🔬 Certified Destructive Testing
Our independent lab provides accredited tensile, bend, and macro-etch tests, delivering verifiable data for alloy steel forgings.
We deliver precise, certified mechanical property matrices and failure analysis reports that ensure the safety of your high-stress structural components.
Our independent lab provides accredited tensile, bend, and macro-etch tests, delivering verifiable data for alloy steel forgings.
We measure fracture toughness at critical temperatures, ensuring your components meet stringent safety standards under impact loads.
Our detailed hardness profiles across your forgings reveal uniformity and heat-treatment consistency, preventing weak points.
We compile all test results into clear, actionable matrices that simplify certification and regulatory compliance.
Our metallurgists identify root causes of fractures and defects, providing reports that guide design improvements and prevent recurrence.
Every report is formatted for direct submission to certifying bodies, saving you time and ensuring your components are approved faster.
Our Process
Submit your alloy steel forgings for independent verification and testing.
We perform Charpy impact evaluations and hardness mapping to assess material properties.
Our team compiles comprehensive mechanical property matrices from test results.
Detailed reports identify potential weaknesses under high-stress conditions.
We deliver final reports crucial for certifying the safety of structural components.
Our independent laboratory delivers precise mechanical property matrices and failure analysis reports for certifying structural components under high-stress conditions.
Accurate measurement of ultimate tensile strength and yield point for alloy steel forgings, ensuring compliance with aerospace and energy sector standards.
Full Charpy V-notch testing at controlled temperatures to validate material ductility and fracture resistance for critical load-bearing components.
Comprehensive Rockwell and Brinell hardness mapping across forged sections to detect inconsistencies and verify heat treatment uniformity.
Detailed fractography and microstructural examination to determine root causes of service failures, supporting safety certifications and design improvements.
Integrated mechanical property matrices combining tensile, impact, and hardness data for complete material qualification and regulatory compliance.