zoom_in
zoom_out
fullscreen
-24%
PCE hardness tester PCE-HT-75
Sku: T-910046
€492.52 (excl. legal VAT, excl. Shipping)
€649.91 MSRP
In stock,ready for shipping within 48h
Piece
Product variants
| Sku: | Name: | SKU manufacturer: | ||
|---|---|---|---|---|
|
T-910044 | hardness tester PCE-HT-225A | PCE-HT-225A |
Content:
1 Piece
Shipping:
€73.87 Versandservice to United Kingdom
Lieferung:
Provider:
Sales and delivery by ToolTeam Köln
Payment methods:
Returns:
Security:
Product data
Manufacturer:
PCE Deutschland GmbH
Condition:
NEW
Sku:
T-910046
SKU manufacturer:
PCE-HT-75
GTIN Code (EAN):
4250348715418
Weight:
1,75 Kg
All information relating to products from PCE Deutschland GmbH. Technical and optical modifications of the manufacturer and errors reserved.
This page has been machine-translated, the original german version can be found here, please also note the Translation Disclaimer.
Product description
The concrete test hammer works on the principle of Schmidt. In addition to the essential use in the building and construction field, the easiest to use concrete test hammer is essentially used for other purposes in many other industries (winding hardness testing of products on a roll, ...).
The test is performed under an impact energy of 0.735 J, which is always the same. The initial kinetic rebound energy is given as a measure of concrete hardness / surface pressure or compressive strength (kg/cm² or converted to N/mm²) on the concrete test hammer. The quality of concrete is mainly assessed on the basis of its compressive strength, since this is directly decisive for the load-bearing behavior and durability of structures made of concrete. The concrete test hammer applies a significantly lower impact energy to the concrete, which is why it is particularly suitable for testing thin-walled elements up to a material thickness of 100 mm. Compressive strength is designated by a sequence of letters and numbers. Example: B 25 means that this is normal concrete with a compressive strength of 25 N/mm².
There are various intermediate values up to the highest strength class B 55, so you can make a classification easily, quickly and accurately using the concrete test hammer. The concrete tester is always delivered factory calibrated when ordered, but can also be optionally (at extra cost) laboratory calibrated and equipped with an ISO test certificate / test certificate. General information on compressive strength measurement of concrete with the concrete test hammer Compressive strength is generally understood to be the breaking strength measured under uniaxial, short-term compressive loading.
The compressive strength of concrete is essentially determined by the following influencing variables:
Strength of the hardened cement paste
composition and compaction of the concrete
Age and storage conditions
specimen shape and dimensions
Type and duration of loading
The compressive strength is classically determined in the laboratory on concrete cubes or circular cylinders. In the case of cylinders, it is advisable to apply the levelling layer, which is usually required to obtain a flat and smooth upper compression surface, immediately after the protruding concrete has been removed. Cylinders should harden in an upright position. Since in practice hardness testing by laboratory methods is not feasible, the easy-to-handle and relatively accurate concrete testing hammer is used here. The compressive strength is determined by measuring the material hardness by means of the concrete testing hammer (rebound value R) on the surface of the concrete and with the help of the conversion table (on the back of the device) or taken from the table in the operating instructions.
The test is performed under an impact energy of 0.735 J, which is always the same. The initial kinetic rebound energy is given as a measure of concrete hardness / surface pressure or compressive strength (kg/cm² or converted to N/mm²) on the concrete test hammer. The quality of concrete is mainly assessed on the basis of its compressive strength, since this is directly decisive for the load-bearing behavior and durability of structures made of concrete. The concrete test hammer applies a significantly lower impact energy to the concrete, which is why it is particularly suitable for testing thin-walled elements up to a material thickness of 100 mm. Compressive strength is designated by a sequence of letters and numbers. Example: B 25 means that this is normal concrete with a compressive strength of 25 N/mm².
There are various intermediate values up to the highest strength class B 55, so you can make a classification easily, quickly and accurately using the concrete test hammer. The concrete tester is always delivered factory calibrated when ordered, but can also be optionally (at extra cost) laboratory calibrated and equipped with an ISO test certificate / test certificate. General information on compressive strength measurement of concrete with the concrete test hammer Compressive strength is generally understood to be the breaking strength measured under uniaxial, short-term compressive loading.
