steel (400 MPa tensile strength▲)
14x14 mm mesh (ISO 10360)
No corrosion coating		Cost-effective, widely compatible with standard concrete mixesLower durability in corrosive environments, limited load capacity for heavy structures
Our Base Tier MeshOffice buildings, mid-rise structuresASTM A533 (500 MPa▲▲)
12x12 mm mesh (ISO 10360)
Hot-dip galvanized (ASTM A153)		25% stronger than standard▲, corrosion resistance▲
Lightweight for easy installation		Moderate cost increase vs industry standard
Our Advanced Tier MeshHigh-rise structures, bridges, industrial plantsASTM A514 (600 MPa▲▲▲)
10x10 mm mesh (ISO 10360)
Zinc-aluminum coating (ASTM A153/A123)		50% stronger than standard▲▲▲, 100% corrosion resistance▲▲
Customizable thickness (2.5–4.0 mm)		Higher upfront cost▲▲▲, requires专业安装 for complex shapes
Rebar (Grade 60)Heavy-duty foundations, columnsGrade 60 steel (415 MPa)
16–25 mm diameter (ASTM A615)		Exceptional load-bearing capacity (415 MPa▲▲)
Flexible for curved structures		Bulky installation, prone to corrosion without coating
Fiberglass MeshChemical plants, coastal regionsE-glass fiber (ASTM D790, 3400 MPa)
UV-resistant coating (ASTM D4101)		100% corrosion-free▲▲, lightweight (20% lighter than steel)Lower tensile strength than steel▲, unsuitable for heavy loads
Expanded Metal MeshTemporary structures, fencing2.5mm gauge steel (ASTM A36)
50% open area (ISO 10360)		Easy to cut and shape▲, cost-effective for non-structural useLower durability (rust-prone), limited load capacity (200 MPa)

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The comparison data is based on manufacturer information and industry standards. Actual results may vary depending on individual use cases. It is advisable to verify details with the supplier for the most accurate information.