Payment & Shipping Terms:
|Range:||3.18 - 653HBW||Reading:||LCD Display|
|Data Output:||Built-in Printer, RS232 Interface||Objective:||1X, 2X|
|Printing:||Built-in Mini Printer||Data Transfer:||Support RS232|
1.25μm Brinell Hardness Testing Machine,
0.625μm Brinell Hardness Testing Machine,
Brinell Hardness Test Equipment
Motorized Turret Digital Brinell Hardness Testing Machine with Built-in Printer and RS232
iqualitrol iBrin-413Z three indenters two objectives digital Brinell hardness tester adopts precise structure design and the load of test force is controlled by the sensor, which makes the whole structure compact and loading of test force stable and accurate.
The test process is controlled by CPU, using automatic turret between the objectives and the indenters. The positioning of turret adopts mechanical and electronic double matching, makes higher precise positioning.
1, 10 steps loading force and 13 kinds of Brinell testing scale;
2, Motorized turret among three indenters and two objectives;
3, Pre-set the dwell time of test force and regulate the luminosity of light source;
4, Automatically display the testing indentation length, hardness value and testing numbers;
5, Support hardness Conversion;
6, Test results can be saved for reviewing or be printed out by the built-in printer, and with RS232 interface transfer to computer.
7, optional video measuring device and CCD image automatic measuring system.
Suitable for cast iron, steel products, nonferrous metals and soft alloys etc. Also suitable for some nonmetal materials such as rigid plastics and bakelite etc.
|Test Force||kgf||62.5kgf, 100kgf, 125kgf, 187.5kgf, 250kgf, 500kgf, 750kgf, 1000kgf, 1500kgf, 3000kgf|
|N||612.9N, 980.7N, 1226N, 1839N, 2452N, 4903N, 7355N, 9807N, 14710N, 29420N|
|Loading Method||Automatic (Loading/Dwell/Unloading)|
|Hardness Reading||LCD Display|
|Conversion Scale||HV, HK, HRA, HRB, HRC, HRD, HRE, HRF, HRG, HRK, HR15N, HR30N, HR45N, HR15T, HR30T, HR45T, HS|
|Data Output||Built-in Printer, RS232 Interface|
|Turret||Automatic (Three Indenters, Two Objectives)|
|Total Magnification||20X, 40X|
|Power Supply||AC220V/50Hz/1Ph, AC110V/60Hz/1Ph|
|Execute Standard||ISO 6506, ASTM E10-12, JIS Z2243, GB/T 231.2|
|Dimension||535×260×890mm, Packing Dimension: 820×460×1170mm|
|Weight||Net Weight: 150kg, Gross Weight: 180kg|
|Instrument Main Body||1 set||20X Digital Measuring Eyepiece||1 pc|
|1X, 2X Objective||each 1 pc||Ф2.5mm, Ф5mm, Ф10mm
|each 1 pc|
|Small Plane Test Table||1 pc||Large Plane Test Table||1 pc|
|V-shaped Test Table||1 pc||Power Cable||1 pc|
|1 pc||Hardness Block
|Fuse 2A||2 pcs||Anti-dust Cover||1 pc|
|Instruction Manual||1 copy|
Principle of Brinell Test:
The Brinell hardness test method consists of indenting the test material with a 10 mm diameter hardened carbide ball subjected to a load of 3000 kg. For softer materials the load can be reduced to 1500 kg or 500 kg to avoid excessive indentation.
The full load is normally applied for 10 to 15 seconds in the case of iron and steel and for at least 30 seconds in the case of other metals. The diameter of the indentation left in the test material is measured with a low powered microscope. The Brinell harness number is calculated by dividing the load applied by the surface area of the indentation.
The diameter of the impression is the average of two readings at right angles and the use of a Brinell hardness number table can simplify the determination of the Brinell hardness. A well structured Brinell hardness number reveals the test conditions, and looks like this, "75 HB 10/500/30" which means that a Brinell Hardness of 75 was obtained using a 10mm diameter hardened steel with a 500 kilogram load applied for a period of 30 seconds.
On tests of extremely hard metals a tungsten carbide ball is substituted for the steel ball. Compared to the other hardness test methods, the Brinell ball makes the deepest and widest indentation, so the test averages the hardness over a wider amount of material, which will more accurately account for multiple grain structures and any irregularities in the uniformity of the material. This method is the best for achieving the bulk or macro-hardness of a material, particularly those materials with heterogeneous structures.
Contact Person: Mr. Raymond Chung