Testing Systems×エムティエスジャパン - List of Manufacturers, Suppliers, Companies and Products

[Case Study] MTS Bionix Desktop Axial Servo Hydraulic Testing System

We are helping to pursue next-generation vertebral bone cement.

A team of 20 functional materials scientists at Uppsala University’s Faculty of Science and Technology in Uppsala, Sweden, is conducting various research on biomaterials and is currently focusing on research related to bone cement. Uppsala University has partnered with MTS to support bone cement research and has incorporated the MTS Model 858 Bionix tabletop axial servo hydraulic testing system into its functional materials science testing lab. By combining this system with the MTS Bionix EnviroBath environmental simulation system, it has become possible to apply various loads simultaneously to bone cement in a saline solution maintained at human body temperature. As a result, they successfully replicated the loads and conditions that the cement injected into a patient’s body would ultimately experience long after surgery. Customers have stated that with the introduction of the MTS Bionix testing solutions, they can dedicate more time to focusing on new formulations without worrying about the performance of the testing system or the reliability of the test data. For more details, please contact us or refer to the catalog.

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[Case Study] Landmark Road Frame and Test Suite

We are assisting F1 teams through advanced software variable operations.

Formula One test engineers face some of the most demanding testing challenges in the world. For the UK-based Caterham F1 team, which entered the competition in 2010, conducting fast and flexible mechanical tests from the very beginning has been absolutely essential for the team's success. When it came time to select testing equipment for the newly completed Caterham F1 team's test lab, the test team leader chose MTS. Having used MTS's control systems and load frames for many years, he was already well acquainted with their performance. He was confident that MTS's hardware would provide the speed, accuracy, and flexibility his test team needed, enabling the continuous improvement of the Formula One team. Additionally, MTS TestSuite software brought competitiveness to the team in the high-pressure, quick-results environment characteristic of Formula One testing. For more details, please contact us or refer to the catalog.

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[Case Study] Shell Element Test System Upgrade

The expertise and technology of MTS played a crucial role in the success of the upgrade.

Professor Evan Bentz from the University of Toronto and a research group from the Mark Hagin Structural Research Institute are conducting cutting-edge research on the properties of reinforced concrete under harsh conditions. With recent significant advances in concrete materials science, the engineers at the institute began to feel the limitations of their research tool, the Shell Element Test (SET) system. They believed that to successfully upgrade the SET system, they needed a vendor who could first clarify what was possible, and then another vendor to implement it. They found a manufacturer that could achieve both simultaneously: MTS. By early 2010, the upgrade of the SET system was completed, and this static testing system effectively transformed into a dynamic testing system with enhanced durability and performance. The upgraded SET system now allows for simulations that closely resemble the actual operating conditions of today’s reinforced concrete structures. For more details, please contact us or refer to the catalog.

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Rock drills, demolition machines, and excavators
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[Case Study] A Testing Lab Specialized in Orthopedic Devices for the Spine

High-precision long-term wear and fatigue testing of the lumbar spine and cervical region! Capable of mounting six test specimens, providing a statistically valid sample size.

We have prepared a module that allows for high-precision long-term wear and fatigue testing of both lumbar and cervical vertebrae in the lab, and also accommodates the important requirement of SpineServ for multiple test specimens by allowing the attachment of six test specimens. The shaker can uniformly apply bending, lateral bending, and axial rotation motions simultaneously to all six test specimens. *For more details, please contact us or refer to the catalog.*

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[Case Study] Addition of Step-Down Gearbox

We support the steady transition from OEM testing facilities to contracted testing labs.

Toyota Motorsport GmbH (TMG), based in Cologne, Germany, has utilized a wide range of high-performance testing equipment from MTS Systems Corporation since 2001 to meet the needs of its Formula One vehicle development. In 2009, TMG made the formal decision to make its testing capabilities and the expertise of its dedicated staff available to external customers. Instead of investing time and money into a new testing system, TMG explored ways to extend the versatility of its existing testing systems by modifying software and hardware. Over several weeks, TMG and MTS worked closely together to complete the technical modifications across the facility. A key modification was the addition of a step-down gearbox to TMG's custom transmission testing system. This was aimed at improving the accuracy of test lab evaluations by replicating the loads, pressures, and operating temperatures present in the gearbox environment. MTS was indispensable for the smooth transition from TMG's testing lab to the contracted testing facility. For more details, please contact us or refer to the catalog.

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[Case Study] Introduction of MTS Hydraulics Program

It contributes to maintaining the accuracy of the equipment and the integrity of the test data at a very high level.

