Explore our core selection of certified linear systems, architectural continuous hinges, safety meshes, and high-strength helideck profiles designed to withstand extreme shear and corrosion forces.
Understanding structural mechanics, metallurgical properties, and safety thresholds for critical hazard protection.
An Aluminum Meige Net (traditionally referred to as expanded grid safety netting) is constructed from high-tensile structural aluminum alloys. At LvXing Intelligent Equipment Co., Ltd., we formulate our Meige Nets primarily using 6000-series structural alloys (specifically 6061-T6 and 6082-T6) combined with 5000-series marine-grade alloys for corrosive environments. Compared to traditional welded steel meshes, aluminum-based Meige Nets provide an exceptional strength-to-weight ratio, effectively cutting down top-deck dead load by up to 60-65%.
Our raw material base originates from premium Fenglu aluminum billets, which guarantees low inclusion rates and highly uniform grain structures. This metallurgical consistency is vital for maintaining uniform tensile strength across the diagonal grids of the net, ensuring that impact energy is dissipated evenly across the frame assembly rather than concentrating at localized stress nodes.
Capable of absorbing high dynamic kinetic energy, our Meige nets are engineered to pass simulated 100kJ drop impact test protocols without permanent mechanical failure or tearing.
Aluminum's natural passive oxide layer is enhanced via advanced factory anodizing processes, making the mesh virtually impervious to marine salt spray and atmospheric acid degradation.
With an open area ratio reaching 75%-85%, our Meige Nets offer minimum wind resistance, preventing dangerous upward aerodynamic forces on high-altitude platforms.
For engineering specifying departments, the selection of the correct mesh size, strand width, and alloy tempering profile is critical. Below is the standardized engineering specification sheet for our customized Aluminum Meige Net series:
| Specification Parameter | Standard Profile (LX-M01) | Heavy Duty Structural (LX-M02) | Marine/Offshore Grade (LX-M03) |
|---|---|---|---|
| Primary Alloy Grade | 6063-T5 / 6061-T6 | 6082-T6 / 6005-T5 | 5052-H32 / 5083-H112 |
| Tensile Strength (MPa) | 180 - 220 | 290 - 310 | 210 - 270 |
| Mesh Size (Pitch / SWD x LWD) | 40mm x 60mm | 50mm x 100mm | 75mm x 150mm |
| Strand Thickness (mm) | 3.0mm - 4.5mm | 5.0mm - 8.0mm | 6.0mm - 10.0mm |
| Surface Treatment Options | Polyester Powder Coated | Fluorocarbon (PVDF) Coated | Anodized (20-25μm Class II) |
| Impact Resistance Class | Class C (Standard Fall Protection) | Class A (Heavy Duty/Industrial) | Class S (Special Helicopter Safety) |
Leveraging deep industrial clusters in Foshan City, Guangdong, to deliver aerospace-grade materials at scale.
Located in the heart of China's aluminum industrial manufacturing hub—Foshan City, Guangdong—LvXing Intelligent Equipment Co., Ltd. has established a complete vertically integrated supply chain. We maintain direct partnerships with industry giants like Fenglu Aluminum, ensuring uninterrupted access to premium primary aluminum ingots. Our extrusion lines range from 800T to 20,000T capacity, which allows us to process alloy profiles from 1xxx up to the incredibly demanding 7xxx aerospace series.
What sets us apart is our capability to manufacture fully shaped, large-scale structural sections measuring up to 1.2 meters in width and 28 meters in length. This structural size capacity translates into fewer welded points and mechanical fasteners for large perimeter systems, dramatically enhancing the structural stability of the end-product while simplifying on-site assembly steps for contractors worldwide.
Certified capabilities, technical experience, and world-class raw materials verified by national safety bodies.
We have obtained the prestigious “Special Aluminium Materials for Aerospace” Certificate, ensuring every batch meets rigorous military and aviation-grade safety metrics.
Utilizing high-grade Fenglu aluminum, our state-of-the-art extrusion lines (800T to 20,000T) process alloys from 1xxx to 7xxx. We produce single-section structures up to 1.2m wide or 28m long with micro-level tolerance accuracy.
Our core technical team boasts 15 years of invaluable industry experience. We quickly identify design vulnerabilities, optimize CAD drawings, and turn initial sketches into high-performance structural systems.
Ensuring cross-border engineering approvals through strict adherence to international safety codes.
For maritime and civil aviation helicopter landing pads, standard mesh products are not sufficient. Safety systems must strictly conform to CAA CAP 437 (Standards for Offshore Helicopter Landing Areas) and Federal Aviation Administration (FAA) advisory circulars. Our specialized helideck perimeter safety nets undergo intensive dynamic drop-test certifications. The frame profiles are manufactured from corrosion-resistant 6082-T6 aluminum alloys to endure continuous exposure to marine salt fog, UV radiation, and high wind velocities.
