Shimadzu Corp.
Shimadzu Corporation has remained committed to commercializing cutting-edge technology and providing it to customers in a wide array of industries for more than 140 years. Our brand statement, "Excellence in Science", reflects our desire and attitude to diligently respond to customers' requirements by offering superior, world-class analytical and measuring instruments, medical imaging systems, aircraft equipment and industrial machinery for the advancement of human health, the safety and security of society, and industrial processes. In today’s challenging, ever-changing landscape, Shimadzu aims to partner with customers to meet their needs with unique technologies and solutions.
- 81-75-823-1111
- 1 Nishinokyo Kuwabara-cho
Nakagyo-ku
Kyoto, 604-8511
Japan
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100 N Pantograph Grips
Pantograph grips use a simple spring design to hold and apply pressure to specimens during tensile testing. These grips are mainly used for tensile testing plate specimens of rubber, textiles, or soft plastics.
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Impurity Analysis In Bulk Gas
High-purity gas is necessary in industries such as chemical, medical, and foods. Precisely controlled GC enables identification and quantitation of a trace amount of impurities in bulk gas. If the gas resources in a factory consist of multiple lines, a sample line selector SLS-2020 can be utilized to switch sample lines automatically, allowing a single GC to analyze all samples.
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5 KN Grips For Fine Wire
These grips offer a suitable method for tensile testing soft metal wires, ropes, and strings, all with a diameter of 3 mm (0.12 in) or less. The upper and lower grips include an articulated joint to maintain alignment of the specimen with the testing axis during testing.
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Manual Non-Shift Wedge Grips
Manual non-shift wedge grips are versatile grips for tensile testing a wide variety of materials, including metals, plastics, and composites. The open-front design allows easy insertion of specimens and exchange of grip faces. The self-tightening action means samples are held firmly within the grip faces, minimizing slippage during testing.
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Optical Fiber Tensile Jig
This jig is designed for tensile testing optical fibers and other brittle fibers. The jig consists of upper and lower pneumatic flat grips with flat grip faces followed by large-diameter capstans.
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Analytical Data System For FTIR
LabSolutions IR
Network-enabled as part of the LabSolutions family, LabSolutions IR is furnised with rich spectral libraries and a high-performance search functio as standard. Labor-saving macros provide for a higher level of automation and improved work efficiency.
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Trap-Free 2D LC/MS System For Quadrupole LCMS
Question:When impurities are detected by UV under non-volatile mobile phase conditions, does one need to adapt the method to use volatile mobile phase additives for LCMS confirmation?
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Method Optimization System Triple Capillary Column GC
Simultaneous Three-Column Analysis with a Single Sample Injection and No Column Replacement Provides More Efficient Investigation of Separation Conditions
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Fully Automatic Tensile Testing System
This is a fully automatic tensile testing system for metals. The system is fully automated from supply of specimens, measurement of specimens, tensile testing, recovery of specimens, and data processing, and is capable of continuous nighttime testing.
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Software Packages
GLUON
The software uses notched specimens (CT specimens) to evaluate the material elasto-plastic fracture toughness value (JIC). The test is conducted at constant loading rate under test-force control or CTOD control and the load is removed to calculate the crack length. The software plots graphs of the crack length increase (Δa) and crack growth resistance (J value) from the acquired data, calculates the JIC value, and evaluates its validity.
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Wet Oxidation TOC Analyzer
TOC-VWP
Phosphoric acid and the oxidant (persulfate) are added to the sample, which is heated under UV illumination to convert the TC in the sample to carbon dioxide. This carbon dioxide flows with the carrier gas via the dehumidifier into the NDIR sample cell. The area of the carbon dioxide peak signal is measured and this peak area is converted to TC concentration using a pre-prepared calibration curve.