The George E. Brown Jr. Network for Earthquake Engineering Simulation (NEES) connects 14 earthquake research facilities across the United States through NEEShub, a user-demand-driven cyber infrastructure. A major challenge for NEES is the efficient maintenance and operation of mechanical testing and simulation testing systems used at member institutions. Efficient routine maintenance and calibration of testing systems are essential for consistently maintaining high levels of testing accuracy and system uptime. In 2005, MTS launched a comprehensive support program for member institutions that adopt MTS technology for seismic testing and simulation. The MTS Hydraulix program regularly monitors the cleanliness of the hydraulic fluid in testing systems as a means to prevent significant and costly mechanical issues in the future. MTS's certified calibration and adjustment services contribute to maintaining the accuracy of equipment and the integrity of test data at exceptionally high levels. For more details, please contact us or refer to the catalog.

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[Case Study] Upgrade of High-Temperature Material Testing Equipment

We support UCF in conducting mechanical tests in extreme environments.

The University of Central Florida (UCF) in Orlando has built a reputation for high-quality education and technological innovation since its establishment in 1963. In particular, the MMAE program at the university has established solid partnerships over the years with global manufacturers such as Siemens Power Generation, Lockheed Martin, Pratt & Whitney, and Mitsubishi Power System, as well as institutions like the Kennedy Space Center. UCF has set a policy to expand its high-temperature materials testing facilities and make this field a cornerstone of research at the university. To enhance mechanical testing capabilities at high temperatures, it was necessary to equip a variety of instruments and tools, including load frames, control systems, and software, and a testing solution partner with expertise in integrating advanced systems was required. MTS was chosen for this purpose. Upgrading the materials characterization testing facilities in MMAE has brought significant benefits not only to students in the College of Engineering and Computer Science but also to UCF's commercial partners. For more details, please contact us or refer to the catalog.

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[Case Study] Introduction of Model 320 2-Poster Testing Equipment

It contributes to maintaining the top position of one of the world's largest scooter manufacturers.

The Piaggio Group, represented by the Vespa brand, is a world-class manufacturer of motorized bicycles (mopeds), scooters, and motorcycles based in Pontedera, Italy, with an annual production of over 600,000 vehicles. Piaggio's seven brands are supported by 6,700 employees in 50 countries and five research and development centers. In November 2008, Piaggio introduced the MTS Model 320 two-poster testing system in its mechanical lab in Pontedera in close collaboration with MTS. This two-axis tire contact surface input simulator uses MTS RPC software to accurately and repeatedly reproduce loads caused by road surface inputs across the entire prototype vehicle, simulating loads and moments equivalent to test courses that include rough road testing. This allows the testing personnel to simulate conditions that a typical rider encounters during everyday driving, enabling them to obtain clear data on how the vehicle will ultimately perform after years of use. For more details, please contact us or refer to the catalog.

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Prime movers, torque converters, hydraulic equipment, generators
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[Case Study] Introduction of MTS Structural Fatigue Testing System

Providing major military aircraft manufacturers with the ability to quickly and safely dissipate energy from testing devices.

MTS provided support for incorporating the Active Load Abort (ALA) system into each test fixture used by Airbus Military for the Airbus A400M transport aircraft. The ALA technology is ideal for protecting test specimens, as it enhances control to remove loads from the structural testing system in the event of power outages or system interlocks. During such events, regardless of changes in pressure or the position of each shaker, the ALA system performs measurements and simultaneously reduces the loads of all shakers to a neutral state at both the software and hardware levels. Additionally, while lowering the hydraulic pressure on the specimen, an independent control system is activated in parallel with the load control system, taking into account the overall state of the test. This system detects faults on the control side and adjusts to ensure that loads are rapidly and evenly removed from the entire specimen. For more details, please contact us or refer to the catalog.

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[Case Study] Introduction of MTS Bionix® Axial Torsion Testing System

We support the implementation of translational research.

MTS supports the implementation of translational research necessary to bridge the gap between histochemistry and OR at the Human Soft Tissue Research Laboratory. MTS assisted Mr. Obopilwe in integrating the Bionix® torsion testing system, which features the FlexTest® digital controller and Multipurpose TestWare® application software. "The Bionix system allows for the precise application of loads and motions across various multi-axes and numerous cycles," says Mr. Obopilwe. "This capability is extremely helpful in assessing how much torsion or axial force a joint can withstand before failure. It has been particularly useful in evaluating new orthopedic surgeries related to the knee and ankle. For more information, please contact us or refer to the catalog."

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[Case Study] Introduction of MTS Material Testing System

Designed and collaborated on a unique mechanical testing system when applying neutron scattering technology.

