1. lntroduction
Barcol lmpressor is an indentation hardness tester originally made in the USA. It has 3 models in series. 934-1 is the typical model which is in widest application.
Barcol lmpressor is mainly applied in two areas: One is aluminum fabrication industry, to test pure aluminum, soft aluminum alloys, thick aluminum alloys, aluminum belts, aluminum alloys extrusions, bars, castings, forgings and assembled aluminum alloy parts (e.g. Al-alloy door &window, curtain wall etc.) Relevant standard is American standard ASTM 8648-00 《Test Method for Indentation Hardness of Aluminum Alloys by Means of a Barcol lmpressor》;the other is fiber reinforced plastics industry, most of the domestic and abroad fiber reinforced rlastics products are required to test Barcol hardness. Relevant standard is American standard ASTM D2583-07 《Test Method for Indentation Hardness of Rigid Plastics by Means of a Barcol lmpressor》.
Barcol lmpressor is light weight and portable. It can be used by single hand operation;no operating experience required;can test any workpiece which is reachable on any site.Barcol lmpressor has following features: Wide valid testing range equivalent to Brinell hardness 25-135HBW. Used to test the hardness of all kinds of aluminum, from very soft pure aluminum to very hard aluminum alloys;Extended application. Model 934-1 is applied to test the hardness of aluminum, aluminum alloys, copper, copper alloys, fiber reinforced plastics and rigid plastics etc. The modified models of it are available to test very soft metals such as lead , tin and other soft materials such as soft plastics, rubber, felt and leather etc;High sensitivity. Featured with 100 scales, it is much more sensitive than Webster hardness testers applied in aluminum alloys industry; No supporting is required. It can test from only one side of the workpiece. No need to move or support the workpiece. It is used to test very large or thick worpieces and assembly parts. The test results can be directly converted to HB, HR, HV and HW through conversion table.
Barcol lmpressor is a kind of indention hardness tester. It uses a special shape indenter impressed into the specimen by a standard spring pressure and measures the indentation depth to obtain hardness value.
Barcol hardness value is:
HBa — Barcol hardness value
h — Indentation depth (mm)
“0.0076” — Indentation depth fa「one unit of Ba「col hardness
2.Principle and Structure
The structure of Barcol lmpressor is illustrated in Fig.1.
The main testing system of Barcol lmpressor is set in the frame. The indenter is in the full scale ad」usting screw (indenter sleeve) with a plunger loaded by load spring on top. The test force applied on indenter by load spring through plunger is adjusted by load adjusting screw. The plunger moves up and down along with indenter; thus, the dial indicator shows hardness reading through the lever. The legs fixed at the back of the frame can ensure the indenter be perpendicular to test surface. The enclosures at both left and right sides protect the inner system from being damaged and changed.
The top of indenter is 0.76mm upper on the top surface of full scale adjusting screw, equivalent to 100 degreeswhen the impressor is under nonworking condition. The indicator points at zero at this moment.
[/fusion_text][/fusion_builder_column][/fusion_builder_row][/fusion_builder_container][fusion_builder_container hundred_percent=”yes” overflow=”visible” margin_top=”20px” margin_bottom=””][fusion_builder_row][fusion_builder_column type=”1_1″ layout=”1_1″ background_position=”left top” background_color=”” border_size=”” border_color=”” border_style=”solid” spacing=”yes” background_image=”” background_repeat=”no-repeat” padding_top=”” padding_right=”” padding_bottom=”” padding_left=”” margin_top=”0px” margin_bottom=”0px” class=”” id=”” animation_type=”” animation_speed=”0.3″ animation_direction=”left” hide_on_mobile=”no” center_content=”no” min_height=”none” last=”no” hover_type=”none” link=”” border_position=”all”][fusion_separator style_type=”none” sep_color=”” border_size=”” icon=”” icon_circle=”” icon_circle_color=”” width=”” alignment=”center” class=”” id=”” /][fusion_text columns=”” column_min_width=”” column_spacing=”” rule_style=”default” rule_size=”” rule_color=”” hide_on_mobile=”small-visibility,medium-visibility,large-visibility” class=”” id=”” animation_type=”” animation_direction=”left” animation_speed=”0.3″ animation_offset=””]3.Technical Parameters
Indenter: 26° truncated cone, head face diameter 0.157mm
Testing Range : 0~100HBa, equivalent to 25~135HBW
Resolution: 0.5HBa
Indication error: hardness range 81~88HBa 土1HBa
hardness range 42~48HBa, 土2HBa
Repeatability: hardness range 81~88HBa 士1.5HBa
hardness range 42~48HBa, 士2.5HBa
Net weight: 0.5kg4.0perating Method
4.1 Verification of the Instrument
4.1.1 Zero Point Verification
Check the position of the indicator hand. It should point at the “O” on the indicator dial.The tolerance range should be within one graduation. If it exceeds, please contact with the manufacturer.
