AllroundLine

Individual and versatile

Industries

Test load

Type of test

Applications

AllroundLine floor-standing testing machine in action

Testing with the highest level of safety – AllroundLine floor-standing testing machine with safety device

CE-compliant safety device developed in accordance with latest international standards EN14119 and EN14120.

Advantages & features

Floor-standing testing machine vs. table-top testing machine

Floor-standing testing machine vs. table-top testing machine

/ Table-top testing machine

The load frames of the AllroundLine table-top testing machines are used for almost all tests where low to medium specimen elongation occurs. One, or optionally two test areas are available. For applications beyond ambient temperature, the table-top testing machines can also be equipped with a temperature chamber.

/ Floor-standing testing machine

The load frames of the AllroundLine floor-standing testing machines are primarily used for tests with higher forces, for materials with large strains (e.g. rubber), in cases where larger temperature chambers or environmental chambers are to be integrated, or for tests on very large components. One, or optionally two test areas are available.

Optimum operating convenience

Optimum operating convenience

/ Ergonomics are top priority when it comes to operating the new AllroundLine machine.

/ The machine is adjustable for optimum ergonomic configuration; modular design allows adaptation as and when required.

/ Adjustable crossheads allow test area configuration to be varied.

/ The base features leveling damping units and clear space for a lift-trolley, allowing easy adaptation to suit the installation site (applies to Z150 TL AllroundLine floor-standing machines).

Adjustable upright profiles combined with low base-height enable flexible variation of the working area. This also allows wheelchair-friendly operation (applies to AllroundLine table top testing machines).

High stiffness and precise crosshead guidance

High stiffness and precise crosshead guidance

The stiff load-frame profile, generous connecting surfaces and ruggedly dimensioned components ensure high machine stiffness. The inclination angle of the crosshead under load is reduced, enabling very precise alignment and application of force to the specimen. This is advantageous for flexure tests, compression tests, precision tests on components etc.

Mechanical Modularity

Mechanical Modularity

Mechanical modularity enables the testing system to be expanded by the wide range of ZwickRoell test fixtures and specimen grips or with customized devices. This is where the highly adaptable, play-free plug and T-slot system comes into its own, backed by a wide variety of crosshead mount options. Specimen grips and test tools can be changed whenever required, enabling a wide range of tests to be performed with the same testing machine and allowing rapid, highly flexible adaptation to the current testing situation.

Integrated safety in accordance with the EC Machinery Directive

Integrated safety in accordance with the EC Machinery Directive

Maximum level of safety for user and testing system is guaranteed. All EC Machinery Directive safety requirements are guaranteed. Compliance is documented with an EC Declaration of Conformity. State-of-the-art safety technology and proven industrial components that comply with the highest level of safety and industrial standards (IEC 60947) are used.

Ready for changes in future technology

Ready for changes in future technology

Modular design means that the testing system can be re-equipped or upgraded whenever required. Moreover, testControl II machine electronics are compatible with future-generation ZwickRoell software. Even after a product has been discontinued, spare parts continue to be available for a minimum of 10 years.

Two Test Areas

Two Test Areas

With the second test area, different tests can be performed on one materials testing machine without having to change tools. This guarantees reproducible test results, and the need for a second testing machine is eliminated. In addition, both test environments can be operated with one load cell, saving in acquisition and calibration costs.

Side test area

Side test area

Up to three areas in one testing machine

/ Ergonomically adjustable operating height for both test areas

/ Save time and money because retrofitting is not necessary

/ The side test area accommodates a vast number of applications and requires little space.

/ Specimen throughput is increased with the testXpert III system configuration builder. Every system configuration is ready for testing with the press of a button. When loading the test program all relevant test parameters (tool separation, test speed, etc.) are loaded. This makes it easy to change from the standard to the side system configuration.

Modern load-frame design

 

Modern load-frame design

AllroundLine is equipped with a patented, flexurally stiff hollow profile with guide-cylinder. Long guides with generous surface areas ensure high-precision crosshead guidance. This combination minimizes undesired mechanical influences on the specimen. T-slots incorporated into the profile provide flexible mounting options.

Highly accurate tests at temperature

Highly accurate tests at temperature

The testing machine including temperature chamber features convenient, intuitive operation via the testing software. All components (materials testing machine, extensometer, and testing software) are developed in-house at ZwickRoell.

Technical overview

Technical data

General technical data for zwickiLine Z0.5 to Z5.0

Drive system

Motor

Controller

Cycle time

Positioning repeatability (without reversal of direction)

AC servo motor with concentrated windings, Hiperface motor feedback system

Adaptive

1000

± 2.0

.

Hz

μm

Description Value
Machine electronics
Force measurement Class 0.5/1, depending on load cell, compliant to DIN EN ISO 7500-1, ASTM E4
Measurement range Up to 165% of Fmax
Calculated resolution (e.g., load cell in tensile/compression direction) 24 bit
Effective resolution in tensile/compression direction: USC module 20 bits (corresponds to ±1,000,000 points)
Measured value transmission rate to PC 500 (optional 2000) Hz
Interface to PC Ethernet
Eco mode Yes, automatic switch off of power section (time can be set)
CE conformity Yes, according to Machinery Directive 2006/42/EC

Properties according to force range

Type

Test load Fmax

Test area

Height

   Lower test area

   Upper test area (additional crosshead required)

Width

Drive system

Crosshead speed vmin ... vmax

Crosshead return speed, max.

Drive travel resolution

Z005 TN

5

.

1030

1015

440

0.0005 ... 30003)

30003)

0.959431

Z005 TH

5

.

1430

1415

440

0.0005 ... 30003)

30003)

0.959431

Z005 TE

5

.