In-situ research includes temperature distribution, texture changes, stress growth, and drop in extremely high and low temperature operating environments. Additionally, the VULCAN system facilitates simultaneous characterization of dilatometry, weight, and microstructure, allowing for extremely accurate and detailed snapshots of the atomic state of materials at every stage. For more details, please contact us or refer to the catalog.

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[Case Study] MTS Model 858 Bionix Testing System

We are helping to provide more beneficial information before scoliosis surgery.

The Talbot Technology Research Institute (ITT Dublin) is a university-level institution located in South Dublin, Ireland. The Biomechanics Technology Center (BTC) is a research center established within the Faculty of Engineering, providing intensive guidance to a small number of students pursuing a graduate degree in biomedical engineering. In March 2009, BTC upgraded its mechanical testing capabilities related to the spine by purchasing the MTS Bionix testing system equipped with the MTS FlexTest control system and MTS MultiPurpose TestWare (MPT) software. The new MTS testing system allows for pre-loading of spinal test specimens to accurately determine the forces required to restore the spine to its natural alignment during surgery. This process holds significant potential for understanding what is needed during spinal fixation procedures based on the curvature that varies from patient to patient. It is predicted that this new method will reduce operating room time by 25 percent, leading to a decrease in the risk of infection and a shorter recovery time. For more details, please contact us or refer to the catalog.

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Analysis and prediction system
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[Case Study] MTS 10kN Electromechanical Testing System

I contribute to the realization of a practical educational environment at the VCU School of Biomedical Engineering.

At the Virginia Commonwealth University (VCU) Biomedical Engineering Research Institute, there are currently eight MTS electromechanical testing systems with a load capacity of 10 kN in operation, utilizing the MTS TestWorks application software, which features a flexible and intuitive user interface for designing and conducting tests. Additionally, each testing device is equipped with MTS wedge mechanism grips, axial extensometers, and custom-designed clamps and test frames. Through practical training in the laboratory, students can design and conduct tests for various loading sequences, such as tension/compression and bending, on a range of tissues and engineering materials, becoming familiar with the functions of the software, load frames, and accessories. According to customers, the MTS testing equipment plays a crucial role in achieving the Biomedical Engineering Research Institute's original goal of creating a practical and meaningful learning environment. For more details, please contact us or refer to the catalog.

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[Case Study] High-Temperature Material Testing System

A Canadian research institute provided support to open new frontiers in high-temperature material testing.

The development of "high-temperature materials" designed for long-term use under extremely high-temperature conditions is fundamental to next-generation jet engines and gas turbines, redefining the concept of energy efficiency. Some of the most advanced investigations in this field are being conducted at the Structural and Materials Performance Laboratory of the National Research Council of Canada’s Institute for Aerospace Engineering in Ottawa, Ontario. The Materials and Components Technology Group has introduced 18 different MTS products for high-temperature testing. Their lineup includes the MTS Model 810 Load Frame and the latest MTS Landmark hydraulic testing systems. The laboratory utilizes two MTS hydraulic power sources, FlexTest digital controllers, and multipurpose testing software (Multipurpose TestWare). Additionally, they combine MTS testing accessories such as hydraulic grips, extensometers, and electric furnaces with their testing equipment. Customers have commented, "MTS equipment is reliable and traceable. By using MTS testing systems, we can obtain the data necessary to make informed decisions." For more details, please contact us or refer to the catalog.

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[Case Study] MTS Active Road Abatement (ALA) System

A major aircraft manufacturer has achieved optimization of flight control for business jets.

To ensure safe and smooth flights with the Gulfstream G650 business jet, Gulfstream Aerospace Corporation has introduced the "Iron Bird" test system. This is a structural model created with strict positional relationships and accurate dimensions to replicate the actual aircraft, rigorously evaluating flight control, hydraulic, electrical systems, and landing gear under various operational conditions. To prevent damage to the Iron Bird system, Gulfstream employs the MTS Active Load Abort (ALA) system, which simultaneously removes all hydraulic energy applied to the system when error thresholds are exceeded. With MTS's solution, Gulfstream has created an Iron Bird test environment with dynamic load-following capabilities in the lab before the first flight. MTS engineers have participated in the design development, integration, execution, and training phases of this project and continue to provide technical support. "MTS's contribution to the success of the G650 aircraft is something to be proud of," the customer states. For more information, please contact us or refer to the catalog.

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Testing Systems×エムティエスジャパン - List of Manufacturers, Suppliers, Companies and Products

Testing Systems Product List