4.1.2 Full Scale Verification
Put the impressor on a hard flat surface (e.g. glass sheet). Press on the enclosures to make the indenter totally back to full scale adjusting screw. Now the indicator should point at 100士1 (Note: Do not impact or make the indenter slide broadwise when pressing, otherwise the indenter will be damaged). If the test reading exceeds the tolerance range (1 graduation), calibration of the full scale should be carried out according to Step 5.3.
4.1.3 Indication Verification
Put the two standard hardness blocks on a hard flat surface and test them with the instrument. The test reading should be within the tolerance range of the hardness of hardness blocks. If not , calibration of the indication should be carried out according to
Step 5.3.4.2 Requirement of Specimen
4.2.1 The specimen surface should be smooth, clean, without mechanical damage.
The surface can be lightly polished to remove the scratch and coating.
4.2.2 The thickness of the specimen should be no less than 1.5mm.Obvious
transformation should not be observed on the back of the specimen after testing. The
dimension of the specimen should also ensure the minimum distance between the
indentation and each edge to be greater than 3mm.
4.2.3 To ensure accurate testing, the indenter must be vertical to the specimen surface.
Thus, the dimension of the specimen surface should be big enough to make the leg of
the impressor and the point of the indenter at the same level.
If the specimen is too small or narrow to make the leg of the impressor and the
point of the indenter at the same level, block up the leg to realize it. Pay attention that
the two surfaces of the leg should be at the same level.
4.2.4 Make sure there is no previous testing indentation within 3mm around current
testing point.
4.2.5 The specimen must be placed stably. Small specimen should be placed on the
stable backing (such as steel sheet, glass etc.) The specimen should not lift, move or
transform during testing procedure.
4.3 Testing Operation
Hold the instrument and put it on the specimen stably. Apply the test force firmly
and swiftly. Take the maximum reading on the dial estimated to 0.5 hardness unit.
This reading result is the Barcol hardness value of the specimen. Do not impact or make
the indenter slide sideways when pressing, otherwise the indenter will be damaged.
When testing softer materials, the reading will be lower down gradually. Take the
reading as promptly as possible to take the maximum reading result.5.Calibration of the Instrument
5.1 Calibration of zero point
The zero point of the instrument is stable and seldom changes. If it goes wrong, calibration of zero point should be carried out under manufacture’s guide.5.2 Calibration of full scale
Screw off the enclosure screw, and take out the main frame from the enclosure. Then screw off the lock nut and rotate the full scale adjusting screw with the special wrench equipped with the instrument. The reading on the dial indicator will be lower down when the nut is screwed loose, on the contrary, rise up when screwed fastened. After adjustment, screw the lock nut and test again on the glass sheet. The indicator should point at 100士 1. If there is still any error, repeat the operation above until the indicator points at 100士 1.
5.3 Calibration of the indication
Screw off the load adjusting spring. The reading on the dial indicator will be lower down when the spring is screwed loose, on the contrary, rise up when screwed fastened. Repeat the operation above until the indicator points at the hardness value of the standard hardness block.
