HTD1500 & HTD4000: Advanced Case Hardness Depth Analyzers
When precision in heat treatment depth measurement is essential, the HTD1500 and HTD4000 stand out as innovative solutions. These case hardness depth analyzers deliver quick, accurate, and non-destructive thickness verification up to 1.3 mm (HTD1500) and 2.7 mm (HTD4000).
Key Features:
- Non-Destructive Testing: Effortlessly measure the thickness of heat-treated layers without damaging the sample, preserving its integrity for further analysis or use.
- Robust Stand: Designed for high-capacity testing, the sturdy stand easily handles large dimension pieces, making it ideal for diverse industrial applications.
- Low Maintenance: Built to thrive in challenging environments, the HTD1500 and HTD4000 require minimal maintenance, ensuring longevity and consistent performance.
- Durable Carbide Penetrator: The carbide penetrator performs 2,500 to 3,000 tests, depending on the material type and the applied load, providing long-lasting durability.
Advanced Heat Treatment Analysis: The HTD1500 and HTD4000 introduce a new era in heat treatment control by eliminating the cumbersome steps of traditional testing. Using continuous data collection, these analyzers deliver accurate results in under a minute.
Key Advantages:
- Time Savings: These systems streamline the testing process, drastically reducing analysis time compared to conventional methods.
- Unmatched Precision: With continuous data recording, the HTD analyzers deliver reliable and accurate measurements for immediate process verification.
- High Load Testing: The HTD4000 handles up to 4000 kg of test force, offering a versatile solution for various sample sizes and materials.
- Seamless Integration: Real-time data collection ensures thorough quality control, supporting immediate process optimization.
In summary, the HTD1500 and HTD4000 redefine heat treatment depth measurement with their speed, precision, and adaptability. These instruments represent a leap forward for industries requiring swift, accurate, and integrated analysis of heat-treated layers.