Build a strong future with Stark Mounting.

Innovative solar mounting solutions powered by combined Turkish - German engineering expertise. 

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GES Montaj Sistemleri

Project-Specific PV Mounting Solutions

  • 1

Site-Specific Structural Design

Engineered for complex soil conditions, seismic zones, and extreme wind/snow loads. Designed to address real site stresses.

  • 2

Superior Corrosion Resistance

Proven performance in acidic, alkaline, and salt-spray environments. Delivers up to 10x higher corrosion resistance compared to conventional zinc-coated steel.

  • 3

Self-Healing at Every Cut Edge

Cutting, drilling, and welding expose bare steel to corrosion. Advanced zinc–magnesium–aluminum alloy steel restores protection and preserves structural integrity.

PV Mounting Systems

Ground-Mounted

PV mounting systems engineered based on real geotechnical data and site-specific climate loads.
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Flat-Roof Systems

Load-optimized rooftop PV systems designed for structural safety and long-term durability.
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Solar Carport

Lightweight, modular PV carport systems engineered for large-scale commercial and parking facilities.
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Coating Technology

Zinc–magnesium–aluminum alloy coating with active self-healing protection and C4-certified corrosion resistance.
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GES Montaj Sistemleri

Long-Term Confidence

Warranty-Backed Structural Reliability

Stark Mounting systems are engineered for predictable long-term performance.

Advanced material selection, corrosion-resistant alloy coating, and site-specific structural design work together to ensure durability under real field conditions.

Warranty coverage of up to 25 years reflects this engineering discipline, providing measurable risk reduction and confidence throughout the project lifecycle.

Frequently Asked Questions

Do steel structures used in the field lose corrosion resistance after cutting?

Traditional hot-dip–galvanized parts require a zinc-spray touch-up after cutting or repair. Stark’s components are coated in a molten bath of magnesium, aluminium and zinc, so the layer self-heals cut edges and keeps its original corrosion resistance.

How is pile-driving depth determined for ground-mount systems?

After structural calculations, maximum forces per post and their impact on the system are evaluated. Considering profile geometry and soil type, strength calculations define the target depth. Test piles are then driven at several points and pull-out values recorded; the final depth is confirmed by comparing test data with the static report. 

How are profiles and layouts selected for rooftop systems?

A site survey records roof structure and critical parameters. Location data, roof type and optimum panel tilt are analysed. Software tools calculate wind and snow loads; the final profile type and layout are chosen to match the building’s structural limits.

Can steel structures be used on rooftops?

Although aluminium is common, high-corrosion-resistant steel can also be used safely if load calculations prove that the roof and building structure can support it without damage.

Does soil composition affect corrosion resistance?

Yes. Soil chemistry directly influences corrosion. A soil analysis (e.g., via borehole sampling) should be performed first; the test results define the required coating thickness for optimal protection.