Test on the other standard hardness block. The indicator should point at the hardness value of the standard hardness block. If there is still any error, do light adjustment. Test the instrument on both “hard” and “soft” standard hardness blocks after adjustment. The indicator should both point at the hardness value of the standard hardness block. If not, the indenter is worn or damaged.Replace with a new one.6.lndenter
6.1 Protection of the Indenter
The indenter of the instrument is an accurate part made of hard steel. The point of the indenter is machined accurately to a very small size. Take care during operation to avoid any damage. When the indenter reaches the specimen, the instrument should be pressed carefully and firmly to avoid slide or scratch. The indenter will be damaged if it slides on hard material especially on rough hard material. The indenter is not covered in the warranty, so it must be treated with care. Please replace it for a new one if it is damaged. Each instrument is attached with 2 spare indenters. Contact the local distributorwhen more indenters are needed.6.2 Wearing of the indenter
The indenter will be lightly worn after frequent use. In that case, the error of the test result will increase. So the indenter should be checked regularly.
Put the instrument on a glass sheet. The indicator should point at full scale 100士 1. If not, it neans the indenter is worn. It also indicates the indenter is damaged if the readings do not match the hardness value of the standard hardness block when testing the instrument on the same surface.The calibration of the instrument should be carried out if the indenter is worn. Test the instrument on both “hard” and “soft” standard hardness blocks after adjustment. The readings should all point at the hardness value of the standard hardness block. If not, the indenter may be seriously damaged; its length can not meet the required range; replace with a new one. Another calibration procedure should be carried out after replacing the indenter.
6.3 Replace the indenter
The procedure of replacing indenter is as following:
6.3.1 Screw off the screw on the enclosure.
6.3.2 Hold on the spring sleeve to make sure it does not fall off. Take off the main frame of the instrument from the enclosure.
6.3.3 Screw off the load adjusting screw until the cross groove projects from the main frame.
6.3.4 Invert the instrument. Prevent the spring and plunger from falling down. Screw off the lock nut and take off the full scale adjusting screw.
6.3.5 Take off the previous indenter and put on a new one. Screw the full scale adjusting screw. Make the indenter reveal 5mm from the bottom of the frame.
6.3.6 Test on the glass sheet and take the maximum reading. Do not overload and avoid indenter over-deflecting. If the indicator reading exceeds 110, the dial indicator will be damaged. Adjust the full scale adjusting screw until the indicator points at 100士 1. 6.3.7 Screw the lock nut. Recheck full scale value.
6.3.8 Inspect and calibrate the instrument.
6.3.9 Assemble the instrument back and check the full scale and the test blocks.
7.Hardness Block
The instrument is attached with two hardness blocks,” high value” and ” low value” which are made of aluminum and aluminum alloys.Only the front side of the hardness block with the hardness value is permitted to be used. Testing on both the two sides will lead to wrong readings. Avoid testing on the point within 3mm distance from the edge and previous indentation when testing the hardness block. The reading obtained near the previous indentation will be not accurate. Each instrument is attached with enough quantity of hardness blocks. Spare hardness blocks can be bought from the local distribrtor.
8.Test Times
The error of Barcol lmpressor is bigger than Brinell hardness tester and Rockwell hardness tester. In order to reduce the test error, test for several times and take theaverage reading. The softer specimen is, the more test times need to be carried out.
The number of tests should be even more when testing on composite materials. The recommended number of tests according to different hardness value on homogeneous material and heterogeneous material are shown in table 1 and table 2.
Table 1 Recommend number of tests for aluminum alloys materials (According to ASTM B648-2000)
Table 2 Recommend number of tests for fiber reinfo「ced plastics and rigid plastics
9.Model Selection
There are 3 models in Barcol series.
Model 934-1 equipped with standard load spring and standard indenter is in the widest application. It is used to test aluminum and aluminum alloys, copper and copper alloys, fiber reinforced plastics, other reinforced plastics and non-reinforced plastics etc. Its testing range is equivalent to 25-135HBW (500kg, 10mm).The typical Barcol hardness of aluminum and aluminum alloys of different designations and conditions are shown as
table 3:
Table 3 Typical Bracol hardness of aluminum alloys
Model 935 which is equipped with softer load spring and standard indenter, used to test softer plastics, soft metals such as lead, tin and wooden products like floor etc. Its testing range is equivalent to 50-11 OHRR.
Model 936 equipped with softer load spring and indenter with bigger cone angle is used to test even softer materials such as leather, asphalt felt and soft wood etc.