Testing Machine Product List and Ranking from 42 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

Testing Machine Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

  1. GRIFFY Tokyo//others
  2. Toyo Seiki Seisaku-sho, LTD. Tokyo//others
  3. インストロンジャパンカンパニイリミテッド 日本支社 Kanagawa//others
  4. 4 エフティーエス Tokyo//Trading company/Wholesale
  5. 5 応用計測サービス Saitama//Other construction industries
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Testing Machine Product ranking

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

  1. Instron Testing Machine Comprehensive Catalog インストロンジャパンカンパニイリミテッド 日本支社
  2. Field tensile testing machine "Techno Tester"
  3. Noise Vibration Cloud Measurement System GRIFFY
  4. 4 Turbidity Cloud Measurement System GRIFFY
  5. 5 Georegistration method 太洋基礎工業

Testing Machine Product List

796~810 item / All 1211 items

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Blower type fermentation tank (medium pressure / low pressure)

Blower type fermentation tank (medium pressure / low pressure)

Energy-saving ventilation device through blower selection based on raw material characteristics.

A blower ventilation fermentation tank utilizing the ventilation know-how developed at Mirai-e. We design an appropriate ventilation system according to the characteristics of the raw materials and the processing volume. Depending on customer requirements, we prioritize either fermentation or drying, achieving high fermentation/drying efficiency through appropriate design.

  • Fertilizers and Pesticides
  • others

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Vibration testing of full-scale structures

Vibration testing of full-scale structures

Vibration tests close to real environmental conditions for large structural specimens such as beam-column structures, walls, bridge piers, and abutments are possible.

It will be possible to conduct multi-axial quasi-static cyclic tests, quasi-static/dynamic tests, and continuous dynamic tests on large test specimens that include beam-column structures, walls, bridge piers, abutments, and other structures/components. The vertical load capacity is 5,900 kN, the horizontal load capacity is 3,900 kN, and the maximum horizontal displacement is 406 mm. With an extremely high loading capacity, testing of structures using a method that applies load until failure occurs on ultra-large test specimens, which has never been achieved before, will be realized. There is no other vibration testing system capable of conducting tests on such a large scale. ■□━━━━━━━━━━━━━━━━━・・・・・‥‥‥……… We have published actual 'case studies'! Take this opportunity to download and view the catalog. Alternatively, feel free to contact us. ■□━━━━━━━━━━━━━━━━━・・・・・‥‥‥………

  • Steel structure construction
  • Foundation construction
  • Rock drills, demolition machines, and excavators

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[Case Study] University at Buffalo, State University of New York, Shake Table Facility 6DOF

[Case Study] University at Buffalo, State University of New York, Shake Table Facility 6DOF

Providing technology that can be flexibly configured to quickly meet the new requirements of the exam.

Over the past 30 years, the University at Buffalo (UB) Structural Engineering and Earthquake Simulation Laboratory (SEESL) has played a key role in the advancements of civil structural engineering. The laboratory has conducted high-quality education and pioneering research, and has assisted various industries in the development of codes, standards, and testing methods. Since 1983, MTS has provided SEESL with configurable technologies that can quickly adapt to new testing requirements, as well as ongoing expertise in testing necessary for the laboratory's engineers to pursue new research methodologies. This long-term relationship has enabled SEESL to continuously demonstrate new technologies that improve the accuracy of civil structures and seismic simulations. In 2004, SEESL significantly renovated its facilities, expanding them threefold and integrating a series of state-of-the-art MTS testing equipment. "Without MTS's presence and support, I don't know if we would have come this far. The partnership with MTS over the past 30 years has been wonderful. I hope this relationship continues in the future," was the comment we received. For more details, please contact us or refer to the catalog.

  • Other measuring instruments
  • Other analytical equipment

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[Case Study] Hydraulic Source and Control Device Upgrade

[Case Study] Hydraulic Source and Control Device Upgrade

We are supporting the dramatic efficiency improvement of the testing facility affected by the flood.

On June 7, 2008, the research technology applied mechanics lab of Cummins Inc., headquartered in Columbus, Indiana, was affected by flooding. Cummins is a global leader in the design and production of diesel engines and related technologies, offering a wide range of products from 3.3L small engines to 78L high-power large engines. The fatigue evaluation tests for engine components conducted in this lab have long utilized MTS application software, load frames, control systems, actuators, and hydraulic supply systems; however, the flooding completely devastated the load frames, control devices, and hydraulic systems. In response to the recovery efforts, MTS service representatives acted very quickly from the start, rapidly identifying which equipment could be repaired and which needed replacement, and provided guidance on how to restart and resume operations in the shortest possible time. As a result, 13 MTS load frames were restored to like-new performance. For more details, please contact us or refer to the catalog.

  • Other measuring instruments
  • Other analytical equipment

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[Case Study] Introduction of MTS Rolling Road Wind Tunnel Testing Equipment

[Case Study] Introduction of MTS Rolling Road Wind Tunnel Testing Equipment

Support for the development of the world's first commercial full-scale rolling road.

The MTS Flat-Trac® rolling road is 10.5 feet (3.2 meters) wide and 29.5 feet (8.9 meters) long. It is easy to maintain the same speed as the wind and can accelerate from zero to 180 miles per hour (289.6 kilometers) in under a minute. This "road" is actually a seamless stainless steel belt that is 1 millimeter thick. During testing, sensors through the belt accurately measure the downforce of each tire. Advanced software enables high-precision and robust vehicle performance evaluation. It includes sophisticated control and data collection capabilities, providing unprecedented insights into the performance of race vehicles. Testing is conducted without the boundary layer common to fixed wind tunnels that limit the consistency of test data for low-profile vehicles. For more details, please contact us or refer to the catalog.

  • Other measuring instruments
  • Other analytical equipment

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[Case Study] Introduction of a Large High-Performance Vibration Table

[Case Study] Introduction of a Large High-Performance Vibration Table

Reproducing the world's largest amplitude of long-period seismic motion.

Kajima Corporation, a major general construction company in Japan, possesses advanced technology and know-how accumulated over the years, as well as the industry's leading research institute, and is engaged in technological development and the horizontal deployment of new technologies and methods as a leading company in the industry. Kajima has long regarded shake tables as important experimental equipment for improving seismic technology in earthquake-prone Japan, having introduced its first shake table in 1975. Although it was updated in 1991, it was anticipated that the current performance would not be sufficient to address the demands posed by expected massive earthquakes, long-period earthquakes, and further seismic reinforcement considerations for nuclear facilities due to revisions in national guidelines. Therefore, Kajima began discussions in 2008 for further updates with MTS, based on its numerous achievements with large shake tables worldwide and its past accomplishments in seismic reinforcement of important structures such as high-rise buildings and nuclear power plants.

  • others

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