1785

1785

440

0.0005 ... 30003)

30003)

0.959431

.

kN

.

mm

mm

mm

mm/min

mm/min

μm

Type

Test load Fmax

Test area

Height

   Lower test area

   Upper test area (additional crosshead required)

Width

Drive system

Crosshead speed vmin ... vmax

Crosshead return speed, max.

Drive travel resolution

Z005 TNW

5

.

1000

1015

640

0.0005 ... 30002)

30002)

0.959431

Z005 THW

5

.

1400

1415

640

0.0005 ... 30002)

30002)

0.959431

.

kN

.

mm

mm

mm

mm/min

mm/min

μm

Type

Test load Fmax

Test area

Height

   Lower test area

   Upper test area (additional crosshead required)

Width

Drive system

Crosshead speed vmin ... vmax

Crosshead return speed, max.

Drive travel resolution

Z010 TN

10

.

1030

1015

440

0.0005 ... 20003)

30003)

0.636632

Z010 TH

10

.

1430

1415

440

0.0005 ... 20003)

30003)

0.636632

Z010 TE

10

.

1785

1785

440

0.0005 ... 20003)

30003)

0.636632

.

kN

.

mm

mm

mm

mm/min

mm/min

μm

Type

Test load Fmax

Test area

Height

   Lower test area

   Upper test area (additional crosshead required)

Width

Drive system

Crosshead speed vmin ... vmax

Crosshead return speed, max

Drive travel resolution

Z010 TNW

10

.

1000

1015

640

0.0005 ... 20003)

30003)

0.636632

Z010 THW

10

.

1400

1415

640

0.0005 ... 20003)

30003)

0.636632

Z010 TEW

10

.

1755

1785

640

0.0005 ... 20003)

30003)

0.0830

.

kN

.

mm

mm

mm

mm/min

mm/min

μm

Type

Test load Fmax

Test area

Height

   Lower test area

   Upper test area (additional crosshead required)

Width

Drive system

Crosshead speed vmin ... vmax

Crosshead return speed, max

Drive travel resolution

Z020 TN

20

.

1030

1015

440

0.0005 ... 10003)

15003)

0.324947

Z020 TH

20

.

1430

1415

440

0.0005 ... 10003)

15003)

0.324947

Z020 TE

20

.

1785

1785

440

0.0005 ... 10003)

15003)

0.324947

.

kN

.

mm

mm

mm

mm/min

mm/min

μm

Type

Test load Fmax

Test area

Height

   Lower test area

   Upper test area (additional crosshead required)

Width

Drive system

Crosshead speed vmin ... vmax

Crosshead return speed, max.

Drive travel resolution

Z020 TNW

20

.

1000

1015

640

0.0005 ... 10003)

15003)

0.324947

Z020 THW

20

.

1400

1415

640

0.0005 ... 10003)

15003)

0.324947

Z020 TEW

20

.

1755

1785

640

0.0005 ... 10003)

15003)

0.324947

.

kN

.

mm

mm

mm

mm/min

mm/min

μm

Type

Test load Fmax

Test area

Height

   Lower test area

   Upper test area (additional crosshead required)

Width

Drive system

Crosshead speed vmin ... vmax

Crosshead return speed, max.

Drive travel resolution

Z030 TH

30

.

1355

1380

440

0.0005 ... 10003)

15003)

0.529819

Z030 TE

30

.

1755

1780

440

0.0005 ... 10003)

15003)

0.529819

Z030 THW

30

.

1325

1365

640

0.0005 ... 10003)

15003)

0.529819

Z030 TEW

30

.

1725

1765

640

0.0005 ... 10003)

15003)

0.529819

.

kN

.

mm

mm

mm

mm/min

mm/min

μm

Type

Test load Fmax

Test area

Height

   Lower test area

   Upper test area (additional crosshead required)

Width

Drive system

Crosshead speed vmin ... vmax

Crosshead return speed, max.

Deviation from the set drive speed, max.

Drive travel resolution

Z050 TH

50

.

1355

1380

440

0.0005 ... 600

10003)

0.05

0.317891

Z050 TE

50

.

1755

1780

440

0.0005 ... 600

10003)

0.05

0.317891

Z050 THW

50

.

1325

1365

640

0.0005 ... 600

10003)

0.05

0.317891

Z050 TEW

50

.

1725

1765

640

0.0005 ... 600

10003)

0.05

0.317891

.

kN

.

mm

mm

mm

mm/min

mm/min

% of Vactual

μm

Type

Test load Fn In tensile / compression direction

Load frame

Test area width (1

Test area height (2

   P 3: lower, crossh.bottom

   P 4: upper & lower

Drive system

Crosshead speed up to 110% of test load (vmin ... vNom)

Increased crosshead return speed (at reduced force)

Drive system's travel resolution

Z250 SH

250

640

1000

2260

2175

0.0005 ... 600

100

0.19227

Z250 SE

250

640

1400

2560

2475

0.0005 ... 600

100

0.19227

.

kN

mm

mm

mm

mm

mm/min

mm/min

μm

Downloads

Name

Product information: AllroundLine, Fmax 5-100 kN

Product information: AllroundLine, Fmax 250 kN

Product information: Floor-standing AllroundLine

Type

PDF

PDF

PDF

Size

1 MB

1 MB

514 KB

Do you have any questions regarding our products?

Please feel free to contact our product experts.

We look forward to discussing your needs.

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    ADDRESS

    178/57 พุทธมณฑลสาย2 ซอย33 แขวงศาลาธรรมสพน์ เขตทวีวัฒนา กรุงเทพฯ 10170 ประเทศไทย

    PHONE

    +66 (0) 2 024 8471
    +66 (0) 81 420 1638

    EMAIL

    Sales@scsinstruments.co.th
    Service@scsinstruments.co.th

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