All-winning Corp.

台北市, 
Taiwan
http://www.allwinning.com.tw/
  • Booth: M1053
  • - 4th Floor


Zwick/Roell 材料試驗機的世界領導品牌,廣泛的應用在R&D、品管部門超過20產業, 銷售至世界各地的公司行號


 Products

  • 靜態萬能材料試驗機 Static materials testing machines
    靜態試驗機的首選<br />專為拉伸、壓縮、撕裂、彎曲、黏著度等多種測試設計之高強度材料試驗機。適合各個領域,例如:研發部門、品管檢驗部門,不論是研究材料或是品質管理,我們都可以提供非常好的使用體驗。<br />桌上型單軸式驗機<br />荷重範圍:500N~5KN<br />德國得獎作品<br />雙測試區域(選配)<br />...

  • Powerful, flexible, cost-effective testing solution for all your testing requirements

    The zwickiLine testing machine is equally ideal for research and development as for routine quality assurance testing. Development and manufacture of zwickiLine, including all mechanical, electronic and software components—together with the comprehensive range of accessories—take place at ZwickRoell's production facility in Germany, so all components work together seamlessly.

    • The zwickiLine is an easy-to-use, transportable single-column materials testing machine
    • It is a high-quality, cost-effective, space-saving testing system
    • Because it is lightweight and has a small footprint, this modular system fits easily on any laboratory table.
    • Despite the fact that it is small in size and is lightweight, the zwickiLine is an extremely powerful and efficient machine

    Applications

    The zwicki is designed for quasi-static loading with increasing, pulsating or cyclic tests through an electro-mechanical drive system.

    It is especially designed for mechanical testing applications with low loads. It is used for tensile, compression, and flexure tests.

    The zwicki is particularly suitable for production monitoring, goods inwards checks, for demonstration or teaching purposes in schools and for reliable quality assurance testing.

  • 動態疲勞試驗機 Dynamic Testing Machines for Fatigue
    動態疲勞試驗機 Dynamic Testing Machines for Fatigue<br />適用於小負荷的試驗環境,我們提供1, 2, 5, 10KN的大範圍可以選擇。<br /><br />可用於3/4-point 彎曲試驗、BGA peeling 試驗、module 試驗,也可薄膜拉伸疲勞試驗。<br />廣泛的應用在不同材料與成品,如半導體晶圓、手機面板、高性能電池儲存裝置等等,經過疲勞試驗可推算產品的耐久度,同時研發也可以經由此試驗改進產品設計與材料選用。...

  • The LTM electrodynamic testing machines are used to determine the durability of materials and components in the finite life fatigue and high cycle fatigue ranges.

    The LTM’s wide speed range allows it to be used for both dynamic fatigue tests and quasi-static tests. The oil-free drive, combined with ease of installation, makes the electrodynamic testing machine ideal for use in biomedical engineering and electronics, as well as for research and training. Typical examples include tests on hip-joint and knee replacements and dental implants. Other applications are tests on standard plastics and composites specimens, as well as aluminum and plastics CT and SEB specimens. 

    The electrodynamic testing machine is available with loads of 1, 2, 3, 5 and 10 kN.

    Advantages

    • High dynamic performance due to low moving mass
    • Wide speed-range enables dynamic as well as quasi-static tests
    • Low operating and maintenance costs with oil-free drive technology without additional supply feeds
    • Motor-driven traverse adjustment for convenient operation
    • safe setup mode as per EN 60204-1 via speed reduction to 10 mm/s
    • Simple manual crosshead locking via hand lever with electrical monitoring and LED status indicator
    • Long piston-stroke (60 mm) enables wide variety of applications
    • Operator-friendly testXpert R testing software with preset controller settings and availability of free controller definition for dynamic testing requirements
    • Intelligent testing software testXpert III featuring intuitive operation for static testing requirements.
    • Flexible use of specimen grips and fixtures over the entire dynamic product range
    • The electromagnetic drive was designed specifically for the speed range relevant to testing technology and features exceptionally quiet operation, optimum control quality and extremely high positioning accuracy
    • The travel measuring system is coaxial to the test axis and mounted near the specimen in the piston rod, enabling high positioning repeatability and precise piston travel measurement

    Test frequencies

    The test frequencies, which are up to 100 Hz depending on the test, ensure short test times and with that high specimen throughput.

    Maintenance-free operation

    Wear-free components ensure maintenance-free operation.

    Connections

    The linear motor does not require any additional media connections such as for pneumatics, coolant or oil. This lowers maintenance and installation costs.

  • 萬用硬度試驗機 Hardness Testing Machines
    硬度試驗是一物體藉由更硬的物體穿刺所展現的抵抗,因此有了度量更硬的物體後得到標準的硬度值,藉由此物體去量測其他物體,就可以得到硬度值。<br /><br />我們提供目前全世界使用的硬度試驗方式與標準,例如:Rockwell hardness、Martens hardness 、ball indentation hardness、Vickers depth measurement、Brinell depth measurement、Nanoindenter / hardness tester。<br />...