The compressive strength of concrete is essentially determined by the following influencing variables:
Strength of the hardened cement paste
composition and compaction of the concrete
Age and storage conditions
specimen shape and dimensions
Type and duration of loading
The compressive strength is classically determined in the laboratory on concrete cubes or circular cylinders. In the case of cylinders, it is advisable to apply the levelling layer, which is usually required to obtain a flat and smooth upper compression surface, immediately after the protruding concrete has been removed. Cylinders should harden in an upright position. Since in practice hardness testing by laboratory methods is not feasible, the easy-to-handle and relatively accurate concrete testing hammer is used here. The compressive strength is determined by measuring the material hardness by means of the concrete testing hammer (rebound value R) on the surface of the concrete and with the help of the conversion table (on the back of the device) or taken from the table in the operating instructions.
Related results
pc
pce instruments
measurement technology
control technology
weighing technology
laboratory technology
development
production
calibration
pc
pce instruments
measurement technology
control technology
weighing technology
laboratory technology
development
production
calibration
pce
pce instruments
weighing technology
platform scales
shipping scales
pallet scales
inventory scales
platform scales
industrial scales
multifunctional scales
compact scales
weighing platform
pce
pce instruments
measurement technology
machines
systems
vibration measurement
vibration measuring device
vibration measuring device
accelerometer
stethoscope
data logger
Complete catalogs
The offer is aimed exclusively at business customers, companies, public institutions, tradesmen and freelancers. All prices in catalogues are exclusive of VAT, shipping costs and surcharges if applicable.
The manufacturer is exclusively responsible for the content, price and article details of the products and offers presented in the catalogues. Subject to technical and optical changes by the manufacturer and errors excepted.
The manufacturer is exclusively responsible for the content, price and article details of the products and offers presented in the catalogues. Subject to technical and optical changes by the manufacturer and errors excepted.
Product suggestions
-24%
pH meter PCE-PHB 10 especially for outdoor use
PCE-PHB 10
€72.56
€94.92 MSRP
-25%
display / built-in display PCE-BPD-U-46A
PCE-BPD-U-46A
€568.31
€756.89 MSRP
-25%
lifting table scale / industrial scale PCE-HLTS 2T
PCE-HLTS 2T
€3,566.34
€4,749.91 MSRP
-25%
thickness gauge PCE-CT 80HP-F5N3
PCE-CT 80HP-F5N3
€750.75
€999.91 MSRP
-24%
Radiation Meter PCE-EM 29
PCE-EM 29
€201.50
€265.88 MSRP
-25%
1 + 3-phase power analyzer PCE-360 | RS-232 interface | PC cable | software | 512 K data logger
PCE-360
€1,257.56
€1,674.92 MSRP
-24%
Installation aid PCE-HVAC 10
PCE-HVAC 10
€189.37
€249.91 MSRP
-25%
Closing Force Measuring Device Original BIA Cl. 1 for Bus and Train Doors
BIA1-SY-10-310
€2,654.92
€3,536.01 MSRP
-24%
PCE-HS 300N Digital Crane Scale Weighing range (max.) 300 kg | incl. shackle + hook | Accurate ±1% of Mb. | Metal | LCD
PCE-HS 300N
€76.39
€99.91 MSRP
-25%
Defectoscope PCE-FD 20
PCE-FD 20
€3,452.98
€4,598.90 MSRP
-24%
material test bench PCE-FTS50
PCE-FTS50
€439.45
€579.92 MSRP
-25%
ATP measuring device PCE-ATP 1-KIT3 for surfaces and water
PCE-ATP 1-KIT3
€1,441.51
€1,919.91 MSRP
-24%
Earth Tester PCE-ET 3000
PCE-ET 3000
€399.29
€526.89 MSRP
-25%
Borescope PCE-VE 380N
PCE-VE 380N
€1,614.20
€2,149.91 MSRP
-25%
AW tester PCE-WAM 10
PCE-WAM 10
€579.57
€771.89 MSRP
No Review yet
Description: No Review yet
Written by: No Review
Rating: 5 out of 5
5 stars, based on 1
reviews
PCE hardness tester PCE-HT-75
pc
pce instruments
measurement technology
control technology
weighing technology
laboratory technology
development
production
calibration
pc
pce instruments
measurement technology
control technology
weighing technology
laboratory technology
development
production
calibration
pce
pce instruments
weighing technology
platform scales
shipping scales
pallet scales
inventory scales
platform scales
industrial scales
multifunctional scales
compact scales
weighing platform
pce
pce instruments
measurement technology
machines
systems
vibration measurement
vibration measuring device
vibration measuring device
accelerometer
stethoscope
data logger
The concrete test hammer works on the principle of Schmidt. In addition to the essential use in the building and construction field, the easiest to use concrete test hammer is essentially used for other purposes in many other industries (winding hardness testing of products on a roll, ...).
