HVS-5Z Digital Automatic Turret Vickers Hardness Tester
Brand JUHUI
Product origin Shanghai
Delivery time In Stock
Supply capacity Unlimited Supply
Auto turret delivers seamless transitions between view and load states.
Digital micrometer eyepiece speeds up indentation reading accuracy.
Cast-aluminum frame enhances structural rigidity under repeated cycles.
Large LCD panel organizes testing data for fast, intuitive operation.
Product Description
The HVS-5Z Digital Automatic Turret Vickers Hardness Tester is developed for precise and efficient microhardness measurement. Its upgraded digital micrometer eyepiece enables direct indentation length reading, allowing hardness results to be obtained with greater speed and accuracy. The automatic turret performs objective-to-indenter switching without manual contact, minimizing handling risks and ensuring alignment stability. The optical system, designed by senior specialists, provides a clear and bright field of view suitable for microstructure observation and detailed indentation sizing.
A high-contrast LCD display presents test force, indentation length, hardness value, dwell time, test count and date in a clear and logical layout, streamlining the operator workflow. The cast-aluminum housing improves internal alignment stability and provides long-term resistance against scratches and deformation. With six selectable test forces ranging from 0.3 to 5 kgf, the HVS-5Z supports microhardness testing for coatings, heat-treated layers, metallic substrates, brittle ceramics, glass surfaces and precision components. Optional software and integrated printer expand data management and reporting capabilities.
Product Advantages
Optical system engineered for sharp contrast and adjustable brightness, suitable for extended observation.
Large LCD interface displays hardness method, indentation size, dwell time, test force and statistics clearly.
Cast-aluminum body ensures structural stability, wear resistance and long-term durability.
Digital micrometer eyepiece eliminates manual conversion steps and reduces reading errors.
Automatic turret performs observation, loading and measuring position switching accurately and safely.
Dual optical channels support both eyepiece viewing and CCD camera integration for documentation.
Optional printer allows direct output of test data, improving professional reporting efficiency.
Application Range
Steel, non-ferrous metals, foils and thin substrates
Carburized, nitrided and hardened surface layers
Electroplating layers, thin films and heat-treated components
Ceramics, wafers, glass and carbide materials
Laboratory microstructure analysis and quality evaluation
Technical Specifications
| Parameter | Value |
|---|---|
| Hardness scales | HV0.3, HV0.5, HV1.0, HV2.0, HV3.0, HV5.0 |
| Display | Hardness value, diagonals, dwell time, count, SD, AVG |
| Test forces | 0.3 / 0.5 / 1.0 / 2.0 / 3.0 / 5.0 kgf |
| Loading | Automatic load / dwell / unload |
| Dwell time | 1–99 seconds |
| Optical channels | Eyepiece + CCD camera port |
| Objectives | 10×, 20× (40× optional) |
| Eyepiece | 10× digital micrometer |
| Total magnification | 100× / 200× |
| Measurement range | 400 μm |
| Resolution | 0.125 μm |
| XY stage | 100×100 mm, 25×25 mm travel, 0.01 mm reading |
| Hardness range | 5–3000 HV |
| Max specimen height | 165 mm |
| Max specimen width | 130 mm |
| Data output | Built-in mini printer interface reserved. (RS232 Serial Interface) Optional Installation |
| Power | AC 220V / 50Hz |
| Dimensions | 585×200×630 mm |
| Weight | 42 kg |
Standard Accessories
| Item | Qty |
|---|---|
| Main unit | 1 |
| Weights | 3 |
| Cross test platform | 1 |
| Flat clamp fixture | 1 |
| Leveling screws | 4 |
| Power cable | 1 |
| Digital micrometer eyepiece | 1 |
| Vickers hardness blocks | 2 |
| Spare fuses | 2 |
| User manual | 1 |
| Certificate | 1 |
Note:
Optional hardness tester measurement software is available to eliminate human error, enable computer operation, improve efficiency, and achieve more precise accuracy.
Optional built-in printer is available for one-touch printing of measurement data.