Additionally, our production plants are fully certified under GB/T19001-2016 / ISO9001:2015 quality management systems, which means every batch of aluminum Meige net shipped to international destinations has complete traceability files, chemical mill test reports (MTR), and stress-deformation testing certification.
Understanding local code compliance is a massive hurdle for international procurement managers. LvXing Intelligent Equipment provides end-to-end localized design consultations:
How modernized Aluminum Meige Mesh and structural extrusion profiles are defining future infrastructure projects.
The global structural materials market is shifting rapidly towards decarbonization and modular assembly. The aluminum extrusion industry is leading this transformation. In helicopter operations, the adoption of lightweight aluminum helipads and automated safety meshes reduces deck load and permits longer flight ranges for offshore helicopters. Concurrently, high-strength structural profiles are finding immense integration in smart cities, high-speed rail systems, and large-scale solar arrays where lightweight structural components minimize field-installation labor and reduce transportation emissions.
Ensuring compliance with CAP 437 safety rules. Our customizable aluminum nets act as perimeter safety nets, protecting aviation crews from falls while withstanding severe helicopter rotor wash without vibration fatigue.
Using 6xxx-series extruded profiles to secure heavy photovoltaic cells. These brackets resist intense crosswinds, micro-seismic movement, and direct moisture degradation over 25+ year cycles.
Integrating large-scale aluminum profiles into carriage framing. Minimizes vehicle weight, directly contributing to energy efficiency, higher acceleration profiles, and decreased rail line wear.
Understanding cost parameters for planning large-scale architectural and civil infrastructure projects.
Pricing for custom aluminum Meige Net structures and extruded profiles is dependent on raw metal market rates, extrusion tooling setup costs, processing complexity, and structural certification needs. Below is an indicative price framework designed to help procurement divisions structure initial budget proposals:
| Profile/Product Class | Alloy Specification | Surface Treatment | Indicative Price Range (USD/Ton) | Minimum Order Quantity (MOQ) |
|---|---|---|---|---|
| Standard Meige Safety Netting | 6063-T5 / 6061-T6 | Powder Coating (80-120μm) | $3,200 - $3,700 | 2 Metric Tons |
| Helideck Perimeter Mesh (Manual) | 6082-T6 High-Tensile | Clear Anodizing (20μm) | $4,100 - $4,800 | 1 Metric Ton |
| Helideck Perimeter Mesh (Auto-Flipping) | Aerospace Grade 6061-T6 | PVDF Coating (Double Coat) | $5,200 - $6,300 | On Project Request |
| Heavy Duty Extrusion Profiles | 5xxx / 6xxx Series | Mill Finish | $2,900 - $3,400 | 5 Metric Tons |
| Precision Linear Motion Rails | Ultra-Hard 7xxx Series | Hard Anodized (50μm) | $5,800 - $7,200 | 1 Metric Ton |
*Note: The prices provided above are indicative and subject to change based on fluctuating London Metal Exchange (LME) aluminum ingot prices and specific structural design customizations. For binding contract quotes, please submit your detailed CAD drawings directly to our sales department.*
Addressing structural engineering queries regarding specifications, testing protocols, and customization options.
Aluminum alloys (specifically the 6000 and 5000 series) are substantially lighter than stainless steel, reducing top-heavy structural loads on offshore rigs and skyscraper roofs. Aluminum automatically forms a protective passivation oxide film, resulting in lower long-term maintenance costs in harsh maritime environments. Additionally, our aluminum nets feature high elastic limits, which helps absorb and dissipate drop energy during fall events.
Yes, our factory has a range of extrusion presses from 800T up to a maximum of 20,000T. This enables us to extrude wide profile shapes with width dimensions up to 1.2 meters and single-continuous lengths up to 28 meters, minimizing structural assembly seams.
Our helideck perimeter safety nets are constructed to exceed the rigorous impact criteria outlined in CAP 437. We perform regular quality checks, including alloy composition analysis using optical emission spectrometers and load-bearing test routines. These processes verify that the safety mesh can withstand a 100kg body fall test from high heights without tearing.
For standard profiles, our lead time typically ranges from 15 to 20 days. Custom die designs and specific alloy configurations (such as 7xxx-series or high-anodization marine orders) take approximately 30 to 45 days, which includes structural design validation, tool preparation, extrusion, heat treatment, and post-surface finish inspections.
Complete your infrastructure layout with our verified aluminum continuous geared hinges, solar hardware, and optimized thermal management heat sinks.
LvXing