The test is performed under an impact energy of 0.735 J, which is always the same. The initial kinetic rebound energy is given as a measure of concrete hardness / surface pressure or compressive strength (kg/cm² or converted to N/mm²) on the concrete test hammer. The quality of concrete is mainly assessed on the basis of its compressive strength, since this is directly decisive for the load-bearing behavior and durability of structures made of concrete. The concrete test hammer applies a significantly lower impact energy to the concrete, which is why it is particularly suitable for testing thin-walled elements up to a material thickness of 100 mm. Compressive strength is designated by a sequence of letters and numbers. Example: B 25 means that this is normal concrete with a compressive strength of 25 N/mm².
There are various intermediate values up to the highest strength class B 55, so you can make a classification easily, quickly and accurately using the concrete test hammer. The concrete tester is always delivered factory calibrated when ordered, but can also be optionally (at extra cost) laboratory calibrated and equipped with an ISO test certificate / test certificate. General information on compressive strength measurement of concrete with the concrete test hammer Compressive strength is generally understood to be the breaking strength measured under uniaxial, short-term compressive loading.
The compressive strength of concrete is essentially determined by the following influencing variables:
Strength of the hardened cement paste
composition and compaction of the concrete
Age and storage conditions
specimen shape and dimensions
Type and duration of loading
The compressive strength is classically determined in the laboratory on concrete cubes or circular cylinders. In the case of cylinders, it is advisable to apply the levelling layer, which is usually required to obtain a flat and smooth upper compression surface, immediately after the protruding concrete has been removed. Cylinders should harden in an upright position. Since in practice hardness testing by laboratory methods is not feasible, the easy-to-handle and relatively accurate concrete testing hammer is used here. The compressive strength is determined by measuring the material hardness by means of the concrete testing hammer (rebound value R) on the surface of the concrete and with the help of the conversion table (on the back of the device) or taken from the table in the operating instructions. T-910046 PCE-HT-75 4250348715418 en ["de","en","it","nl","nl","fr","es","pl","pt","cs","da","sv"] https://www.toolteam.com/en-GB/pce-hardness-tester-pce-ht-75-t-910046-4250348715418?dc=GB&cu=EUR 2026-07-07 492.52 United Kingdom GB DE 14
The test is performed under an impact energy of 0.735 J, which is always the same. The initial kinetic rebound energy is given as a measure of concrete hardness / surface pressure or compressive strength (kg/cm² or converted to N/mm²) on the concrete test hammer. The quality of concrete is mainly assessed on the basis of its compressive strength, since this is directly decisive for the load-bearing behavior and durability of structures made of concrete. The concrete test hammer applies a significantly lower impact energy to the concrete, which is why it is particularly suitable for testing thin-walled elements up to a material thickness of 100 mm. Compressive strength is designated by a sequence of letters and numbers. Example: B 25 means that this is normal concrete with a compressive strength of 25 N/mm².
There are various intermediate values up to the highest strength class B 55, so you can make a classification easily, quickly and accurately using the concrete test hammer. The concrete tester is always delivered factory calibrated when ordered, but can also be optionally (at extra cost) laboratory calibrated and equipped with an ISO test certificate / test certificate. General information on compressive strength measurement of concrete with the concrete test hammer Compressive strength is generally understood to be the breaking strength measured under uniaxial, short-term compressive loading.
The compressive strength of concrete is essentially determined by the following influencing variables:
Strength of the hardened cement paste
composition and compaction of the concrete
Age and storage conditions
specimen shape and dimensions
Type and duration of loading
The compressive strength is classically determined in the laboratory on concrete cubes or circular cylinders. In the case of cylinders, it is advisable to apply the levelling layer, which is usually required to obtain a flat and smooth upper compression surface, immediately after the protruding concrete has been removed. Cylinders should harden in an upright position. Since in practice hardness testing by laboratory methods is not feasible, the easy-to-handle and relatively accurate concrete testing hammer is used here. The compressive strength is determined by measuring the material hardness by means of the concrete testing hammer (rebound value R) on the surface of the concrete and with the help of the conversion table (on the back of the device) or taken from the table in the operating instructions. T-910046 PCE-HT-75 4250348715418 en ["de","en","it","nl","nl","fr","es","pl","pt","cs","da","sv"] https://www.toolteam.com/en-GB/pce-hardness-tester-pce-ht-75-t-910046-4250348715418?dc=GB&cu=EUR 2026-07-07 492.52 United Kingdom GB DE 14