  • Hardness Testing Machines

    Today’s state-of-the-art hardness testing machines can be used in the widest range of applications. They are based on technologies that use innovative mechatronic components for high-precision testing, particularly in quality assurance, production-line testing and in the laboratory.

    Decades of experience, sound expertise and products that ensure reliable test results, paired with a strong and comprehensive sales and service network—all under one roof. The ZwickRoell hardness testing team with more than 100 employees offers an attractive and complete product portfolio. We have the right systems for all test methods. Our product line includes a full range of hardness testing equipment for use on metals, plastics, rubber and special materials according to all the principal and globally accepted standards. ZwickRoell's hardness testing solutions range from manual standard applications to fully automatic testing systems.

    Our hardness testing machines and instruments are based on many years of experience in supplying a wide range of equipment around the world and maintaining constant communication with the people who use it. Our testing systems are versatile and highly intelligent thanks to their state-of-the-art mechanical components, powerful electronics, and user-friendly software. The ZwickRoell Group runs a DAkkS-accredited calibration laboratory in accordance with ISO 17025 UKAS, based on the National Metrological Standard. This guarantees traceable certification of ZwickRoell hardness testers, hardness reference blocks, and indenters.

    In 2021, Austrian hardness testing machine manufacturer EMCO-TEST became part of the ZwickRoell Group. For over 65 years, EMCO-TEST has been known for innovative products in hardness testing. More than 50 employees work at the headquarters in Kuchl, Austria. EMCO-TEST specializes in the field of traditional hardness testing and offers a unique product portfolio.

  • 奈米機械性質測Nanomechanical test methods and instruments
    The Universal Nanomechanical Tester is designed for the determination of hardness and Young's Modulus on materials and coating systems, also perform cyclic indentation tests and indentation tests with superimposed oscillation.<br /><br />...

  • Due to its high level of modularity it is more than a nanoindenter or hardness tester. It can be used with a measuring
    head (NFU) as a:
    • Nanoindenter / hardness tester for measurements between 0.05 mN - 20000 mN depending on the measuring head
    used

    • Micro tensile testing instrument in the same force range

    • Fatigue tester up to 2 Hz quasi-static or up to 300 Hz with dynamic module
    • Dynamic mechanical tester (DMA) up to approx 100 Hz with dynamic module
    • Profilometer and with dynamic module also stiffness/modulus mapping
    • Scratch tests

    With a second measuring head for lateral force displacement
    curve (LFU) it can be used as:
    • Scratch test with measurement of the frictional force
    • Oscillating scratch test (oscillation of the specimen vertically
    in the scratch direction)
    • Micro wear tester for reversing wear
    • Micro fretting tester (lateral oscillation) with dynamic module
    • Measuring device for elastic lateral deformations The following
    can be derived:
    ‒ Lateral contact stiffness
    ‒ Poisson's ratio
    ‒ Lateral failure mechanisms

  • 全自動材料試驗機 Automated testing systems
    Automated testing systems ensure compliance with the demanding requirements on testing and system operation. At the same time, the demand for further reductions in specimen throughput times is as strong as ever....

  • With ZwickRoell automation, specimens awaiting testing are manually sorted into magazines. From this point everything takes place automatically, right up to sorting the specimen remains for inspection if required. This relieves qualified laboratory staff of routine activities, leaving them available for more demanding tasks.

    Depending on requirements, additional measuring devices can be integrated into this sequence, particularly ZwickRoell’s cross-section measuring device with four independent, automatically applied measuring transducers for precise determination of the cross-sectional area.

    Graphic visualizations transmit system status in real time to mobile devices such as tablet PCs. This allows full process control via all current browser programs. Visualization increases the efficiency of the robotic testing system by reducing idle time.

    The modular design of the robotic testing system allows manual tests to be performed with the machine whenever required.

    roboTest N Lightweight Robot

    During testXpo 2019 the smart lightweight robot was introduced to our visitors from all over the world. With the roboTest N lightweight robot, simple pick and place applications with a series larger than 10 identical specimens can be automatically fed and disposed of.

    Description

    A typical configuration consists of:

    • Materials testing machine up to 20 kN
    • Tool for function tests, tensile or flexure test
    • Extensometer (optional)
    • robotTest N robotic testing system with integrated magazine for 20-30 specimens
    • Industrial controller with testXpert testing software and autoEdition3 automation software
    • Advantages

    • Due to the complete integration of the lightweight robot into the ZwickRoell software environment, robot programming knowledge is not required for operation.
    • The intuitive user interface for roboTest N in autoEdition 3 also ensures flexible use for future testing applications.
    • With force-controlled drive axes, the roboTest N requires a smaller installation location than conventional industrial robots, while maintaining the same level of safety.