Advanced In-HIP Treatment for the Aerospace Industry
High Pressure Heat Treatment - Critical technology to ensure safety
High Pressure Heat Treatment or HPHT™ from Quintus Technologies revolutionizes aerospace manufacturing by combining Hot Isostatic Pressing (HIP) with advanced heat treatment in a single process.
This innovative approach enhances material strength, fatigue resistance, and durability while eliminating internal defects and optimizing thermal performance.
Ideal for critical components in jet engines and airframes, HPHT™ can facilitate weight savings, automate production, and ensure compliance with stringent aerospace quality standards, including NADCAP.
By streamlining processing steps, HPHT™ also supports greater efficiency and consistency in producing high-performance parts.
Explore the latest advancements in High Pressure Heat Treatment (HPHT™) for aerospace components in our webinar, or reach out to discuss how we can help solve your manufacturing challenges.
High Pressure Heat Treatment: Launching Hot Isostatic Pressing to the next level
Discover the cutting-edge advantages of Quintus Technologies’ Hot Isostatic Pressing (HIP) and High-Pressure Heat Treatment (HPHTᵀᴹ) solutions. We offer unique possibilities to conduct heat treatment processes as an integrated part of the HIP cycle.
Latest Developments in High Pressure Heat Treatment of Aerospace Components
Recent developments in the use of in-process heat treatment directly after the densification of materials (High Pressure Heat Treatment) have shown improvements in material properties such as strength and fatigue resistance, facilitating weight savings and optimal performance.
Benefits of using HIP for additively manufactured thin-walled, high-performance heat exchangers
Additive manufacturing (AM) is transforming aerospace heat exchanger production with its ability to create efficient, thin-walled structures from advanced materials like titanium and nickel alloys. Hot Isostatic Pressing (HIP) plays a critical role in enhancing mechanical properties by eliminating defects and improving fatigue resistance.
